router commands

configure 
router string 
aggregates 
aggregate (ipv4-prefix | ipv6-prefix) 
aggregator 
address string
as-number number
apply-groups reference
apply-groups-exclude reference
as-set boolean
blackhole 
generate-icmp boolean
community string
description string
discard-component-communities boolean
indirect (ipv4-address-no-zone | ipv6-address-no-zone)
local-preference number
policy reference
summary-only boolean
tunnel-group number
apply-groups reference
apply-groups-exclude reference
allow-icmp-redirect boolean
allow-icmp6-redirect boolean
apply-groups reference
apply-groups-exclude reference
autonomous-system number
bfd 
seamless-bfd 
peer (ipv4-address-no-zone | ipv6-address-no-zone) 
apply-groups reference
apply-groups-exclude reference
discriminator number
bgp 
add-paths 
evpn 
receive boolean
send (number | keyword)
ipv4 
receive boolean
send (number | keyword)
ipv6 
receive boolean
send (number | keyword)
label-ipv4 
receive boolean
send (number | keyword)
label-ipv6 
receive boolean
send (number | keyword)
mcast-vpn-ipv4 
receive boolean
send number
mcast-vpn-ipv6 
receive boolean
send number
mvpn-ipv4 
receive boolean
send number
mvpn-ipv6 
receive boolean
send number
vpn-ipv4 
receive boolean
send (number | keyword)
vpn-ipv6 
receive boolean
send (number | keyword)
admin-state keyword
advertise-external 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
advertise-inactive boolean
advertise-ipv6-next-hops 
evpn boolean
ipv4 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
aggregator-id-zero boolean
apply-groups reference
apply-groups-exclude reference
asn-4-byte boolean
authentication-key string
authentication-keychain reference
backup-path 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
best-path-selection 
always-compare-med 
med-value keyword
strict-as boolean
as-path-ignore 
ipv4 boolean
ipv6 boolean
l2-vpn boolean
label-ipv4 boolean
label-ipv6 boolean
mcast-ipv4 boolean
mcast-ipv6 boolean
mvpn-ipv4 boolean
mvpn-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
compare-origin-validation-state boolean
d-path-length-ignore boolean
deterministic-med boolean
ebgp-ibgp-equal 
evpn boolean
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
ignore-nh-metric boolean
ignore-router-id 
include-internal 
mvpn-ipv4 boolean
mvpn-ipv6 boolean
origin-invalid-unusable boolean
bfd-liveness boolean
bgp-tunnel-metric 
prefer-aigp boolean
value number
bgp-tunnel-preference number
block-prefix-sid boolean
client-reflect boolean
cluster 
allow-local-fallback boolean
cluster-id string
orr-location number
connect-retry number
convergence 
family keyword 
apply-groups reference
apply-groups-exclude reference
max-wait-to-advertise number
min-wait-to-advertise number
damp-peer-oscillations 
error-interval number
idle-hold-time 
initial-wait number
max-wait number
second-wait number
damping boolean
def-recv-evpn-encap keyword
default-label-preference 
ebgp number
ibgp number
default-preference 
ebgp number
ibgp number
description string
dynamic-neighbor-limit number
ebgp-default-reject-policy 
export boolean
import boolean
egress-peer-engineering 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
enforce-first-as boolean
error-handling 
update-fault-tolerance boolean
export 
apply-groups reference
apply-groups-exclude reference
policy (policy-expr-string | string)
extended-nh-encoding 
ipv4 boolean
label-ipv4 boolean
vpn-ipv4 boolean
family 
bgp-ls boolean
evpn boolean
flow-ipv4 boolean
flow-ipv6 boolean
flow-vpn-ipv4 boolean
flow-vpn-ipv6 boolean
ipv4 boolean
ipv6 boolean
l2-vpn boolean
label-ipv4 boolean
label-ipv6 boolean
mcast-ipv4 boolean
mcast-ipv6 boolean
mcast-vpn-ipv4 boolean
mcast-vpn-ipv6 boolean
mdt-safi boolean
ms-pw boolean
mvpn-ipv4 boolean
mvpn-ipv6 boolean
route-target boolean
sr-policy-ipv4 boolean
sr-policy-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
fast-external-failover boolean
flowspec 
validate-dest-prefix boolean
validate-redirect-ip boolean
graceful-restart 
gr-notification boolean
long-lived 
advertise-stale-to-all-neighbors boolean
advertised-stale-time number
family keyword 
advertised-stale-time number
apply-groups reference
apply-groups-exclude reference
helper-override-stale-time number
forwarding-bits-set keyword
helper-override-restart-time number
helper-override-stale-time number
without-no-export boolean
restart-time number
stale-routes-time number
group string 
add-paths 
evpn 
receive boolean
send (number | keyword)
ipv4 
receive boolean
send (number | keyword)
ipv6 
receive boolean
send (number | keyword)
label-ipv4 
receive boolean
send (number | keyword)
label-ipv6 
receive boolean
send (number | keyword)
mcast-vpn-ipv4 
receive boolean
send number
mcast-vpn-ipv6 
receive boolean
send number
mvpn-ipv4 
receive boolean
send number
mvpn-ipv6 
receive boolean
send number
vpn-ipv4 
receive boolean
send (number | keyword)
vpn-ipv6 
receive boolean
send (number | keyword)
admin-state keyword
advertise-inactive boolean
advertise-ipv6-next-hops 
evpn boolean
ipv4 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
aggregator-id-zero boolean
aigp boolean
apply-groups reference
apply-groups-exclude reference
as-override boolean
asn-4-byte boolean
authentication-key string
authentication-keychain reference
bfd-liveness boolean
block-prefix-sid boolean
capability-negotiation boolean
client-reflect boolean
cluster 
allow-local-fallback boolean
cluster-id string
orr-location number
connect-retry number
damp-peer-oscillations 
error-interval number
idle-hold-time 
initial-wait number
max-wait number
second-wait number
damping boolean
def-recv-evpn-encap keyword
default-label-preference 
ebgp number
ibgp number
default-preference 
ebgp number
ibgp number
default-route-target boolean
description string
dynamic-neighbor 
match 
prefix (ipv4-prefix | ipv6-prefix) 
allowed-peer-as string
apply-groups reference
apply-groups-exclude reference
dynamic-neighbor-limit number
ebgp-default-reject-policy 
export boolean
import boolean
egress-engineering 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
egress-peer-engineering-label-unicast boolean
enforce-first-as boolean
error-handling 
update-fault-tolerance boolean
export 
apply-groups reference
apply-groups-exclude reference
policy (policy-expr-string | string)
extended-nh-encoding 
ipv4 boolean
label-ipv4 boolean
vpn-ipv4 boolean
family 
bgp-ls boolean
evpn boolean
flow-ipv4 boolean
flow-ipv6 boolean
flow-vpn-ipv4 boolean
flow-vpn-ipv6 boolean
ipv4 boolean
ipv6 boolean
l2-vpn boolean
label-ipv4 boolean
label-ipv6 boolean
mcast-ipv4 boolean
mcast-ipv6 boolean
mcast-vpn-ipv4 boolean
mcast-vpn-ipv6 boolean
mdt-safi boolean
ms-pw boolean
mvpn-ipv4 boolean
mvpn-ipv6 boolean
route-target boolean
sr-policy-ipv4 boolean
sr-policy-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
fast-external-failover boolean
graceful-restart 
gr-notification boolean
long-lived 
advertise-stale-to-all-neighbors boolean
advertised-stale-time number
family keyword 
advertised-stale-time number
apply-groups reference
apply-groups-exclude reference
helper-override-stale-time number
forwarding-bits-set keyword
helper-override-restart-time number
helper-override-stale-time number
without-no-export boolean
restart-time number
stale-routes-time number
hold-time 
minimum-hold-time number
seconds number
import 
apply-groups reference
apply-groups-exclude reference
policy (policy-expr-string | string)
initial-send-delay-zero boolean
keepalive number
label-preference number
link-bandwidth 
accept-from-ebgp 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
add-to-received-ebgp 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
aggregate-used-paths 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
send-to-ebgp 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
local-address (ipv4-address-no-zone | ipv6-address-no-zone | interface-name)
local-as 
as-number number
prepend-global-as boolean
private boolean
local-preference number
loop-detect keyword
loop-detect-threshold number
med-out (number | keyword)
min-route-advertisement number
monitor 
admin-state keyword
all-stations boolean
apply-groups reference
apply-groups-exclude reference
route-monitoring 
post-policy boolean
pre-policy boolean
station reference 
multihop number
multipath-eligible boolean
next-hop-self boolean
next-hop-unchanged 
evpn boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
origin-validation 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
outbound-route-filtering 
extended-community 
accept-orf boolean
send-orf 
route-target string 
passive boolean
path-mtu-discovery boolean
peer-as number
peer-ip-tracking boolean
preference number
prefix-limit keyword 
apply-groups reference
apply-groups-exclude reference
idle-timeout number
log-only boolean
maximum number
post-import boolean
threshold number
remove-private 
limited boolean
replace boolean
skip-peer-as boolean
segment-routing-v6 
route-advertisement 
drop-routes-with-srv6-tlvs boolean
family keyword 
apply-groups reference
apply-groups-exclude reference
strip-srv6-tlvs boolean
selective-label-ipv4-install boolean
send-communities 
extended boolean
large boolean
standard boolean
send-default 
export-policy reference
ipv4 boolean
ipv6 boolean
split-horizon boolean
static-group boolean
tcp-mss (number | keyword)
third-party-nexthop boolean
ttl-security number
type keyword
vpn-apply-export boolean
vpn-apply-import boolean
hold-time 
minimum-hold-time number
seconds number
ibgp-multipath boolean
import 
apply-groups reference
apply-groups-exclude reference
policy (policy-expr-string | string)
initial-send-delay-zero boolean
inter-as-vpn boolean
keepalive number
label-allocation 
label-ipv6 
explicit-null boolean
label-preference number
link-state-route-export boolean
link-state-route-import boolean
local-as 
as-number number
prepend-global-as boolean
private boolean
local-preference number
loop-detect keyword
loop-detect-threshold number
med-out (number | keyword)
min-route-advertisement number
monitor 
admin-state keyword
all-stations boolean
apply-groups reference
apply-groups-exclude reference
route-monitoring 
post-policy boolean
pre-policy boolean
station reference 
mp-bgp-keep boolean
multihop number
multipath 
ebgp number
family keyword 
apply-groups reference
apply-groups-exclude reference
ebgp number
ibgp number
max-paths number
restrict keyword
unequal-cost boolean
ibgp number
max-paths number
restrict keyword
unequal-cost boolean
mvpn-vrf-import-subtype-new boolean
neighbor (ipv4-address-with-zone | ipv6-address-with-zone) 
add-paths 
evpn 
receive boolean
send (number | keyword)
ipv4 
receive boolean
send (number | keyword)
ipv6 
receive boolean
send (number | keyword)
label-ipv4 
receive boolean
send (number | keyword)
label-ipv6 
receive boolean
send (number | keyword)
mcast-vpn-ipv4 
receive boolean
send number
mcast-vpn-ipv6 
receive boolean
send number
mvpn-ipv4 
receive boolean
send number
mvpn-ipv6 
receive boolean
send number
vpn-ipv4 
receive boolean
send (number | keyword)
vpn-ipv6 
receive boolean
send (number | keyword)
admin-state keyword
advertise-inactive boolean
advertise-ipv6-next-hops 
evpn boolean
ipv4 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
advertise-ldp-prefix boolean
aggregator-id-zero boolean
aigp boolean
apply-groups reference
apply-groups-exclude reference
as-override boolean
asn-4-byte boolean
authentication-key string
authentication-keychain reference
bfd-liveness boolean
block-prefix-sid boolean
capability-negotiation boolean
client-reflect boolean
cluster 
allow-local-fallback boolean
cluster-id string
orr-location number
connect-retry number
damp-peer-oscillations 
error-interval number
idle-hold-time 
initial-wait number
max-wait number
second-wait number
damping boolean
def-recv-evpn-encap keyword
default-label-preference 
ebgp number
ibgp number
default-preference 
ebgp number
ibgp number
default-route-target boolean
description string
ebgp-default-reject-policy 
export boolean
import boolean
egress-engineering 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
egress-peer-engineering-label-unicast boolean
enforce-first-as boolean
error-handling 
update-fault-tolerance boolean
export 
apply-groups reference
apply-groups-exclude reference
policy (policy-expr-string | string)
extended-nh-encoding 
ipv4 boolean
label-ipv4 boolean
vpn-ipv4 boolean
family 
bgp-ls boolean
evpn boolean
flow-ipv4 boolean
flow-ipv6 boolean
flow-vpn-ipv4 boolean
flow-vpn-ipv6 boolean
ipv4 boolean
ipv6 boolean
l2-vpn boolean
label-ipv4 boolean
label-ipv6 boolean
mcast-ipv4 boolean
mcast-ipv6 boolean
mcast-vpn-ipv4 boolean
mcast-vpn-ipv6 boolean
mdt-safi boolean
ms-pw boolean
mvpn-ipv4 boolean
mvpn-ipv6 boolean
route-target boolean
sr-policy-ipv4 boolean
sr-policy-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
fast-external-failover boolean
graceful-restart 
gr-notification boolean
long-lived 
advertise-stale-to-all-neighbors boolean
advertised-stale-time number
family keyword 
advertised-stale-time number
apply-groups reference
apply-groups-exclude reference
helper-override-stale-time number
forwarding-bits-set keyword
helper-override-restart-time number
helper-override-stale-time number
without-no-export boolean
restart-time number
stale-routes-time number
group reference
hold-time 
minimum-hold-time number
seconds number
import 
apply-groups reference
apply-groups-exclude reference
policy (policy-expr-string | string)
initial-send-delay-zero boolean
keepalive number
l2vpn-cisco-interop boolean
label-preference number
link-bandwidth 
accept-from-ebgp 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
add-to-received-ebgp 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
aggregate-used-paths 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
send-to-ebgp 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
local-address (ipv4-address-no-zone | ipv6-address-no-zone | interface-name)
local-as 
as-number number
prepend-global-as boolean
private boolean
local-preference number
loop-detect keyword
loop-detect-threshold number
med-out (number | keyword)
min-route-advertisement number
monitor 
admin-state keyword
all-stations boolean
apply-groups reference
apply-groups-exclude reference
route-monitoring 
post-policy boolean
pre-policy boolean
station reference 
multihop number
multipath-eligible boolean
next-hop-self boolean
next-hop-unchanged 
evpn boolean
label-ipv4 boolean
label-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
origin-validation 
ipv4 boolean
ipv6 boolean
label-ipv4 boolean
label-ipv6 boolean
outbound-route-filtering 
extended-community 
accept-orf boolean
send-orf 
route-target string 
passive boolean
path-mtu-discovery boolean
peer-as number
peer-creation-type keyword
peer-ip-tracking boolean
preference number
prefix-limit keyword 
apply-groups reference
apply-groups-exclude reference
idle-timeout number
log-only boolean
maximum number
post-import boolean
threshold number
remove-private 
limited boolean
replace boolean
skip-peer-as boolean
segment-routing-v6 
route-advertisement 
drop-routes-with-srv6-tlvs boolean
family keyword 
apply-groups reference
apply-groups-exclude reference
strip-srv6-tlvs boolean
selective-label-ipv4-install boolean
send-communities 
extended boolean
large boolean
standard boolean
send-default 
export-policy reference
ipv4 boolean
ipv6 boolean
split-horizon boolean
tcp-mss (number | keyword)
third-party-nexthop boolean
ttl-security number
type keyword
vpn-apply-export boolean
vpn-apply-import boolean
neighbor-trust 
vpn-ipv4 boolean
vpn-ipv6 boolean
next-hop-resolution 
allow-unresolved-leaking boolean
labeled-routes 
allow-static boolean
rr-use-route-table boolean
transport-tunnel 
family keyword 
allow-flex-algo-fallback boolean
apply-groups reference
apply-groups-exclude reference
enforce-strict-tunnel-tagging boolean
resolution keyword
resolution-filter 
bgp boolean
ldp boolean
mpls-fwd-policy boolean
rib-api boolean
rsvp boolean
sr-isis boolean
sr-ospf boolean
sr-ospf3 boolean
sr-policy boolean
sr-te boolean
udp boolean
use-bgp-routes 
label-ipv6-explicit-null boolean
policy reference
shortcut-tunnel 
family keyword 
allow-flex-algo-fallback boolean
apply-groups reference
apply-groups-exclude reference
disallow-igp boolean
enforce-strict-tunnel-tagging boolean
resolution keyword
resolution-filter 
bgp boolean
ldp boolean
mpls-fwd-policy boolean
rib-api boolean
rsvp boolean
sr-isis boolean
sr-ospf boolean
sr-ospf3 boolean
sr-policy boolean
sr-te boolean
use-bgp-routes boolean
vpn-family-policy reference
weighted-ecmp boolean
optimal-route-reflection 
location number 
apply-groups reference
apply-groups-exclude reference
primary-ip-address string
primary-ipv6-address string
secondary-ip-address string
secondary-ipv6-address string
tertiary-ip-address string
tertiary-ipv6-address string
spf-wait 
initial-wait number
max-wait number
second-wait number
outbound-route-filtering 
extended-community 
accept-orf boolean
send-orf 
route-target string 
override-tunnel-elc boolean
path-mtu-discovery boolean
peer-ip-tracking boolean
peer-tracking-policy reference
preference number
purge-timer number
rapid-update 
evpn boolean
l2-vpn boolean
label-ipv4 boolean
label-ipv6 boolean
mcast-vpn-ipv4 boolean
mcast-vpn-ipv6 boolean
mdt-safi boolean
mvpn-ipv4 boolean
mvpn-ipv6 boolean
vpn-ipv4 boolean
vpn-ipv6 boolean
rapid-withdrawal boolean
remove-private 
limited boolean
replace boolean
skip-peer-as boolean
rib-management 
ipv4 
leak-import 
apply-groups reference
apply-groups-exclude reference
policy (policy-expr-string | string)
route-table-import 
apply-groups reference
apply-groups-exclude reference
policy-name reference
ipv6 
leak-import 
apply-groups reference
apply-groups-exclude reference
policy (policy-expr-string | string)
route-table-import 
apply-groups reference
apply-groups-exclude reference
policy-name reference
label-ipv4 
leak-import 
apply-groups reference
apply-groups-exclude reference
policy (policy-expr-string | string)
route-table-import 
apply-groups reference
apply-groups-exclude reference
policy-name reference
label-ipv6 
route-table-import 
apply-groups reference
apply-groups-exclude reference
policy-name reference
route-table-install boolean
route-target-list string 
router-id string
rr-vpn-forwarding boolean
segment-routing 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
prefix-sid-range 
global 
max-index number
start-label number
segment-routing-v6 
family keyword 
add-srv6-tlvs 
locator-name reference
apply-groups reference
apply-groups-exclude reference
ignore-received-srv6-tlvs boolean
resolution keyword
source-address string
selective-label-ip-prioritization boolean
selective-label-ipv4-install boolean
send-communities 
extended boolean
large boolean
standard boolean
send-default 
export-policy reference
ipv4 boolean
ipv6 boolean
split-horizon boolean
sr-policy-import boolean
subconfed-vpn-forwarding boolean
tcp-mss number
third-party-nexthop boolean
vpn-apply-export boolean
vpn-apply-import boolean
bier 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bfd-liveness keyword
fast-reroute boolean
template string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
sub-domain number end number 
apply-groups reference
apply-groups-exclude reference
bfr-id number
multi-topology keyword
prefix string
class-forwarding boolean
confederation 
confed-as-num number
members number 
description string
dhcp-server 
apply-groups reference
apply-groups-exclude reference
dhcpv4 string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
description string
failover 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
ignore-mclt-on-takeover boolean
maximum-client-lead-time number
partner-down-delay number
peer reference 
apply-groups reference
apply-groups-exclude reference
sync-tag string
startup-wait-time number
force-renews boolean
lease-hold 
additional-scenarios 
internal-lease-ipsec boolean
solicited-release boolean
time number
pool string 
apply-groups reference
apply-groups-exclude reference
description string
failover 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
ignore-mclt-on-takeover boolean
maximum-client-lead-time number
partner-down-delay number
peer reference 
apply-groups reference
apply-groups-exclude reference
sync-tag string
startup-wait-time number
max-lease-time number
min-lease-time number
minimum-free 
absolute number
event-when-depleted boolean
percent number
nak-non-matching-subnet boolean
offer-time number
options 
option (number | keyword) 
apply-groups reference
apply-groups-exclude reference
ascii-string string
duration number
empty 
hex-string string
ipv4-address string
netbios-node-type keyword
subnet string 
address-range string end string 
apply-groups reference
apply-groups-exclude reference
failover-control-type keyword
apply-groups reference
apply-groups-exclude reference
drain boolean
exclude-addresses string end string 
maximum-declined number
minimum-free 
absolute number
event-when-depleted boolean
percent number
options 
option (number | keyword) 
apply-groups reference
apply-groups-exclude reference
ascii-string string
duration number
empty 
hex-string string
ipv4-address string
netbios-node-type keyword
pool-selection 
use-gi-address 
scope keyword
use-pool-from-client 
delimiter string
user-db reference
user-identification keyword
dhcpv6 string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
auto-provisioned boolean
defaults 
apply-groups reference
apply-groups-exclude reference
options 
option (number | keyword) 
apply-groups reference
apply-groups-exclude reference
ascii-string string
domain-string string
duration number
empty 
hex-string string
ipv6-address string
preferred-lifetime number
rebind-time number
renew-time number
valid-lifetime number
description string
failover 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
ignore-mclt-on-takeover boolean
maximum-client-lead-time number
partner-down-delay number
peer reference 
apply-groups reference
apply-groups-exclude reference
sync-tag string
startup-wait-time number
ignore-rapid-commit boolean
interface-id-mapping boolean
lease-hold 
additional-scenarios 
internal-lease-ipsec boolean
solicited-release boolean
time number
lease-query boolean
pool string 
apply-groups reference
apply-groups-exclude reference
delegated-prefix 
length number
maximum number
minimum number
description string
exclude-prefix string 
failover 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
ignore-mclt-on-takeover boolean
maximum-client-lead-time number
partner-down-delay number
peer reference 
apply-groups reference
apply-groups-exclude reference
sync-tag string
startup-wait-time number
options 
option (number | keyword) 
apply-groups reference
apply-groups-exclude reference
ascii-string string
domain-string string
duration number
empty 
hex-string string
ipv6-address string
prefix string 
apply-groups reference
apply-groups-exclude reference
drain boolean
failover-control-type keyword
options 
option (number | keyword) 
apply-groups reference
apply-groups-exclude reference
ascii-string string
domain-string string
duration number
empty 
hex-string string
ipv6-address string
preferred-lifetime number
prefix-length-threshold number 
absolute number
apply-groups reference
apply-groups-exclude reference
event-when-depleted boolean
percent number
prefix-type 
pd boolean
wan-host boolean
rebind-time number
renew-time number
valid-lifetime number
prefix-length-threshold number 
apply-groups reference
apply-groups-exclude reference
event-when-depleted boolean
minimum-free-percent number
pool-selection 
use-link-address 
scope keyword
use-pool-from-client 
delimiter string
server-id 
apply-groups reference
apply-groups-exclude reference
duid-enterprise 
ascii-string string
hex-string string
duid-link-local 
user-identification keyword
dns 
redirect-vprn 
service reference 
apply-groups reference
apply-groups-exclude reference
preference number
ecmp number
entropy-label boolean
fib-priority keyword
fib-telemetry boolean
firewall 
apply-groups reference
apply-groups-exclude reference
domain string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
dhcpv6-server 
name string
router-instance string
nat-group reference
prefix string 
apply-groups reference
apply-groups-exclude reference
description string
wlan-gw-group reference
flowspec 
apply-groups reference
apply-groups-exclude reference
filter-cam-type keyword
ip-filter-max-size number
ipv6-filter-max-size number
gtm 
apply-groups reference
apply-groups-exclude reference
mvpn boolean
provider-tunnel 
inclusive 
rsvp 
admin-state keyword
lsp-template reference
selective 
data-delay-interval number
data-threshold 
group-prefix (ipv4-prefix | ipv6-prefix) 
apply-groups reference
apply-groups-exclude reference
pe-threshold-add number
pe-threshold-delete number
threshold number
maximum-p2mp-spmsi number
rsvp 
admin-state keyword
lsp-template reference
gtp 
s11 
interface reference 
apn-policy reference
apply-groups reference
apply-groups-exclude reference
peer-profile-map 
prefix (ipv4-prefix | ipv6-prefix) 
apply-groups reference
apply-groups-exclude reference
peer-profile reference
upf-data-endpoint 
apply-groups reference
apply-groups-exclude reference
fpe reference
interface reference
uplink 
apn string
apply-groups reference
apply-groups-exclude reference
pdn-type keyword
peer-profile-map 
prefix (ipv4-prefix | ipv6-prefix) 
apply-groups reference
apply-groups-exclude reference
peer-profile reference
icmp-tunneling boolean
igmp 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
forwarding-group-interface forwarding-service string group-interface-name reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
import-policy reference
maximum-number-group-sources number
maximum-number-groups number
maximum-number-sources number
mcac 
bandwidth 
mandatory (number | keyword)
total (number | keyword)
interface-policy reference
policy reference
query-interval number
query-last-member-interval number
query-response-interval number
query-source-address string
router-alert-check boolean
sub-hosts-only boolean
subnet-check boolean
version keyword
group-if-query-source-address string
group-interface reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
import-policy reference
maximum-number-group-sources number
maximum-number-groups number
maximum-number-sources number
mcac 
bandwidth 
mandatory (number | keyword)
total (number | keyword)
interface-policy reference
policy reference
query-interval number
query-last-member-interval number
query-response-interval number
query-source-address string
router-alert-check boolean
sub-hosts-only boolean
subnet-check boolean
version keyword
interface string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
import-policy reference
maximum-number-group-sources number
maximum-number-groups number
maximum-number-sources number
mcac 
bandwidth 
mandatory (number | keyword)
total (number | keyword)
interface-policy reference
mc-constraints 
level number 
apply-groups reference
apply-groups-exclude reference
bandwidth number
number-down number 
apply-groups reference
apply-groups-exclude reference
level number
use-lag-port-weight boolean
policy reference
query-interval number
query-last-member-interval number
query-response-interval number
redundant-mcast boolean
router-alert-check boolean
ssm-translate 
group-range start string end string 
apply-groups reference
apply-groups-exclude reference
source string 
static 
group string 
apply-groups reference
apply-groups-exclude reference
source string 
starg 
group-range start string end string step string 
apply-groups reference
apply-groups-exclude reference
source string 
starg 
subnet-check boolean
version keyword
query-interval number
query-last-member-interval number
query-response-interval number
robust-count number
ssm-translate 
group-range start string end string 
apply-groups reference
apply-groups-exclude reference
source string 
tunnel-interface 
ldp-p2mp-root reference sender-address reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
static 
group string 
apply-groups reference
apply-groups-exclude reference
source string 
starg 
rsvp-p2mp-root reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
static 
group string 
apply-groups reference
apply-groups-exclude reference
source string 
starg 
interface string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
cflowd-parameters 
sampling keyword 
apply-groups reference
apply-groups-exclude reference
direction keyword
sample-profile (keyword | number)
type keyword
cpu-protection reference
description string
dist-cpu-protection reference
egress 
filter 
ip reference
ipv6 reference
eth-cfm 
mep md-admin-name reference ma-admin-name reference mep-id number 
admin-state keyword
alarm-notification 
fng-alarm-time number
fng-reset-time number
apply-groups reference
apply-groups-exclude reference
ccm boolean
ccm-ltm-priority number
ccm-padding-size number
ccm-tlv-ignore keyword
collect-lmm-fc-stats 
fc keyword
fc-in-profile keyword
collect-lmm-stats boolean
description string
eth-test 
bit-error-threshold number
test-pattern 
crc-tlv boolean
pattern keyword
facility-fault boolean
grace 
eth-ed 
max-rx-defect-window number
priority number
rx-eth-ed boolean
tx-eth-ed boolean
eth-vsm-grace 
rx-eth-vsm-grace boolean
tx-eth-vsm-grace boolean
lbm-svc-act-responder boolean
low-priority-defect keyword
mac-address string
one-way-delay-threshold number
flavor keyword
gre-termination boolean
hold-time 
ipv4 
down 
init-only boolean
seconds number
up 
seconds number
ipv6 
down 
init-only boolean
seconds number
up 
seconds number
if-attribute 
admin-group reference
delay 
delay-selection keyword
dynamic 
measurement-template reference
twamp-light 
ipv4 
admin-state keyword
destination string
source string
ipv6 
admin-state keyword
destination string
source string
static number
srlg-group reference 
ingress 
destination-class-lookup boolean
filter 
ip reference
ipv6 reference
policy-accounting reference
ingress-stats boolean
ip-mtu number
ip-tunnel 
remote-ip string
ipsec 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
ip-exception reference
ipsec-tunnel string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bfd 
bfd-designate boolean
bfd-liveness 
dest-ip string
interface string
service-name string
clear-df-bit boolean
copy-traffic-class-upon-decapsulation boolean
description string
encapsulated-ip-mtu number
icmp-generation 
frag-required 
admin-state keyword
interval number
message-count number
icmp6-generation 
packet-too-big 
admin-state keyword
interval number
message-count number
ip-mtu number
key-exchange 
dynamic 
auto-establish boolean
cert 
cert-profile reference
status-verify 
default-result keyword
primary keyword
secondary keyword
trust-anchor-profile reference
id 
fqdn string
ipv4 string
ipv6 (ipv4-address-no-zone | ipv6-address-no-zone)
ike-policy reference
ipsec-transform reference
pre-shared-key string
manual 
keys number direction keyword 
apply-groups reference
apply-groups-exclude reference
authentication-key string
encryption-key string
ipsec-transform reference
spi number
local-gateway-address-override (ipv4-address-no-zone | ipv6-address-no-zone)
max-history-key-records 
esp number
ike number
pmtu-discovery-aging number
private-sap number
private-service string
private-tcp-mss-adjust number
propagate-pmtu-v4 boolean
propagate-pmtu-v6 boolean
public-tcp-mss-adjust (number | keyword)
remote-gateway-address (ipv4-address-no-zone | ipv6-address-no-zone)
replay-window number
security-policy 
id number
strict-match boolean
ipv6-exception reference
public-sap number
tunnel-group reference
ipv4 
allow-directed-broadcasts boolean
bfd 
admin-state keyword
echo-receive number
multiplier number
receive number
transmit-interval number
type keyword
dhcp 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
description string
gi-address string
option-82 
action keyword
circuit-id 
ascii-tuple 
if-name 
ifindex 
none 
port-id 
vlan-ascii-tuple 
remote-id 
ascii-string string
mac 
none 
vendor-specific-option 
client-mac-address boolean
pool-name boolean
port-id boolean
service-id boolean
string string
system-id boolean
python-policy reference
relay-plain-bootp boolean
release-include-gi-address boolean
server string
src-ip-addr keyword
trusted boolean
icmp 
mask-reply boolean
param-problem 
admin-state keyword
number number
seconds number
redirects 
admin-state keyword
number number
seconds number
ttl-expired 
admin-state keyword
number number
seconds number
unreachables 
admin-state keyword
number number
seconds number
ip-helper-address string
local-dhcp-server reference
neighbor-discovery 
learn-unsolicited boolean
limit 
log-only boolean
max-entries number
threshold number
local-proxy-arp boolean
proactive-refresh boolean
proxy-arp-policy reference
remote-proxy-arp boolean
retry-timer number
static-neighbor string 
apply-groups reference
apply-groups-exclude reference
mac-address string
static-neighbor-unnumbered 
mac-address string
timeout number
primary 
address string
apply-groups reference
apply-groups-exclude reference
broadcast keyword
gre-termination boolean
prefix-length number
track-srrp number
qos-route-lookup keyword
secondary string 
apply-groups reference
apply-groups-exclude reference
broadcast keyword
igp-inhibit boolean
prefix-length number
track-srrp number
tcp-mss number
unnumbered 
ip-address string
ip-int-name string
system 
urpf-check 
ignore-default boolean
mode keyword
vrrp number 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
authentication-key string
backup string
bfd-liveness 
apply-groups reference
apply-groups-exclude reference
dest-ip string
interface-name string
service-name string
init-delay number
mac string
master-int-inherit boolean
message-interval number
monitor-oper-group reference
ntp-reply boolean
oper-group reference
owner boolean
passive boolean
ping-reply boolean
policy reference
preempt boolean
priority number
ssh-reply boolean
standby-forwarding boolean
telnet-reply boolean
traceroute-reply boolean
ipv6 
address string 
apply-groups reference
apply-groups-exclude reference
duplicate-address-detection boolean
eui-64 boolean
prefix-length number
primary-preference number
track-srrp number
bfd 
admin-state keyword
echo-receive number
multiplier number
receive number
transmit-interval number
type keyword
duplicate-address-detection boolean
forward-ipv4-packets boolean
icmp6 
packet-too-big 
admin-state keyword
number number
seconds number
param-problem 
admin-state keyword
number number
seconds number
redirects 
admin-state keyword
number number
seconds number
time-exceeded 
admin-state keyword
number number
seconds number
unreachables 
admin-state keyword
number number
seconds number
link-local-address 
address string
duplicate-address-detection boolean
local-dhcp-server reference
neighbor-discovery 
learn-unsolicited keyword
limit 
log-only boolean
max-entries number
threshold number
local-proxy-nd boolean
proactive-refresh keyword
proxy-nd-policy reference
reachable-time number
secure-nd 
admin-state keyword
allow-unsecured-msgs boolean
public-key-min-bits number
security-parameter number
stale-time number
static-neighbor string 
apply-groups reference
apply-groups-exclude reference
mac-address string
qos-route-lookup keyword
tcp-mss number
urpf-check 
ignore-default boolean
mode keyword
vrrp number 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
backup string
bfd-liveness 
apply-groups reference
apply-groups-exclude reference
dest-ip string
interface-name string
service-name string
init-delay number
mac string
master-int-inherit boolean
message-interval number
monitor-oper-group reference
ntp-reply boolean
oper-group reference
owner boolean
passive boolean
ping-reply boolean
policy reference
preempt boolean
priority number
standby-forwarding boolean
telnet-reply boolean
traceroute-reply boolean
lag 
link-map-profile number
per-link-hash 
class number
weight number
ldp-sync-timer 
end-of-lib boolean
seconds number
load-balancing 
flow-label-load-balancing boolean
ip-load-balancing keyword
lsr-load-balancing keyword
spi-load-balancing boolean
teid-load-balancing boolean
loopback 
mac string
mac-accounting boolean
network-domains 
network-domain reference 
port (port-and-encap | keyword)
ptp-hw-assist 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
qos 
apply-groups reference
apply-groups-exclude reference
egress-instance number
egress-port-redirect-group reference
ingress-fp-redirect-group reference
ingress-instance number
network-policy reference
strip-label boolean
tos-marking-state keyword
untrusted 
default-forwarding keyword
urpf-selected-vprns boolean
vas-if-type keyword
ipsec 
multi-chassis-shunt-interface string 
apply-groups reference
apply-groups-exclude reference
next-hop 
address (ipv4-address-no-zone | ipv6-address-no-zone)
multi-chassis-shunting-profile string 
apply-groups reference
apply-groups-exclude reference
peer reference 
apply-groups reference
apply-groups-exclude reference
multi-chassis-shunt-interface reference
security-policy number 
apply-groups reference
apply-groups-exclude reference
entry number 
apply-groups reference
apply-groups-exclude reference
local-ip 
address string
any boolean
local-ipv6 
address string
any boolean
remote-ip 
address string
any boolean
remote-ipv6 
address string
any boolean
ipv6 
neighbor-discovery 
reachable-time number
stale-time number
router-advertisement 
apply-groups reference
apply-groups-exclude reference
dns-options 
apply-groups reference
apply-groups-exclude reference
rdnss-lifetime (keyword | number)
server string
interface string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
current-hop-limit number
dns-options 
apply-groups reference
apply-groups-exclude reference
include-rdnss boolean
rdnss-lifetime (number | keyword)
server string
managed-configuration boolean
max-advertisement-interval number
min-advertisement-interval number
mtu number
other-stateful-configuration boolean
prefix string 
apply-groups reference
apply-groups-exclude reference
autonomous boolean
on-link boolean
preferred-lifetime (keyword | number)
valid-lifetime (keyword | number)
reachable-time number
retransmit-time number
router-lifetime number
use-virtual-mac boolean
ipv6-te-router-id 
interface reference
isa-service-chaining 
apply-groups reference
apply-groups-exclude reference
nat-group number 
vxlan-vtep-range 
end (ipv4-address-no-zone | ipv6-address-no-zone)
start (ipv4-address-no-zone | ipv6-address-no-zone)
isis number 
admin-state keyword
advertise-passive-only boolean
advertise-router-capability keyword
advertise-tunnel-link boolean
all-l1isis string
all-l2isis string
apply-groups reference
apply-groups-exclude reference
area-address string
authentication-check boolean
authentication-key string
authentication-keychain reference
authentication-type keyword
csnp-authentication boolean
database-export 
bgp-ls-identifier 
value number
igp-identifier number
default-route-tag number
entropy-label 
override-tunnel-elc boolean
export-limit 
log-percent number
number number
export-policy reference
flexible-algorithms 
admin-state keyword
flex-algo number 
advertise reference
apply-groups reference
apply-groups-exclude reference
loopfree-alternate 
micro-loop-avoidance 
participate boolean
graceful-restart 
helper-mode boolean
hello-authentication boolean
hello-padding keyword
ignore-attached-bit boolean
ignore-lsp-errors boolean
ignore-narrow-metric boolean
igp-shortcut 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
tunnel-next-hop 
family keyword 
apply-groups reference
apply-groups-exclude reference
resolution keyword
resolution-filter 
rsvp boolean
sr-te boolean
iid-tlv boolean
import-policy reference
interface string 
adjacency-set reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bfd-liveness 
ipv4 
include-bfd-tlv boolean
ipv6 
include-bfd-tlv boolean
csnp-interval number
default-instance boolean
flex-algo number 
apply-groups reference
apply-groups-exclude reference
ipv4-node-sid 
index number
label number
ipv6-node-sid 
index number
label number
hello-authentication boolean
hello-authentication-key string
hello-authentication-keychain reference
hello-authentication-type keyword
hello-padding keyword
interface-type keyword
ipv4-adjacency-sid 
label number
ipv4-multicast boolean
ipv4-node-sid 
clear-n-flag boolean
index number
label number
ipv6-adjacency-sid 
label number
ipv6-multicast boolean
ipv6-node-sid 
clear-n-flag boolean
index number
label number
ipv6-unicast boolean
level keyword 
apply-groups reference
apply-groups-exclude reference
hello-authentication-key string
hello-authentication-keychain reference
hello-authentication-type keyword
hello-interval number
hello-multiplier number
hello-padding keyword
ipv4-multicast-metric number
ipv6-multicast-metric number
ipv6-unicast-metric number
metric number
passive boolean
priority number
sd-offset number
sf-offset number
level-capability keyword
load-balancing-weight number
loopfree-alternate 
exclude boolean
policy-map 
route-nh-template reference
lsp-pacing-interval number
mesh-group 
blocked 
value number
passive boolean
retransmit-interval number
sid-protection boolean
tag number
ipv4-multicast-routing keyword
ipv4-routing boolean
ipv6-multicast-routing keyword
ipv6-routing keyword
ldp-over-rsvp boolean
ldp-sync boolean
level keyword 
advertise-router-capability boolean
apply-groups reference
apply-groups-exclude reference
authentication-key string
authentication-keychain reference
authentication-type keyword
bier 
admin-state keyword
template reference
csnp-authentication boolean
database-export-exclude boolean
default-ipv4-multicast-metric number
default-ipv6-multicast-metric number
default-ipv6-unicast-metric number
default-metric number
external-preference number
hello-authentication boolean
hello-padding keyword
loopfree-alternate-exclude boolean
lsp-mtu-size number
preference number
psnp-authentication boolean
wide-metrics-only boolean
level-capability keyword
link-group string 
apply-groups reference
apply-groups-exclude reference
description string
level keyword 
apply-groups reference
apply-groups-exclude reference
ipv4-multicast-metric-offset number
ipv4-unicast-metric-offset number
ipv6-multicast-metric-offset number
ipv6-unicast-metric-offset number
member reference 
oper-members number
revert-members number
loopfree-alternate 
augment-route-table boolean
exclude 
prefix-policy reference
multi-homed-prefix 
preference keyword
remote-lfa 
max-pq-cost number
node-protect 
max-pq-nodes number
ti-lfa 
max-sr-frr-labels number
node-protect 
lsp-lifetime number
lsp-minimum-remaining-lifetime number
lsp-mtu-size number
lsp-refresh 
half-lifetime boolean
interval number
mru-mismatch-detection boolean
multi-topology 
ipv4-multicast boolean
ipv6-multicast boolean
ipv6-unicast boolean
multicast-import 
ipv4 boolean
ipv6 boolean
overload 
max-metric boolean
overload-export-external boolean
overload-export-interlevel boolean
overload-on-boot 
max-metric boolean
timeout number
poi-tlv boolean
prefix-attributes-tlv boolean
prefix-limit 
limit number
log-only boolean
overload-timeout (number | keyword)
warning-threshold number
psnp-authentication boolean
reference-bandwidth number
rib-priority 
high 
prefix-list reference
tag number
router-id string
segment-routing 
adj-sid-hold (number | keyword)
adjacency-set number 
advertise boolean
apply-groups reference
apply-groups-exclude reference
family keyword
parallel boolean
sid 
label number
adjacency-sid 
allocate-dual-sids boolean
admin-state keyword
apply-groups reference
apply-groups-exclude reference
class-forwarding boolean
egress-statistics 
adj-set boolean
adj-sid boolean
node-sid boolean
entropy-label boolean
export-tunnel-table keyword
ingress-statistics 
adj-set boolean
adj-sid boolean
node-sid boolean
mapping-server 
admin-state keyword
node-sid-map number 
apply-groups reference
apply-groups-exclude reference
clear-n-flag boolean
ip-prefix string
level-capability keyword
range number
set-flags 
bit-s boolean
maximum-sid-depth 
override-bmi number
override-erld number
micro-loop-avoidance 
fib-delay number
prefix-sid-range 
global 
max-index number
start-label number
srlb reference
tunnel-mtu number
tunnel-table-pref number
segment-routing-v6 
adj-sid-hold (number | keyword)
admin-state keyword
apply-groups reference
apply-groups-exclude reference
locator reference 
apply-groups reference
apply-groups-exclude reference
level keyword 
apply-groups reference
apply-groups-exclude reference
metric number
level-capability keyword
multi-topology 
mt0 boolean
mt2 boolean
tag number
standard-multi-instance boolean
strict-adjacency-check boolean
summary-address (ipv4-prefix | ipv6-prefix) 
algorithm number
apply-groups reference
apply-groups-exclude reference
level-capability keyword
route-tag number
suppress-attached-bit boolean
system-id string
timers 
lsp-wait 
lsp-initial-wait number
lsp-max-wait number
lsp-second-wait number
spf-wait 
spf-initial-wait number
spf-max-wait number
spf-second-wait number
traffic-engineering boolean
traffic-engineering-options 
application-link-attributes 
legacy boolean
ipv6 boolean
unicast-import 
ipv4 boolean
ipv6 boolean
l2tp 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
avp-hiding keyword
challenge boolean
destruct-timeout number
ethernet-tunnel 
reconnect-timeout (number | keyword)
exclude-avps 
calling-number boolean
initial-rx-lcp-conf-req boolean
failover 
recovery-max-session-lifetime number
recovery-method keyword
recovery-time number
track-srrp reference 
apply-groups reference
apply-groups-exclude reference
peer reference
sync-tag string
group string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
avp-hiding keyword
challenge keyword
description string
destruct-timeout number
ethernet-tunnel 
reconnect-timeout (number | keyword)
failover 
recovery-method keyword
recovery-time number
hello-interval (number | keyword)
idle-timeout (number | keyword)
l2tpv3 
cookie-length (number | keyword)
digest-type keyword
nonce-length number
password string
private-tcp-mss-adjust (number | keyword)
public-tcp-mss-adjust (number | keyword)
pw-cap-list 
ethernet boolean
ethernet-vlan boolean
rem-router-id string
track-password-change boolean
lac 
df-bit keyword
lns 
lns-group reference
load-balance-method keyword
mlppp 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
endpoint 
ip (ipv4-address | keyword)
mac (mac-address | keyword)
interleave boolean
max-fragment-delay (number | keyword)
max-links number
reassembly-timeout number
short-sequence-numbers boolean
ppp 
authentication keyword
authentication-policy string
chap-challenge-length 
end number
start number
default-group-interface 
interface string
service-name string
ipcp-subnet-negotiation boolean
keepalive 
interval number
multiplier number
lcp-force-ack-accm boolean
lcp-ignore-magic-numbers boolean
mtu number
proxy-authentication boolean
proxy-lcp boolean
reject-disabled-ncp boolean
user-db string
local-address string
local-name string
max-retries-estab number
max-retries-not-estab number
password string
protocol keyword
radius-accounting-policy reference
receive-window-size number
session-assign-method keyword
session-limit (number | keyword)
tunnel string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
auto-establish boolean
avp-hiding keyword
challenge keyword
description string
destruct-timeout number
failover 
recovery-method keyword
recovery-time number
hello-interval (number | keyword)
idle-timeout (number | keyword)
l2tpv3 
private-tcp-mss-adjust (number | keyword)
public-tcp-mss-adjust (number | keyword)
lac 
df-bit keyword
lns 
lns-group reference
load-balance-method keyword
mlppp 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
endpoint 
ip (ipv4-address | keyword)
mac (mac-address | keyword)
interleave keyword
max-fragment-delay number
max-links number
reassembly-timeout number
short-sequence-numbers keyword
ppp 
authentication keyword
authentication-policy string
chap-challenge-length 
end number
start number
default-group-interface 
interface string
service-name string
ipcp-subnet-negotiation keyword
keepalive 
interval number
multiplier number
lcp-force-ack-accm keyword
lcp-ignore-magic-numbers keyword
mtu number
proxy-authentication keyword
proxy-lcp keyword
reject-disabled-ncp keyword
user-db string
local-address string
local-name string
max-retries-estab number
max-retries-not-estab number
password string
peer string
preference number
radius-accounting-policy reference
receive-window-size number
remote-name string
session-limit (number | keyword)
group-session-limit number
hello-interval (number | keyword)
idle-timeout (number | keyword)
ignore-avps 
sequencing-required boolean
l2tpv3 
cookie-length number
digest-type keyword
nonce-length number
password string
private-tcp-mss-adjust number
public-tcp-mss-adjust number
transport-type 
ip boolean
lac 
calling-number-format string
cisco-nas-port 
ethernet string
df-bit boolean
local-address string
local-name string
max-retries-estab number
max-retries-not-estab number
next-attempt keyword
password string
peer-address-change-policy keyword
radius-accounting-policy reference
receive-window-size number
replace-result-code 
cdn-invalid-dst boolean
cdn-permanent-no-facilities boolean
cdn-temporary-no-facilities boolean
rtm-debounce-time (number | keyword)
session-assign-method keyword
session-limit number
tunnel-selection-blacklist 
add-tunnel-on 
address-change-timeout boolean
cdn-err-code boolean
cdn-invalid-dst boolean
cdn-permanent-no-facilities boolean
cdn-temporary-no-facilities boolean
stop-ccn-err-code boolean
stop-ccn-other boolean
tx-cdn-not-established-in-time boolean
max-list-length (number | keyword)
max-time number
timeout-action keyword
tunnel-session-limit number
ldp 
admin-state keyword
aggregate-prefix-match 
admin-state keyword
prefix-exclude reference
apply-groups reference
apply-groups-exclude reference
class-forwarding keyword
consider-system-ip-in-gep boolean
egress-statistics 
fec-prefix (ipv4-prefix | ipv6-prefix) 
accounting-policy reference
admin-state keyword
apply-groups reference
apply-groups-exclude reference
collect-stats boolean
entropy-label-capability boolean
export-policy reference
export-tunnel-table reference
fast-reroute 
backup-sr-tunnel boolean
fec-originate (ipv4-prefix | ipv6-prefix) 
advertised-label number
apply-groups reference
apply-groups-exclude reference
interface string
next-hop (ipv4-address-no-zone | ipv6-address-no-zone)
pop boolean
swap-label number
generate-basic-fec-only boolean
graceful-restart 
helper-mode boolean
maximum-recovery-time number
neighbor-liveness-time number
implicit-null-label boolean
import-mcast-policy reference
import-pmsi-routes 
mvpn boolean
mvpn-no-export-community boolean
import-policy reference
import-tunnel-table reference
interface-parameters 
interface reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bfd-liveness 
ipv4 boolean
ipv6 boolean
ipv4 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
fec-type-capability 
p2mp-ipv4 boolean
p2mp-ipv6 boolean
prefix-ipv4 boolean
prefix-ipv6 boolean
hello 
factor number
timeout number
keepalive 
factor number
timeout number
local-lsr-id 
interface-name reference
transport-address keyword
ipv6 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
fec-type-capability 
p2mp-ipv4 boolean
p2mp-ipv6 boolean
prefix-ipv4 boolean
prefix-ipv6 boolean
hello 
factor number
timeout number
keepalive 
factor number
timeout number
local-lsr-id 
format-32bit boolean
interface-name reference
transport-address keyword
load-balancing-weight number
ipv4 
hello 
factor number
timeout number
keepalive 
factor number
timeout number
transport-address keyword
ipv6 
hello 
factor number
timeout number
keepalive 
factor number
timeout number
transport-address keyword
label-withdrawal-delay number
ldp-shortcut 
ipv4 boolean
ipv6 boolean
legacy-ipv4-lsr-interop boolean
lsp-bfd reference 
apply-groups reference
apply-groups-exclude reference
bfd-liveness boolean
bfd-template reference
failure-action keyword
lsp-ping-interval (number | keyword)
priority number
source-address (ipv4-address-no-zone | ipv6-address-no-zone)
max-ecmp-routes number
mcast-upstream-asbr-frr boolean
mcast-upstream-frr boolean
mp-mbb-time number
prefer-mcast-tunnel-in-tunnel boolean
prefer-protocol-stitching boolean
prefer-tunnel-in-tunnel boolean
resolve-root-using keyword
session-parameters 
peer (ipv4-address-no-zone | ipv6-address-no-zone) 
adv-adj-addr-only boolean
adv-local-lsr-id boolean
apply-groups reference
apply-groups-exclude reference
community string
dod-label-distribution boolean
export-addresses reference
export-prefixes reference
fec-limit 
limit number
log-only boolean
threshold number
fec-type-capability 
p2mp boolean
prefix-ipv4 boolean
prefix-ipv6 boolean
fec129-cisco-interop boolean
import-prefixes reference
pe-id-mac-flush-interop boolean
shortcut-local-ttl-propagate boolean
shortcut-transit-ttl-propagate boolean
targeted-session 
auto-rx 
ipv4 
admin-state keyword
tunneling boolean
auto-tx 
ipv4 
admin-state keyword
tunneling boolean
export-prefixes reference
import-prefixes reference
ipv4 
hello 
factor number
timeout number
hello-reduction 
admin-state keyword
factor number
keepalive 
factor number
timeout number
ipv6 
hello 
factor number
timeout number
hello-reduction 
admin-state keyword
factor number
keepalive 
factor number
timeout number
peer (ipv4-address-no-zone | ipv6-address-no-zone) 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bfd-liveness boolean
hello 
factor number
timeout number
hello-reduction 
admin-state keyword
factor number
keepalive 
factor number
timeout number
local-lsr-id 
format-32bit boolean
interface-name reference
mcast-tunneling 
lsp string 
tunneling 
lsp string 
peer-template string 
admin-state keyword
adv-local-lsr-id boolean
apply-groups reference
apply-groups-exclude reference
bfd-liveness boolean
community string
hello 
factor number
timeout number
hello-reduction 
admin-state keyword
factor number
keepalive 
factor number
timeout number
local-lsr-id 
interface-name reference
mcast-tunneling boolean
tunneling boolean
peer-template-map reference 
apply-groups reference
apply-groups-exclude reference
policy-map reference
resolve-v6-prefix-over-shortcut boolean
sdp-auto-targeted-session boolean
tcp-session-parameters 
authentication-key string
authentication-keychain reference
peer-transport (ipv4-address-no-zone | ipv6-address-no-zone) 
apply-groups reference
apply-groups-exclude reference
authentication-key string
authentication-keychain reference
path-mtu-discovery boolean
ttl-security number
tunnel-down-damp-time number
tunnel-table-pref number
weighted-ecmp boolean
leak-export 
leak-export-limit number
policy-name (policy-expr-string | string)
lsp-bfd 
bfd-sessions number
tail-end 
apply-groups reference
apply-groups-exclude reference
multiplier number
receive-interval number
transmit-interval number
mc-maximum-routes 
log-only boolean
threshold number
value number
mld 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
forwarding-group-interface forwarding-service string group-interface-name reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
import-policy reference
maximum-number-group-sources number
maximum-number-groups number
maximum-number-sources number
mcac 
bandwidth 
mandatory (number | keyword)
total (number | keyword)
interface-policy reference
policy reference
query-interval number
query-last-member-interval number
query-response-interval number
query-source-address string
router-alert-check boolean
sub-hosts-only boolean
subnet-check boolean
version keyword
group-if-query-source-address string
group-interface reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
import-policy reference
maximum-number-group-sources number
maximum-number-groups number
maximum-number-sources number
mcac 
bandwidth 
mandatory (number | keyword)
total (number | keyword)
interface-policy reference
policy reference
query-interval number
query-last-member-interval number
query-response-interval number
query-source-address string
router-alert-check boolean
sub-hosts-only boolean
subnet-check boolean
version keyword
interface string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
import-policy reference
maximum-number-group-sources number
maximum-number-groups number
maximum-number-sources number
mcac 
bandwidth 
mandatory (number | keyword)
total (number | keyword)
interface-policy reference
mc-constraints 
level number 
apply-groups reference
apply-groups-exclude reference
bandwidth number
number-down number 
apply-groups reference
apply-groups-exclude reference
level number
use-lag-port-weight boolean
policy reference
query-interval number
query-last-member-interval number
query-response-interval number
router-alert-check boolean
ssm-translate 
group-range start string end string 
apply-groups reference
apply-groups-exclude reference
source string 
static 
group string 
apply-groups reference
apply-groups-exclude reference
source string 
starg 
group-range start string end string step string 
apply-groups reference
apply-groups-exclude reference
source string 
starg 
version keyword
query-interval number
query-last-member-interval number
query-response-interval number
robust-count number
ssm-translate 
group-range start string end string 
apply-groups reference
apply-groups-exclude reference
source string 
mpls 
admin-group-frr boolean
admin-state keyword
apply-groups reference
apply-groups-exclude reference
auto-bandwidth-multipliers 
adjust-multiplier number
sample-multiplier number
auto-lsp reference 
apply-groups reference
apply-groups-exclude reference
one-hop boolean
policy reference
aux-stats 
sr boolean
bypass-resignal-timer number
class-forwarding-policy string 
apply-groups reference
apply-groups-exclude reference
default-set number
fc keyword 
apply-groups reference
apply-groups-exclude reference
forwarding-set number
cspf-on-loose-hop boolean
dynamic-bypass boolean
entropy-label 
rsvp-te boolean
sr-te boolean
exponential-backoff-retry boolean
forwarding-policies 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
forwarding-policy string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
binding-label number
egress-statistics 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
endpoint (ipv4-address-no-zone | ipv6-address-no-zone)
ingress-statistics 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
metric number
next-hop-group number 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
backup-next-hop 
apply-groups reference
apply-groups-exclude reference
next-hop (ipv4-address-no-zone | ipv6-address-no-zone)
pushed-labels number 
apply-groups reference
apply-groups-exclude reference
label number
load-balancing-weight number
primary-next-hop 
apply-groups reference
apply-groups-exclude reference
next-hop (ipv4-address-no-zone | ipv6-address-no-zone)
pushed-labels number 
apply-groups reference
apply-groups-exclude reference
label number
resolution-type keyword
preference number
revert-timer number
tunnel-table-pref number
reserved-label-block reference
frr-object boolean
hold-timer number
ingress-statistics 
lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) lsp-name string 
accounting-policy reference
admin-state keyword
apply-groups reference
apply-groups-exclude reference
collect-stats boolean
stat-mode keyword
p2mp-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string 
accounting-policy reference
admin-state keyword
apply-groups reference
apply-groups-exclude reference
collect-stats boolean
max-stats number
stat-mode keyword
p2p-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string 
accounting-policy reference
admin-state keyword
apply-groups reference
apply-groups-exclude reference
collect-stats boolean
max-stats number
stat-mode keyword
interface reference 
admin-group reference
admin-state keyword
apply-groups reference
apply-groups-exclude reference
label-map number 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
pop 
swap 
apply-groups reference
apply-groups-exclude reference
next-hop string
out-label (number | keyword)
srlg-group reference 
te-metric number
least-fill-min-thd number
least-fill-reoptim-thd number
logger-event-bundling boolean
lsp string 
adaptive boolean
admin-state keyword
admin-tag reference 
adspec boolean
apply-groups reference
apply-groups-exclude reference
auto-bandwidth 
adjust-down 
bw number
percent number
adjust-up 
bw number
percent number
apply-groups reference
apply-groups-exclude reference
fc keyword 
apply-groups reference
apply-groups-exclude reference
sampling-weight number
max-bandwidth number
min-bandwidth number
monitor-bandwidth boolean
multipliers 
adjust-multiplier number
sample-multiplier number
overflow-limit 
bw number
number number
threshold number
underflow-limit 
bw number
number number
threshold number
use-last-adj-bw 
secondary-retry-limit (number | keyword)
bfd 
bfd-liveness boolean
bfd-template reference
failure-action keyword
lsp-ping-interval (number | keyword)
return-path-label number
wait-for-up-timer number
bgp-shortcut boolean
bgp-transport-tunnel boolean
class-forwarding 
forwarding-set 
policy reference
set number
class-type number
egress-statistics 
accounting-policy reference
admin-state keyword
apply-groups reference
apply-groups-exclude reference
collect-stats boolean
stat-mode keyword
entropy-label keyword
exclude-admin-group reference
exclude-node (ipv4-address-no-zone | ipv6-address-no-zone)
fallback-path-computation-method keyword
fast-reroute 
frr-method keyword
hop-limit number
node-protect boolean
propagate-admin-group boolean
from (ipv4-address-no-zone | ipv6-address-no-zone)
hop-limit number
igp-shortcut 
admin-state keyword
lfa-type keyword
relative-metric number
include-admin-group reference
label-stack-reduction boolean
ldp-over-rsvp boolean
least-fill boolean
load-balancing-weight number
local-sr-protection keyword
lsp-self-ping keyword
main-ct-retry-limit number
max-sr-labels 
additional-frr-labels number
label-stack-size number
metric number
metric-type keyword
override-tunnel-elc boolean
p2mp-id number
path-computation-method keyword
path-profile number 
apply-groups reference
apply-groups-exclude reference
path-group number
pce-associations 
diversity reference 
policy reference 
pce-control boolean
pce-report keyword
primary reference 
adaptive boolean
admin-state keyword
apply-groups reference
apply-groups-exclude reference
backup-class-type number
bandwidth number
bfd 
bfd-liveness boolean
bfd-template reference
lsp-ping-interval (number | keyword)
return-path-label number
wait-for-up-timer number
class-type number
exclude-admin-group 
group reference
hop-limit number
include-admin-group 
group reference
priority 
hold-priority number
setup-priority number
record boolean
record-label boolean
primary-p2mp-instance string 
adaptive boolean
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bandwidth number
exclude-admin-group 
group reference
hop-limit number
include-admin-group 
group reference
priority 
hold-priority number
setup-priority number
record boolean
record-label boolean
s2l-path reference to (ipv4-address-no-zone | ipv6-address-no-zone) 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
propagate-admin-group boolean
retry-limit number
retry-timer number
revert-timer number
rsvp-resv-style keyword
secondary reference 
adaptive boolean
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bandwidth number
bfd 
bfd-liveness boolean
bfd-template reference
lsp-ping-interval (number | keyword)
return-path-label number
wait-for-up-timer number
class-type number
exclude-admin-group 
group reference
hop-limit number
include-admin-group 
group reference
path-preference number
priority 
hold-priority number
setup-priority number
record boolean
record-label boolean
srlg boolean
standby boolean
soft-preemption boolean
to (ipv4-address-no-zone | ipv6-address-no-zone)
type keyword
vprn-auto-bind boolean
lsp-bsid-block reference
lsp-init-retry-timeout number
lsp-self-ping 
interval number
rsvp-te boolean
timeout number
timeout-action keyword
lsp-template string 
adaptive boolean
admin-state keyword
admin-tag reference 
adspec boolean
apply-groups reference
apply-groups-exclude reference
auto-bandwidth 
adjust-down 
bw number
percent number
adjust-up 
bw number
percent number
apply-groups reference
apply-groups-exclude reference
fc keyword 
apply-groups reference
apply-groups-exclude reference
sampling-weight number
max-bandwidth number
min-bandwidth number
monitor-bandwidth boolean
multipliers 
adjust-multiplier number
sample-multiplier number
overflow-limit 
bw number
number number
threshold number
underflow-limit 
bw number
number number
threshold number
backup-class-type number
bandwidth number
bfd 
bfd-liveness boolean
bfd-template reference
failure-action keyword
lsp-ping-interval (number | keyword)
return-path-label number
wait-for-up-timer number
bgp-shortcut boolean
bgp-transport-tunnel boolean
class-forwarding 
forwarding-set 
policy reference
set number
class-type number
default-path reference
egress-statistics 
accounting-policy reference
collect-stats boolean
stat-mode keyword
entropy-label keyword
exclude-admin-group reference
fallback-path-computation-method keyword
family keyword
fast-reroute 
frr-method keyword
hop-limit number
node-protect boolean
propagate-admin-group boolean
from (ipv4-address-no-zone | ipv6-address-no-zone)
hop-limit number
igp-shortcut 
admin-state keyword
lfa-type keyword
relative-metric number
include-admin-group reference
label-stack-reduction boolean
ldp-over-rsvp boolean
least-fill boolean
load-balancing-weight number
local-sr-protection keyword
lsp-self-ping keyword
main-ct-retry-limit number
max-sr-labels 
additional-frr-labels number
label-stack-size number
metric number
metric-type keyword
override-tunnel-elc boolean
path-computation-method keyword
path-profile number 
apply-groups reference
apply-groups-exclude reference
path-group number
pce-associations 
diversity reference 
policy reference 
pce-control boolean
pce-report keyword
priority 
hold-priority number
setup-priority number
propagate-admin-group boolean
record boolean
record-label boolean
retry-limit number
retry-timer number
soft-preemption boolean
template-id (number | keyword)
type keyword
vprn-auto-bind boolean
max-bypass-associations number
max-bypass-plr-associations number
mbb-prefer-current-hops boolean
p2mp-resignal-timer number
p2mp-s2l-fast-retry number
p2p-active-path-fast-retry number
path string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
hop number 
apply-groups reference
apply-groups-exclude reference
ip-address (ipv4-address-no-zone | ipv6-address-no-zone)
sid-label number
type keyword
pce-init-lsp 
apply-groups reference
apply-groups-exclude reference
sr-te 
admin-state keyword
pce-report 
rsvp-te boolean
sr-te boolean
resignal-on-igp-overload boolean
resignal-timer number
retry-on-igp-overload boolean
secondary-fast-retry-timer number
shortcut-local-ttl-propagate boolean
shortcut-transit-ttl-propagate boolean
sr-te-resignal 
resignal-on-igp-event boolean
resignal-timer number
srlg-database 
router-id string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
interface string srlg-group reference 
srlg-frr keyword
static-lsp string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
metric number
push 
apply-groups reference
apply-groups-exclude reference
next-hop string
out-label (number | keyword)
to string
static-lsp-fast-retry number
strict-ero-nhop-direct-resolution boolean
tunnel-table-pref 
rsvp-te number
sr-te number
user-srlg-db boolean
mpls-labels 
apply-groups reference
apply-groups-exclude reference
bgp-labels-hold-timer number
reserved-label-block string 
apply-groups reference
apply-groups-exclude reference
end-label number
start-label number
sr-labels 
end number
start number
static-label-range number
msdp 
active-source-limit number
admin-state keyword
apply-groups reference
apply-groups-exclude reference
data-encapsulation boolean
export-policy reference
group string 
active-source-limit number
admin-state keyword
apply-groups reference
apply-groups-exclude reference
export-policy reference
import-policy reference
local-address string
mode keyword
peer string 
active-source-limit number
admin-state keyword
apply-groups reference
apply-groups-exclude reference
authentication-key string
default-peer boolean
export-policy reference
import-policy reference
local-address string
receive-message-rate 
rate number
threshold number
time number
receive-message-rate 
rate number
threshold number
time number
import-policy reference
local-address string
peer string 
active-source-limit number
admin-state keyword
apply-groups reference
apply-groups-exclude reference
authentication-key string
default-peer boolean
export-policy reference
import-policy reference
local-address string
receive-message-rate 
rate number
threshold number
time number
receive-message-rate 
rate number
threshold number
time number
rpf-table keyword
source string 
active-source-limit number
apply-groups reference
apply-groups-exclude reference
source-active-cache-lifetime number
mss-adjust 
apply-groups reference
apply-groups-exclude reference
nat-group number
segment-size number
mtrace2 
admin-state keyword
udp-port number
multicast-info-policy reference
nat 
apply-groups reference
apply-groups-exclude reference
inside 
l2-aware 
subscribers string 
large-scale 
dnat-only 
source-prefix-list reference
dual-stack-lite 
admin-state keyword
deterministic 
policy-map string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
map string to string 
apply-groups reference
apply-groups-exclude reference
first-outside-address string
nat-policy reference
prefix-map string nat-policy reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
map string to string 
apply-groups reference
apply-groups-exclude reference
first-outside-address string
endpoint string 
apply-groups reference
apply-groups-exclude reference
ip-fragmentation keyword
min-first-fragment-size-rx number
reassembly boolean
tunnel-mtu number
max-subscriber-limit number
subscriber-prefix-length number
nat-policy reference
nat44 
destination-prefix string 
apply-groups reference
apply-groups-exclude reference
nat-policy reference
deterministic 
policy-map string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
map string to string 
apply-groups reference
apply-groups-exclude reference
first-outside-address string
nat-policy reference
prefix-map string nat-policy reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
map string to string 
apply-groups reference
apply-groups-exclude reference
first-outside-address string
max-subscriber-limit number
nat-import reference
nat64 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
drop-zero-ipv4-checksum boolean
insert-ipv6-fragment-header boolean
ip-fragmentation keyword
ipv6-mtu number
prefix string
subscriber-prefix-length number
tos 
downstream 
use-ipv4 boolean
upstream 
set-tos (keyword | number)
redundancy 
peer string
peer6 string
steering-route string
subscriber-identification 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
attribute 
type keyword
vendor keyword
description string
drop-unidentified-traffic boolean
radius-proxy-server 
router-instance string
server string
map 
map-domain reference 
outside 
dnat-only 
route-limit number
filters 
downstream 
ipv4 reference
ipv6 reference
upstream 
ipv4 reference
ipv6 reference
mtu number
pool string 
address-range string end string 
apply-groups reference
apply-groups-exclude reference
description string
drain boolean
admin-state keyword
applications 
agnostic boolean
apply-groups reference
apply-groups-exclude reference
description string
icmp-echo-reply boolean
l2-aware 
external-assignment boolean
port-block-extension 
ports number
subscriber 
watermarks 
high number
low number
subscriber-limit number
watermarks 
high number
low number
large-scale 
deterministic 
port-reservation number
watermarks 
high number
low number
redundancy 
admin-state keyword
export-route string
follow 
name string
router-instance string
monitor-route string
subscriber-limit number
mode keyword
nat-group reference
port-forwarding 
dynamic-block-reservation boolean
range-end number
range-start number
port-reservation 
port-blocks number
ports number
type keyword
watermarks 
high number
low number
wlan-gw-group reference
network-domains 
network-domain string 
apply-groups reference
apply-groups-exclude reference
description string
origin-validation 
apply-groups reference
apply-groups-exclude reference
rpki-session (ipv4-address-no-zone | ipv6-address-no-zone) 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
connect-retry number
description string
local-address (ipv4-address-no-zone | ipv6-address-no-zone)
port number
refresh-time 
hold-time number
value number
stale-time number
static-entry (ipv4-prefix | ipv6-prefix) upto number origin-as number 
apply-groups reference
apply-groups-exclude reference
valid boolean
ospf number 
admin-state keyword
advertise-router-capability keyword
advertise-tunnel-link boolean
apply-groups reference
apply-groups-exclude reference
area string 
advertise-router-capability boolean
apply-groups reference
apply-groups-exclude reference
area-range string 
advertise boolean
apply-groups reference
apply-groups-exclude reference
bier 
admin-state keyword
template reference
blackhole-aggregate boolean
database-export-exclude boolean
export-policy reference
import-policy reference
interface string 
adjacency-set reference 
adjacency-sid 
label number
admin-state keyword
advertise-router-capability boolean
advertise-subnet boolean
apply-groups reference
apply-groups-exclude reference
authentication-key string
authentication-keychain reference
authentication-type keyword
bfd-liveness 
remain-down-on-failure boolean
dead-interval number
flex-algo number 
apply-groups reference
apply-groups-exclude reference
node-sid 
index number
label number
hello-interval number
interface-type keyword
load-balancing-weight number
loopfree-alternate 
exclude boolean
policy-map 
route-nh-template reference
lsa-filter-out keyword
message-digest-key number 
apply-groups reference
apply-groups-exclude reference
md5 string
metric number
mtu number
neighbor string 
node-sid 
clear-n-flag boolean
index number
label number
passive boolean
poll-interval number
priority number
retransmit-interval number
rib-priority keyword
sid-protection boolean
transit-delay number
loopfree-alternate-exclude boolean
nssa 
area-range string 
advertise boolean
apply-groups reference
apply-groups-exclude reference
originate-default-route 
adjacency-check boolean
type-nssa boolean
redistribute-external boolean
summaries boolean
stub 
default-metric number
summaries boolean
virtual-link string transit-area reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
authentication-key string
authentication-keychain reference
authentication-type keyword
dead-interval number
hello-interval number
message-digest-key number 
apply-groups reference
apply-groups-exclude reference
md5 string
retransmit-interval number
transit-delay number
asbr 
trace-path (number | keyword)
compatible-rfc1583 boolean
database-export 
bgp-ls-identifier 
value number
igp-identifier number
entropy-label 
override-tunnel-elc boolean
export-limit 
log-percent number
number number
export-policy reference
external-db-overflow 
interval number
limit number
external-preference number
flexible-algorithms 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
flex-algo number 
advertise reference
apply-groups reference
apply-groups-exclude reference
loopfree-alternate 
participate boolean
graceful-restart 
helper-mode boolean
strict-lsa-checking boolean
igp-shortcut 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
tunnel-next-hop 
family keyword 
apply-groups reference
apply-groups-exclude reference
resolution keyword
resolution-filter 
rsvp boolean
sr-te boolean
import-policy reference
ldp-over-rsvp boolean
ldp-sync boolean
loopfree-alternate 
augment-route-table boolean
exclude 
prefix-policy reference
multi-homed-prefix 
preference keyword
remote-lfa 
max-pq-cost number
node-protect 
max-pq-nodes number
ti-lfa 
max-sr-frr-labels number
node-protect 
multi-instance boolean
multicast-import boolean
overload boolean
overload-include-ext-1 boolean
overload-include-ext-2 boolean
overload-include-stub boolean
overload-on-boot 
timeout number
preference number
reference-bandwidth number
rib-priority 
high 
prefix-list reference
router-id string
rtr-adv-lsa-limit 
log-only boolean
max-lsa-count number
overload-timeout (number | keyword)
warning-threshold number
segment-routing 
adj-sid-hold (number | keyword)
adjacency-set number 
advertise boolean
apply-groups reference
apply-groups-exclude reference
parallel boolean
sid 
label number
adjacency-sid 
allocate-dual-sids boolean
admin-state keyword
apply-groups reference
apply-groups-exclude reference
backup-node-sid 
index number
ip-prefix string
label number
class-forwarding boolean
egress-statistics 
adj-set boolean
adj-sid boolean
node-sid boolean
entropy-label boolean
export-tunnel-table keyword
ingress-statistics 
adj-set boolean
adj-sid boolean
node-sid boolean
mapping-server 
admin-state keyword
node-sid-map number 
apply-groups reference
apply-groups-exclude reference
ip-prefix string
range number
scope 
area reference
as 
maximum-sid-depth 
override-bmi number
override-erld number
prefix-sid-range 
global 
max-index number
start-label number
srlb reference
tunnel-mtu number
tunnel-table-pref number
timers 
incremental-spf-wait number
lsa-accumulate number
lsa-arrival number
lsa-generate 
lsa-initial-wait number
lsa-second-wait number
max-lsa-wait number
redistribute-delay number
spf-wait 
spf-initial-wait number
spf-max-wait number
spf-second-wait number
traffic-engineering boolean
traffic-engineering-options 
sr-te keyword
unicast-import boolean
ospf3 number 
admin-state keyword
advertise-router-capability keyword
apply-groups reference
apply-groups-exclude reference
area string 
advertise-router-capability boolean
apply-groups reference
apply-groups-exclude reference
area-range (ipv4-prefix | ipv6-prefix) 
advertise boolean
apply-groups reference
apply-groups-exclude reference
blackhole-aggregate boolean
database-export-exclude boolean
export-policy reference
extended-lsa keyword
import-policy reference
interface string 
admin-state keyword
advertise-router-capability boolean
apply-groups reference
apply-groups-exclude reference
authentication 
inbound reference
outbound reference
bfd-liveness 
remain-down-on-failure boolean
dead-interval number
hello-interval number
interface-type keyword
load-balancing-weight number
loopfree-alternate 
exclude boolean
policy-map 
route-nh-template reference
lsa-filter-out keyword
metric number
mtu number
neighbor (ipv4-address-no-zone | ipv6-address-no-zone) 
node-sid 
clear-n-flag boolean
index number
label number
passive boolean
poll-interval number
priority number
retransmit-interval number
rib-priority keyword
sid-protection boolean
transit-delay number
key-rollover-interval number
loopfree-alternate-exclude boolean
nssa 
area-range (ipv4-prefix | ipv6-prefix) 
advertise boolean
apply-groups reference
apply-groups-exclude reference
originate-default-route 
adjacency-check boolean
type-nssa boolean
redistribute-external boolean
summaries boolean
stub 
default-metric number
summaries boolean
virtual-link string transit-area reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
authentication 
inbound reference
outbound reference
dead-interval number
hello-interval number
retransmit-interval number
transit-delay number
asbr 
database-export 
bgp-ls-identifier 
value number
igp-identifier number
export-limit 
log-percent number
number number
export-policy reference
extended-lsa keyword
external-db-overflow 
interval number
limit number
external-preference number
graceful-restart 
helper-mode boolean
strict-lsa-checking boolean
igp-shortcut 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
tunnel-next-hop 
family keyword 
apply-groups reference
apply-groups-exclude reference
resolution keyword
resolution-filter 
rsvp boolean
sr-te boolean
import-policy reference
ldp-sync boolean
loopfree-alternate 
exclude 
prefix-policy reference
remote-lfa 
max-pq-cost number
node-protect 
max-pq-nodes number
ti-lfa 
max-sr-frr-labels number
node-protect 
multicast-import boolean
overload boolean
overload-include-ext-1 boolean
overload-include-ext-2 boolean
overload-include-stub boolean
overload-on-boot 
timeout number
preference number
reference-bandwidth number
rib-priority 
high 
prefix-list reference
router-id string
rtr-adv-lsa-limit 
log-only boolean
max-lsa-count number
overload-timeout (number | keyword)
warning-threshold number
segment-routing 
adj-sid-hold (number | keyword)
adjacency-sid 
allocate-dual-sids boolean
admin-state keyword
apply-groups reference
apply-groups-exclude reference
egress-statistics 
adj-sid boolean
node-sid boolean
ingress-statistics 
adj-sid boolean
node-sid boolean
prefix-sid-range 
global 
max-index number
start-label number
tunnel-mtu number
tunnel-table-pref number
timers 
incremental-spf-wait number
lsa-accumulate number
lsa-arrival number
lsa-generate 
lsa-initial-wait number
lsa-second-wait number
max-lsa-wait number
redistribute-delay number
spf-wait 
spf-initial-wait number
spf-max-wait number
spf-second-wait number
unicast-import boolean
p2mp-sr-tree 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bfd-liveness keyword
p2mp-policy string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
candidate-path string 
active-instance reference
admin-state keyword
apply-groups reference
apply-groups-exclude reference
path-instances number 
apply-groups reference
apply-groups-exclude reference
instance-id number
preference number
root-address (ipv4-address-no-zone | ipv6-address-no-zone)
tree-id number
replication-segment string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
downstream-nodes number 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
label 
sid-list number 
apply-groups reference
apply-groups-exclude reference
replication-sid number
next-hop-address (ipv4-address-with-zone | ipv6-address-with-zone)
next-hop-interface-name string
protect-nexthop-id reference
instance-id number
replication-sid number
root-address (ipv4-address-no-zone | ipv6-address-no-zone)
sid-action keyword
tree-id number
reserved-label-block reference
pcep 
apply-groups reference
apply-groups-exclude reference
pcc 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
dead-timer number
keepalive number
local-address string
local-address-ipv6 string
max-srte-pce-init-lsps number
pce-associations 
diversity string 
apply-groups reference
apply-groups-exclude reference
association-id number
association-source (ipv4-address-no-zone | ipv6-address-no-zone)
disjointness-reference boolean
disjointness-type keyword
diversity-type keyword
policy string 
apply-groups reference
apply-groups-exclude reference
association-id number
association-source (ipv4-address-no-zone | ipv6-address-no-zone)
peer (ipv4-address-no-zone | ipv6-address-no-zone) 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
preference number
route-preference keyword
tls-client-profile reference
tls-wait-timer number
redelegation-timer number
report-path-constraints boolean
state-timer 
timer number
timer-action keyword
unknown-message-rate number
pce 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
dead-timer number
keepalive number
local-address string
local-address-ipv6 string
tls-server-profile reference
tls-wait-timer number
unknown-message-rate number
pcp 
server string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
description string
dual-stack-lite-address string
fwd-inside-router string
interface reference 
policy reference
pim 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
apply-to keyword
import 
join-policy reference
register-policy reference
interface string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
assert-period number
bfd-liveness 
ipv4 boolean
ipv6 boolean
bier-signaling-type 
ipv4 boolean
ipv6 boolean
bsm-check-rtr-alert boolean
hello-interval number
hello-multiplier number
improved-assert boolean
instant-prune-echo boolean
ipv4 
apply-groups reference
apply-groups-exclude reference
monitor-oper-group 
name reference
operation keyword
priority-delta number
multicast boolean
ipv6 
apply-groups reference
apply-groups-exclude reference
monitor-oper-group 
name reference
operation keyword
priority-delta number
multicast boolean
max-groups number
mcac 
bandwidth 
mandatory (number | keyword)
total (number | keyword)
interface-policy reference
mc-constraints 
admin-state keyword
level number 
apply-groups reference
apply-groups-exclude reference
bandwidth number
number-down number 
apply-groups reference
apply-groups-exclude reference
level number
use-lag-port-weight boolean
policy reference
multicast-senders keyword
p2mp-ldp-tree-join 
ipv4 boolean
ipv6 boolean
priority number
sticky-dr 
priority number
three-way-hello boolean
tracking-support boolean
ipv4 
admin-state keyword
gtm 
auto-discovery keyword
multicast-fast-failover boolean
rpf-table keyword
ssm-assert-compatible-mode boolean
ssm-default-range boolean
ipv6 
admin-state keyword
multicast-fast-failover boolean
rpf-table keyword
ssm-default-range boolean
lag-usage-optimization boolean
mc-ecmp-balance boolean
mc-ecmp-balance-hold number
mc-ecmp-hashing 
rebalance boolean
mdt-spt boolean
non-dr-attract-traffic boolean
pim-ssm-scaling boolean
rp 
bootstrap 
export reference
import reference
ipv4 
anycast string rp-set-peer string 
auto-rp-discovery boolean
bsr-candidate 
address string
admin-state keyword
hash-mask-len number
priority number
candidate boolean
mapping-agent boolean
rp-candidate 
address string
admin-state keyword
group-range string 
holdtime number
priority number
static 
address string 
apply-groups reference
apply-groups-exclude reference
group-prefix string 
override boolean
ipv6 
anycast string rp-set-peer string 
bsr-candidate 
address string
admin-state keyword
hash-mask-len number
priority number
embedded-rp 
admin-state keyword
group-range string 
rp-candidate 
address string
admin-state keyword
group-range string 
holdtime number
priority number
static 
address string 
apply-groups reference
apply-groups-exclude reference
group-prefix string 
override boolean
rpfv 
core boolean
mvpn boolean
spt-switchover (ipv4-prefix | ipv6-prefix) 
apply-groups reference
apply-groups-exclude reference
threshold (number | keyword)
ssm-groups 
group-range (ipv4-prefix | ipv6-prefix) 
radius 
apply-groups reference
apply-groups-exclude reference
proxy string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
attribute-matching 
entry number 
accounting-server-policy string
apply-groups reference
apply-groups-exclude reference
authentication-server-policy string
prefix-string string
suffix-string string
type number
vendor (number | keyword)
cache 
admin-state keyword
key 
attribute-type number
packet-type keyword
vendor (number | keyword)
timeout number
track-accounting 
accounting-off boolean
accounting-on boolean
interim-update boolean
start boolean
stop boolean
track-authentication 
accept boolean
track-delete-hold-time number
defaults 
accounting-server-policy string
authentication-server-policy string
description string
interface string 
load-balance-key 
attribute-1 
type number
vendor (number | keyword)
attribute-2 
type number
vendor (number | keyword)
attribute-3 
type number
vendor (number | keyword)
attribute-4 
type number
vendor (number | keyword)
attribute-5 
type number
vendor (number | keyword)
source-ip-udp 
purpose keyword
python-policy reference
secret string
send-accounting-response boolean
wlan-gw 
address string
apply-groups reference
apply-groups-exclude reference
ipv6-address string
wlan-gw-group reference
server string 
accept-coa boolean
acct-port number
address (ipv4-address-no-zone | ipv6-address-no-zone)
apply-groups reference
apply-groups-exclude reference
auth-port number
description string
pending-requests-limit number
python-policy reference
secret string
reassembly 
apply-groups reference
apply-groups-exclude reference
nat-group number
to-base-network boolean
rib-api 
apply-groups reference
apply-groups-exclude reference
mpls 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
label-name reference
rip 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
authentication-key string
authentication-type keyword
bfd-liveness boolean
check-zero boolean
description string
export-limit 
log-percent number
number number
export-policy reference
group string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
authentication-key string
authentication-type keyword
bfd-liveness boolean
check-zero boolean
description string
export-policy reference
import-policy reference
message-size number
metric-in number
metric-out number
neighbor string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
authentication-key string
authentication-type keyword
bfd-liveness boolean
check-zero boolean
description string
export-policy reference
import-policy reference
message-size number
metric-in number
metric-out number
preference number
receive keyword
send keyword
split-horizon boolean
timers 
flush number
timeout number
update number
unicast-address string 
preference number
receive keyword
send keyword
split-horizon boolean
timers 
flush number
timeout number
update number
import-policy reference
message-size number
metric-in number
metric-out number
preference number
receive keyword
send keyword
split-horizon boolean
timers 
flush number
timeout number
update number
ripng 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bfd-liveness boolean
check-zero boolean
description string
export-limit 
log-percent number
number number
export-policy reference
group string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bfd-liveness boolean
check-zero boolean
description string
export-policy reference
import-policy reference
message-size number
metric-in number
metric-out number
neighbor string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bfd-liveness boolean
check-zero boolean
description string
export-policy reference
import-policy reference
message-size number
metric-in number
metric-out number
preference number
receive keyword
send keyword
split-horizon boolean
timers 
flush number
timeout number
update number
unicast-address string 
preference number
receive keyword
send keyword
split-horizon boolean
timers 
flush number
timeout number
update number
import-policy reference
message-size number
metric-in number
metric-out number
preference number
receive keyword
send keyword
split-horizon boolean
timers 
flush number
timeout number
update number
router-id string
rsvp 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
dbw-accounting 
dbw-multiplier number
down-threshold 
bw number
percent number
sample-interval number
sample-multiplier number
up-threshold 
bw number
percent number
diffserv-te 
admission-control-model keyword
apply-groups reference
apply-groups-exclude reference
class-type-bw 
ct0 number
ct1 number
ct2 number
ct3 number
ct4 number
ct5 number
ct6 number
ct7 number
fc keyword 
apply-groups reference
apply-groups-exclude reference
class-type number
te-class number 
apply-groups reference
apply-groups-exclude reference
class-type number
priority number
entropy-label-capability boolean
graceful-restart 
max-recovery number
max-restart number
graceful-shutdown boolean
implicit-null-label boolean
include-node-id-in-rro boolean
interface reference 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
authentication-key string
authentication-keychain reference
bfd-liveness boolean
class-type-bw 
ct0 number
ct1 number
ct2 number
ct3 number
ct4 number
ct5 number
ct6 number
ct7 number
dbw-down-threshold 
bw number
percent number
dbw-multiplier number
dbw-up-threshold 
bw number
percent number
graceful-restart-helper-mode boolean
graceful-shutdown boolean
hello-interval number
implicit-null-label boolean
refresh-reduction 
reliable-delivery boolean
subscription number
te-down-threshold 
apply-groups reference
apply-groups-exclude reference
value number
te-up-threshold 
apply-groups reference
apply-groups-exclude reference
value number
keep-multiplier number
msg-pacing 
max-burst number
period number
p2mp-merge-point-abort-timer number
p2p-merge-point-abort-timer number
preemption-timer number
rapid-retransmit-time number
rapid-retry-limit number
refresh-reduction-over-bypass boolean
refresh-time number
te-down-threshold number
te-threshold-update 
on-cac-failure boolean
update-timer number
te-up-threshold number
segment-routing 
apply-groups reference
apply-groups-exclude reference
maintenance-policy string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
bfd-liveness boolean
bfd-template reference
hold-down-timer number
mode keyword
revert-timer number
threshold number
segment-routing-v6 
apply-groups reference
apply-groups-exclude reference
base-routing-instance 
apply-groups reference
apply-groups-exclude reference
locator reference 
apply-groups reference
apply-groups-exclude reference
function 
end number 
apply-groups reference
apply-groups-exclude reference
srh-mode keyword
end-dt4 
value number
end-dt46 
value number
end-dt6 
value number
end-x number 
apply-groups reference
apply-groups-exclude reference
interface-name reference
protection keyword
srh-mode keyword
end-x-auto-allocate keyword protection keyword 
locator string 
admin-state keyword
algorithm number
apply-groups reference
apply-groups-exclude reference
block-length number
function-length number
label-block reference
prefix 
ip-prefix string
static-function 
label-block reference
max-entries number
termination-fpe reference
origination-fpe reference
source-address string
sr-mpls 
apply-groups reference
apply-groups-exclude reference
prefix-sids reference 
apply-groups reference
apply-groups-exclude reference
ipv4-sid 
index number
label number
ipv6-sid 
index number
label number
node-sid boolean
sr-policies 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
egress-statistics 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
ingress-statistics 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
reserved-label-block reference
static-policy string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
binding-sid number
color number
distinguisher number
endpoint (ipv4-address-no-zone | ipv6-address-no-zone)
head-end (ipv4-address-no-zone | ipv6-address-no-zone | keyword)
maintenance-policy reference
preference number
segment-list number 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
segment number 
apply-groups reference
apply-groups-exclude reference
mpls-label number
srv6-sid string
weight number
segment-routing-v6 
binding-sid number 
apply-groups reference
apply-groups-exclude reference
ip-address string
locator 
function keyword
function-value number
locator-name reference
type keyword
selective-fib boolean
sfm-overload 
holdoff-time number
sgt-qos 
dot1p 
application keyword 
apply-groups reference
apply-groups-exclude reference
dot1p (keyword | number)
dscp 
application keyword 
apply-groups reference
apply-groups-exclude reference
dscp (keyword | number)
dscp-map keyword 
apply-groups reference
apply-groups-exclude reference
fc keyword
static-routes 
apply-groups reference
apply-groups-exclude reference
hold-down 
initial number
max-value number
multiplier number
route (ipv4-prefix | ipv6-prefix) route-type keyword 
apply-groups reference
apply-groups-exclude reference
backup-tag number
blackhole 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
community string
description string
dynamic-bgp boolean
generate-icmp boolean
metric number
preference number
prefix-list 
flag keyword
name reference
tag number
community string
indirect (ipv4-address-no-zone | ipv6-address-no-zone) 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
community string
cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) 
apply-groups reference
apply-groups-exclude reference
drop-count number
interval number
log boolean
padding-size number
description string
destination-class number
metric number
preference number
prefix-list 
flag keyword
name reference
qos 
forwarding-class keyword
priority keyword
source-class number
tag number
tunnel-next-hop 
disallow-igp boolean
flex-algo number
resolution keyword
resolution-filter 
ldp boolean
mpls-fwd-policy boolean
rib-api boolean
rsvp-te 
lsp string 
sr-isis boolean
sr-ospf boolean
sr-ospf3 boolean
sr-te 
lsp string 
interface string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
community string
cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) 
apply-groups reference
apply-groups-exclude reference
drop-count number
interval number
log boolean
padding-size number
description string
destination-class number
load-balancing-weight number
metric number
preference number
prefix-list 
flag keyword
name reference
qos 
forwarding-class keyword
priority keyword
source-class number
tag number
ipsec-tunnel string 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
community string
description string
metric number
preference number
tag number
next-hop (ipv4-address-with-zone | ipv6-address-with-zone) 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
backup-next-hop 
address (ipv4-address-no-zone | ipv6-address-no-zone)
bfd-liveness boolean
community string
cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) 
apply-groups reference
apply-groups-exclude reference
drop-count number
interval number
log boolean
padding-size number
description string
destination-class number
ldp-sync boolean
load-balancing-weight number
metric number
preference number
prefix-list 
flag keyword
name reference
qos 
forwarding-class keyword
priority keyword
source-class number
tag number
validate-next-hop boolean
tag number
triggered-policy boolean
ttl-propagate 
apply-groups reference
apply-groups-exclude reference
label-route-local keyword
label-route-transit keyword
lsr-label-route keyword
vprn-local keyword
vprn-transit keyword
tunnel-interface 
ldp-p2mp-leaf number sender-address string 
apply-groups reference
apply-groups-exclude reference
description string
ldp-p2mp-root number sender-address string 
apply-groups reference
apply-groups-exclude reference
description string
rsvp-p2mp-leaf string sender-address string 
apply-groups reference
apply-groups-exclude reference
description string
rsvp-p2mp-root string 
apply-groups reference
apply-groups-exclude reference
description string
twamp-light 
apply-groups reference
apply-groups-exclude reference
reflector 
admin-state keyword
allow-ipv6-udp-checksum-zero boolean
apply-groups reference
apply-groups-exclude reference
description string
prefix (ipv4-prefix | ipv6-prefix) 
apply-groups reference
apply-groups-exclude reference
description string
type keyword
udp-port number
vrgw 
lanext 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
vxlan-port number
vxlan-vtep-range 
end (ipv4-address-no-zone | ipv6-address-no-zone)
start (ipv4-address-no-zone | ipv6-address-no-zone)
wlan-gw-group reference
weighted-ecmp keyword
wlan-gw 
apply-groups reference
apply-groups-exclude reference
distributed-subscriber-mgmt 
apply-groups reference
apply-groups-exclude reference
ipv6-tcp-mss-adjust number
mobility-triggered-accounting 
admin-state keyword
hold-down number
include-counters boolean
xconnect 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
tunnel-source-ip string
wlan-gw-group reference
wpp 
admin-state keyword
apply-groups reference
apply-groups-exclude reference
portal string 
ack-auth-retry-count number
address (ipv4-address-no-zone | ipv6-address-no-zone)
admin-state keyword
apply-groups reference
apply-groups-exclude reference
ntf-logout-retry-count number
port-format keyword
retry-interval number
secret string
version number
Parent topic: Configuration commands

router command descriptions

router [router-name] string

  Synopsis Enter the router list instance
  Context configure router string
  Tree router
 

Description

Commands in this context configure a router instance that represents a virtual router in the system. There will always be at least two instances in the system. The Base or transport router and the management router are created when the system is initialized and cannot be deleted.
  Max. Instances 4
  Introduced 16.0.R1
 

Platforms

All

[router-name] string

  Synopsis Administrative router name
  Context configure router string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All

aggregates

  Synopsis Enter the aggregates context
  Context configure router string aggregates
  Tree aggregates
  Introduced 16.0.R1
 

Platforms

All
aggregate [ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the aggregate list instance
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix)
  Tree aggregate
 

Description

Commands in this context add aggregate routes to the routing table when there are one or more component routes. A component route is any route installed in the forwarding table that is a more-specific match of the aggregate.

The use of aggregate routes can lead to smaller routing table sizes by reducing the number of routes that need to be advertised to neighbor routes.
  Introduced 16.0.R1
 

Platforms

All
[ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Destination IP address prefix of the aggregate route
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
aggregator
  Synopsis Enter the aggregator context
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) aggregator
  Tree aggregator
 

Description

Commands in this context configure the BGP AGGREGATOR path attribute for the aggregate route.
  Introduced 16.0.R1
 

Platforms

All
address string
  Synopsis Aggregator IP address
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) aggregator address string
  Tree address
  Introduced 16.0.R1
 

Platforms

All
as-number number
  Synopsis Aggregator AS number
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) aggregator as-number number
  Tree as-number
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
as-set boolean
  Synopsis Use AS_SET path segment type for the aggregate route
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) as-set boolean
  Tree as-set
 

Description

When configured to true, the AS_PATH attribute of the aggregate contains an AS_SET containing all AS numbers from the contributing routes. This can increase the amount of churn due to best-path changes.

When configured to false, the AS_PATH attribute contains no AS_SET and will be originated by the ESR.
  Default false
  Introduced 16.0.R1
 

Platforms

All
blackhole
  Synopsis Enable the blackhole context
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) blackhole
  Tree blackhole
 

Notes

The following elements are part of a choice: blackhole or indirect.
  Introduced 16.0.R1
 

Platforms

All
generate-icmp boolean
  Synopsis Send ICMP unreachable messages for aggregate routes
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) blackhole generate-icmp boolean
  Tree generate-icmp
 

Description

When configured to true, ICMP unreachable messages are sent when packets match an aggregate route in the FIB with a black-hole next-hop.

When configured to false, ICMP unreachable messages are not generated.
  Default false
  Introduced 16.0.R2
 

Platforms

All
community string
  Synopsis Community name that is added to the aggregate route
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) community string
  Tree community
 

Description

This command associates a BGP community with the aggregate route. The community name can be matched in route policies and is automatically added to BGP routes exported from the aggregate route.
  String Length 1 to 72
  Max. Instances 12
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
discard-component-communities boolean
  Synopsis Advertise aggregate with aggregate route community set
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) discard-component-communities boolean
  Tree discard-component-communities
  Default false
  Introduced 19.7.R1
 

Platforms

All
indirect (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Address of the indirect next hop
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) indirect (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree indirect
 

Description

This command programs aggregate routes into the forwarding table with an indirect next hop. If a packet matches the aggregate route but not a contributing route, it is forwarded toward the indirect next hop rather than being discarded.
 

Notes

The following elements are part of a choice: blackhole or indirect.
  Introduced 16.0.R1
 

Platforms

All
local-preference number
  Synopsis Local preference used when aggregate route is exported
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) local-preference number
  Tree local-preference
 

Description

This command configures the local preference value to use when the aggregate route is exported rather than using any of the local preference values assigned for any of the contributing routes.
  Range 0 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
policy reference
  Synopsis Policy name for the aggregated route
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) policy reference
  Tree policy
 

Description

This command associates an aggregate route with a policy reference. The aggregated route is activated only when there is at least one eligible active route in the sub-trees below it that is accepted by the policy evaluation. There is no evaluation into any sub-tree that starts with another active aggregate route. Eligible routes exclude host routes and LDP shortcut routes.

If an aggregate route has no policy, or the reference is to an empty policy, this configuration is treated as equivalent to a policy with one rule that accepts all routes.
 

Reference

configure policy-options policy-statement string

  Introduced 20.10.R1
 

Platforms

All
summary-only boolean
  Synopsis Advertise the aggregate route only
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) summary-only boolean
  Tree summary-only
 

Description

When configured to true, the router suppresses the advertisement of more specific component routes for the aggregate.

When configured to false, the router advertises both the aggregate route and its contributing routes.
  Default false
  Introduced 16.0.R1
 

Platforms

All
tunnel-group number
  Synopsis Tunnel group from which to associate the MC IPSec state
  Context configure router string aggregates aggregate (ipv4-prefix | ipv6-prefix) tunnel-group number
  Tree tunnel-group
 

Description

This command adds the MC-IPsec state of the specific tunnel-group to the aggregate route.
  Range 1 to 64
  Introduced 20.7.R1
 

Platforms

All

allow-icmp-redirect boolean

  Synopsis Allow ICMP redirects on the management interface
  Context configure router string allow-icmp-redirect boolean
  Tree allow-icmp-redirect
 

Description

When configured to true, ICMP redirect messages can be received on the management interface.

When configured to false, all received ICMP redirect messages are dropped.

This command cannot be configured on a non-management interface.
  Default false
  Introduced 16.0.R1
 

Platforms

All

allow-icmp6-redirect boolean

  Synopsis Allow IPv6 ICMP redirects on the management interface
  Context configure router string allow-icmp6-redirect boolean
  Tree allow-icmp6-redirect
 

Description

When configured to true, IPv6 ICMP redirect messages can be received on the management interface.

When configured to false, all received IPv6 ICMP redirect messages are dropped.

This command cannot be configured on a non-management interface.
  Default false
  Introduced 16.0.R1
 

Platforms

All

autonomous-system number

  Synopsis AS number advertised to peers for this router
  Context configure router string autonomous-system number
  Tree autonomous-system
 

Description

This command configures the autonomous system (AS) number for the router. This value must be set before BGP can be activated.

If the AS number is changed on a router with an active BGP instance, the new AS number is not used until the BGP instance is restarted.
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All

bfd

  Synopsis Enter the bfd context
  Context configure router string bfd
  Tree bfd
  Introduced 19.7.R1
 

Platforms

All
seamless-bfd
  Synopsis Enter the seamless-bfd context
  Context configure router string bfd seamless-bfd
  Tree seamless-bfd
  Introduced 19.7.R1
 

Platforms

All
peer [address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the peer list instance
  Context configure router string bfd seamless-bfd peer (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree peer
  Max. Instances 8000
  Introduced 19.7.R1
 

Platforms

All
[address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Address of the remote node
  Context configure router string bfd seamless-bfd peer (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 19.7.R1
 

Platforms

All
discriminator number
  Synopsis Discriminator of the remote node
  Context configure router string bfd seamless-bfd peer (ipv4-address-no-zone | ipv6-address-no-zone) discriminator number
  Tree discriminator
  Range 1 to 4294967295
  Introduced 19.7.R1
 

Platforms

All

bgp

  Synopsis Enable the bgp context
  Context configure router string bgp
  Tree bgp
  Introduced 16.0.R1
 

Platforms

All
add-paths
  Synopsis Enable the add-paths context
  Context configure router string bgp add-paths
  Tree add-paths
 

Description

Commands in this context configure add-paths support for the specified address families of the BGP instance. The BGP add-paths capability allows the router to send or receive multiple paths per prefix to and from a peer.
  Introduced 16.0.R1
 

Platforms

All
evpn
  Synopsis Enter the evpn context
  Context configure router string bgp add-paths evpn
  Tree evpn
 

Description

Commands in this context configure the Add-Paths capability for EVPN routes. By default, Add-Paths is not enabled for EVPN routes.
  Introduced 21.10.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple EVPN paths per prefix from a peer
  Context configure router string bgp add-paths evpn receive boolean
  Tree receive
  Default false
  Introduced 21.10.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum number of EVPN paths to send
  Context configure router string bgp add-paths evpn send (number | keyword)
  Tree send
  Range 1 to 16
  Options multipaths
  Introduced 21.10.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string bgp add-paths ipv4
  Tree ipv4
 

Description

Commands in this context configure add-paths support for the IPv4 unicast address family.
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per unlabeled IPv4 prefix
  Context configure router string bgp add-paths ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple unlabeled IPv4 unicast routes per prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per unlabeled IPv4 unicast prefix
  Context configure router string bgp add-paths ipv4 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths per unlabeled IPv4 unicast prefix that are allowed to be advertised to ADD-PATH peers. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, add-paths send capability is not enabled for unlabeled IPv4 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string bgp add-paths ipv6
  Tree ipv6
 

Description

Commands in this context configure add-paths support for the IPv6 unicast address family.
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per unlabeled IPv6 prefix
  Context configure router string bgp add-paths ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple unlabeled IPv6 unicast routes per prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per unlabeled IPv6 unicast prefix
  Context configure router string bgp add-paths ipv6 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per unlabeled IPv6 unicast prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, add-paths send capability is not enabled for unlabeled IPv6 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
label-ipv4
  Synopsis Enter the label-ipv4 context
  Context configure router string bgp add-paths label-ipv4
  Tree label-ipv4
 

Description

Commands in this context configure add-paths support for the labeled IPv4 unicast address family.
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple labeled-unicast routes per IPv4 prefix
  Context configure router string bgp add-paths label-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple labeled-unicast routes per IPv4 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Max paths advertised per labeled IPv4 unicast prefix
  Context configure router string bgp add-paths label-ipv4 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per labeled IPv4 unicast prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, add-paths send capability is not enabled for labeled IPv4 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
label-ipv6
  Synopsis Enter the label-ipv6 context
  Context configure router string bgp add-paths label-ipv6
  Tree label-ipv6
 

Description

Commands in this context configure add-paths support for the labeled IPv6 unicast address family.
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple labeled-unicast routes per IPv6 prefix
  Context configure router string bgp add-paths label-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple labeled-unicast routes per IPv6 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Max paths advertised per labeled IPv6 unicast prefix
  Context configure router string bgp add-paths label-ipv6 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per labeled IPv6 unicast prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, add-paths send capability is not enabled for labeled IPv6 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv4
  Synopsis Enter the mcast-vpn-ipv4 context
  Context configure router string bgp add-paths mcast-vpn-ipv4
  Tree mcast-vpn-ipv4
 

Description

Commands in this context configure add-paths support for the multicast IPv4 VPN address family.
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple multicast routes per IPv4 VPN prefix
  Context configure router string bgp add-paths mcast-vpn-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple multicast routes per IPv4 VPN prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths advertised per multicast IPv4 VPN prefix
  Context configure router string bgp add-paths mcast-vpn-ipv4 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast IPv4 VPN prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, add-paths send capability is not enabled for multicast IPv4 VPN routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv6
  Synopsis Enter the mcast-vpn-ipv6 context
  Context configure router string bgp add-paths mcast-vpn-ipv6
  Tree mcast-vpn-ipv6
 

Description

Commands in this context configure add-paths support for the multicast IPv6 VPN address family.
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple multicast routes per IPv6 VPN prefix
  Context configure router string bgp add-paths mcast-vpn-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple multicast routes per IPv6 VPN prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths advertised per multicast IPv6 VPN prefix
  Context configure router string bgp add-paths mcast-vpn-ipv6 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast IPv6 VPN prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, add-paths send capability is not enabled for multicast IPv6 VPN routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv4
  Synopsis Enter the mvpn-ipv4 context
  Context configure router string bgp add-paths mvpn-ipv4
  Tree mvpn-ipv4
 

Description

Commands in this context configure add-paths support for the multicast VPN IPv4 address family.
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per multicast VPN IPv4 NRLI
  Context configure router string bgp add-paths mvpn-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple routes per multicast VPN IPv4 NRLI to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths advertised per multicast VPN IPv4 NRLI
  Context configure router string bgp add-paths mvpn-ipv4 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast VPN IPv4 NRLI. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, add-paths send capability is not enabled for multicast VPN IPv4 routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv6
  Synopsis Enter the mvpn-ipv6 context
  Context configure router string bgp add-paths mvpn-ipv6
  Tree mvpn-ipv6
 

Description

Commands in this context configure add-paths support for the multicast VPN IPv6 address family.
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per multicast VPN IPv6 NRLI
  Context configure router string bgp add-paths mvpn-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple routes per multicast VPN IPv6 NRLI to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths advertised per multicast VPN IPv6 NRLI
  Context configure router string bgp add-paths mvpn-ipv6 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast VPN IPv6 NRLI. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, add-paths send capability is not enabled for multicast VPN IPv6 routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4
  Synopsis Enter the vpn-ipv4 context
  Context configure router string bgp add-paths vpn-ipv4
  Tree vpn-ipv4
 

Description

Commands in this context configure add-paths support for the VPN-IPv4 address family.
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per VPN-IPv4 prefix
  Context configure router string bgp add-paths vpn-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple routes per VPN-IPv4 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths advertised per VPN-IPv4 prefix
  Context configure router string bgp add-paths vpn-ipv4 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per VPN-IPv4 prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, add-paths send capability is not enabled for VPN-IPv4 routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6
  Synopsis Enter the vpn-ipv6 context
  Context configure router string bgp add-paths vpn-ipv6
  Tree vpn-ipv6
 

Description

Commands in this context configure add-paths support for the VPN-IPv6 address family.
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per VPN-IPv6 prefix
  Context configure router string bgp add-paths vpn-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple routes per VPN-IPv6 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths advertised per VPN-IPv6 prefix
  Context configure router string bgp add-paths vpn-ipv6 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per VPN-IPv6 prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, add-paths send capability is not enabled for VPN-IPv6 routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the BGP instance
  Context configure router string bgp admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
advertise-external
  Synopsis Enter the advertise-external context
  Context configure router string bgp advertise-external
  Tree advertise-external
 

Description

Commands in this context allow BGP to advertise its best external route to a destination for specified address families even when its best overall route is an internal route.
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Enable support for unlabeled unicast IPv4 routes
  Context configure router string bgp advertise-external ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Enable support for unlabeled unicast IPv6 routes
  Context configure router string bgp advertise-external ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Enable support for labeled-unicast IPv4 routes
  Context configure router string bgp advertise-external label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Enable support for labeled-unicast IPv6 routes
  Context configure router string bgp advertise-external label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
advertise-inactive boolean
  Synopsis Advertise inactive BGP routes to peers
  Context configure router string bgp advertise-inactive boolean
  Tree advertise-inactive
 

Description

When configured to true, this command allows any inactive BGP route to be advertised, even though it is not the used route.

When configured to false, the advertisement of inactive BGP routes to other BGP peers is disabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
advertise-ipv6-next-hops
  Synopsis Enter the advertise-ipv6-next-hops context
  Context configure router string bgp advertise-ipv6-next-hops
  Tree advertise-ipv6-next-hops
 

Description

Commands in this context allow specified BGP address family routes to be advertised to IPv6 transport peers with a true IPv6 address when originated or when a configured or automatic next-hop-self action is applied.

This command context has no effect on routes advertised to IPv4 peers.
  Introduced 16.0.R1
 

Platforms

All
evpn boolean
  Synopsis Advertise EVPN route with IPv6 next-hop address
  Context configure router string bgp advertise-ipv6-next-hops evpn boolean
  Tree evpn
 

Description

When configured to true, EVPN routes are advertised with IPv6 next-hop addresses to IPv6 transport peers.

When configured to false, EVPN routes are advertised with IPv4 next-hop addresses to IPv6 transport peers.
  Default false
  Introduced 19.5.R1
 

Platforms

All
ipv4 boolean
  Synopsis Advertise IPv4 route with IPv6 next-hop address
  Context configure router string bgp advertise-ipv6-next-hops ipv4 boolean
  Tree ipv4
 

Description

When configured to true, IPv4 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers. The appropriate extended NH encoding capability must also be received from the remote peer before the route can be advertised with an IPv6 address instead of the IPv4 system address as the next hop.

When configured to false, IPv4 routes are advertised with IPv4 next-hop addresses to IPv6 transport peers. If the route matches a BGP export policy entry that tries to change the next hop to an IPv6 address and an appropriate extended NH encoding capability was not received by the remote peer, the route is handled as though it was rejected by the policy entry.
  Default false
  Introduced 19.5.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise label IPv4 route with IPv6 next-hop address
  Context configure router string bgp advertise-ipv6-next-hops label-ipv4 boolean
  Tree label-ipv4
 

Description

When configured to true, label IPv4 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers. The appropriate extended NH encoding capability must also be received from the remote peer before the route can be advertised with an IPv6 address instead of the IPv4 system address as the next hop.

When configured to false, label IPv4 routes are advertised with the system IPv4 address as the next hop to IPv6 transport peers. If the route matches a BGP export policy entry that tries to change the next hop to an IPv6 address and an appropriate extended NH encoding capability was not received by the remote peer, the route is handled as though it was rejected by the policy entry.
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Advertise label IPv6 route with IPv6 next-hop address
  Context configure router string bgp advertise-ipv6-next-hops label-ipv6 boolean
  Tree label-ipv6
 

Description

When configured to true, label IPv6 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers.

When configured to false, label IPv6 routes are advertised toward IPv6 transport peers with the system IPv4 address as the BGP next hop, encoded as an IPv4-mapped IPv6 address.
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise VPN IPv4 route with IPv6 next-hop address
  Context configure router string bgp advertise-ipv6-next-hops vpn-ipv4 boolean
  Tree vpn-ipv4
 

Description

When configured to true, VPN IPv4 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers. The appropriate extended NH encoding capability must also be received from the remote peer before the route can be advertised with an IPv6 address instead of the IPv4 system address as the next hop.

When configured to false, VPN IPv4 routes are advertised toward IPv6 transport peers with the system IPv4 address as the BGP next hop. If the route matches a BGP export policy entry that tries to change the next hop to an IPv6 address and an appropriate extended NH encoding capability was not received by the remote peer, the route is handled as though it was rejected by the policy entry.
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Advertise VPN IPv6 route with IPv6 next-hop address
  Context configure router string bgp advertise-ipv6-next-hops vpn-ipv6 boolean
  Tree vpn-ipv6
 

Description

When configured to true, VPN IPv6 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers.

When configured to false, VPN IPv6 routes are advertised toward IPv6 transport peers with the system IPv4 address as the BGP next hop, encoded as an IPv4-mapped IPv6 address.
  Default false
  Introduced 16.0.R1
 

Platforms

All
aggregator-id-zero boolean
  Synopsis Set router ID in the BGP AGGREGATOR attribute to 0
  Context configure router string bgp aggregator-id-zero boolean
  Tree aggregator-id-zero
 

Description

When configured to true, the router ID in the BGP AGGREGATOR path attribute is set to 0 when BGP aggregates routes. This prevents different routers within an AS from creating aggregate routes for the same prefix with different path attributes.

When configured to false, the AS number and router ID are added to the AGGREGATOR path attribute.
  Default false
  Introduced 16.0.R1
 

Platforms

All
asn-4-byte boolean
  Synopsis Advertise support for 4-byte ASNs
  Context configure router string bgp asn-4-byte boolean
  Tree asn-4-byte
  Default true
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis BGP authentication key for all peers
  Context configure router string bgp authentication-key string
  Tree authentication-key
 

Description

This command configures the authentication key used to protect all sessions. The stored format of the authentication key is based on the configure system security hash-control management-interface md-cli hash-algorithm setting.
  String Length 1 to 370
  Introduced 16.0.R1
 

Platforms

All
authentication-keychain reference
  Synopsis TCP authentication keychain for the session
  Context configure router string bgp authentication-keychain reference
  Tree authentication-keychain
 

Description

This command associates the keychain to be used to authenticate the BGP session. The keychain allows the rollover of authentication keys during the lifetime of a session.
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
backup-path
  Synopsis Enter the backup-path context
  Context configure router string bgp backup-path
  Tree backup-path
 

Description

Commands in this context enable the use of a backup path for specified BGP-learned prefixes belonging to the base router. Multiple paths must be received for a prefix in order to take advantage of this feature. When a prefix has a backup path and its primary paths fail, the affected traffic is rapidly diverted to the backup path without waiting for control plane re-convergence to occur. When many prefixes share the same primary paths and in some cases, the same backup path, the time to divert failover traffic to the backup path is independent of the number of prefixes.

By default, IPv4 and IPv6 prefixes do not have a backup path installed in the IOM.
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Enable support for unlabeled unicast IPv4 routes
  Context configure router string bgp backup-path ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Enable support for unlabeled unicast IPv6 routes
  Context configure router string bgp backup-path ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Enable support for labeled-unicast IPv4 routes
  Context configure router string bgp backup-path label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Enable support for labeled-unicast IPv6 routes
  Context configure router string bgp backup-path label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
best-path-selection
  Synopsis Enter the best-path-selection context
  Context configure router string bgp best-path-selection
  Tree best-path-selection
  Introduced 16.0.R1
 

Platforms

All
always-compare-med
  Synopsis Enter the always-compare-med context
  Context configure router string bgp best-path-selection always-compare-med
  Tree always-compare-med
 

Description

Commands in this context determine how the BGP decision process is affected by the MED path attribute.
  Introduced 16.0.R1
 

Platforms

All
med-value keyword
  Synopsis Action for a missing MED attribute
  Context configure router string bgp best-path-selection always-compare-med med-value keyword
  Tree med-value
  Default off
  Options off, missing-med-zero, missing-med-infinity, on
  Introduced 16.0.R1
 

Platforms

All
strict-as boolean
  Synopsis Compare MED only for routes from same neighbor AS
  Context configure router string bgp best-path-selection always-compare-med strict-as boolean
  Tree strict-as
 

Description

When configured to true, the route selection process can compare the MED path attribute between routes only if they come from the same neighbor AS.

When configured to false, the route selection process can compare the MED path attribute between routes even if they come from different neighbor ASs.
  Default true
  Introduced 16.0.R1
 

Platforms

All
as-path-ignore
  Synopsis Enter the as-path-ignore context
  Context configure router string bgp best-path-selection as-path-ignore
  Tree as-path-ignore
 

Description

Commands in this context determine whether the AS path length is considered in the selection process for routes of the specified address families.
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Ignore AS path length for unlabeled unicast IPv4 routes
  Context configure router string bgp best-path-selection as-path-ignore ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Ignore AS path length for unlabeled unicast IPv6 routes
  Context configure router string bgp best-path-selection as-path-ignore ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
l2-vpn boolean
  Synopsis Ignore AS path length for L2-VPN routes
  Context configure router string bgp best-path-selection as-path-ignore l2-vpn boolean
  Tree l2-vpn
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Ignore AS path length for labeled-unicast IPv4 routes
  Context configure router string bgp best-path-selection as-path-ignore label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Ignore AS path length for labeled-unicast IPv6 routes
  Context configure router string bgp best-path-selection as-path-ignore label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-ipv4 boolean
  Synopsis Ignore AS path length for IPv4 multicast routes
  Context configure router string bgp best-path-selection as-path-ignore mcast-ipv4 boolean
  Tree mcast-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-ipv6 boolean
  Synopsis Ignore AS path length for IPv6 multicast routes
  Context configure router string bgp best-path-selection as-path-ignore mcast-ipv6 boolean
  Tree mcast-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv4 boolean
  Synopsis Ignore AS path length for IPv4 MVPN routes
  Context configure router string bgp best-path-selection as-path-ignore mvpn-ipv4 boolean
  Tree mvpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv6 boolean
  Synopsis Ignore AS path length for IPv6 MVPN routes
  Context configure router string bgp best-path-selection as-path-ignore mvpn-ipv6 boolean
  Tree mvpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Ignore AS path length for VPN IPv4 (SAFI 128) routes
  Context configure router string bgp best-path-selection as-path-ignore vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Ignore AS path length for VPN IPv6 (SAFI 128) routes
  Context configure router string bgp best-path-selection as-path-ignore vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
compare-origin-validation-state boolean
  Synopsis Compare RPKI origin validation state of usable routes
  Context configure router string bgp best-path-selection compare-origin-validation-state boolean
  Tree compare-origin-validation-state
 

Description

When configured to true, the RPKI origin validation state is compared between BGP routes, where a Valid state is preferred over a Not-Found state, and a Not-Found state is preferred over an Invalid state.

When configured to false, the RPKI origin validate state comparison is not performed as part of the BGP route selection process.
  Default false
  Introduced 16.0.R1
 

Platforms

All
d-path-length-ignore boolean
  Synopsis Enable D-PATH length ignore
  Context configure router string bgp best-path-selection d-path-length-ignore boolean
  Tree d-path-length-ignore
 

Description

When configured to true, this command, enables the router to ignore the D-PATH domain segment length during best-path selection.

At the base router level (or VPRN BGP level for PE-CE routers), this command allows BGP to ignore the D-PATH domain segment length for best-path selection purposes. BGP ignores the D-PATH length when comparing two VPN routes or two IFL routes within the same RD. However, these VPN/IFL routes are processed in the main-BGP instance.

At the VPRN router level, this command allows the VPRN RTM to ignore the D-PATH domain segment length for best-path selection purposes (for routes in VPRN). The user can control whether the RTM considers the D-PATH length when comparing two VPN routes with different RDs.

Best-path selection for EVPN-IFF routes against other owners (for example, EVPN-IFL or IPVPN) still relies on RTM preference. When EVPN-IFF RTM preference matches the RTM preference of another BGP owner, the existing RTM selection applies and D-PATH is not considered, irrespective of the d-path-length-ignore configuration.

When configured to false, this command disables the ability to ignore the D-PATH domain segment length.
  Default false
  Introduced 21.10.R1
 

Platforms

All
deterministic-med boolean
  Synopsis Group paths based on AS before MED attribute comparison
  Context configure router string bgp best-path-selection deterministic-med boolean
  Tree deterministic-med
 

Description

When configured to true, BGP groups paths from the same AS that are equal up to the MED attribute comparison and then compares the best path from each group to select the overall best path. This process ensures that the best-path selection process is deterministic in all cases.

When configured to false, paths are not grouped and the overall best-path selection can depend on the order of route arrival.
  Default false
  Introduced 16.0.R1
 

Platforms

All
ebgp-ibgp-equal
  Synopsis Enter the ebgp-ibgp-equal context
  Context configure router string bgp best-path-selection ebgp-ibgp-equal
  Tree ebgp-ibgp-equal
 

Description

Commands in this context allow BGP to ignore the difference between EBGP and IBGP routes in selecting the best path and eligible multipaths (if multipath and ECMP are enabled) for the specified address families. The result is a form of EIBGP load-balancing in a multipath scenario. This behavior can be applied selectively to certain address families.

By default, the BGP decision process prefers an EBGP learned route over an IBGP learned route.
  Introduced 16.0.R1
 

Platforms

All
evpn boolean
  Synopsis Consider EBGP and IBGP EVPN routes equal
  Context configure router string bgp best-path-selection ebgp-ibgp-equal evpn boolean
  Tree evpn
  Default false
  Introduced 22.7.R1
 

Platforms

All
ipv4 boolean
  Synopsis Consider EBGP and IBGP IPv4 routes equal
  Context configure router string bgp best-path-selection ebgp-ibgp-equal ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Consider EBGP and IBGP IPv6 routes equal
  Context configure router string bgp best-path-selection ebgp-ibgp-equal ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Consider EBGP and IBGP label-IPv4 routes equal
  Context configure router string bgp best-path-selection ebgp-ibgp-equal label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Consider EBGP and IBGP label-IPv6 routes equal
  Context configure router string bgp best-path-selection ebgp-ibgp-equal label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Consider EBGP and IBGP VPN-IPv4 routes equal
  Context configure router string bgp best-path-selection ebgp-ibgp-equal vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Consider EBGP and IBGP VPN-IPv6 routes equal
  Context configure router string bgp best-path-selection ebgp-ibgp-equal vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
ignore-nh-metric boolean
  Synopsis Ignore next-hop distance in best path selection
  Context configure router string bgp best-path-selection ignore-nh-metric boolean
  Tree ignore-nh-metric
 

Description

When configured to true, BGP ignores the resolved distance to the BGP next hop in its route selection process.

When configured to false, BGP factors the distance to the next hop into its decision process when it compares two BGP routes with the same NLRI learned from base router BGP peers (in the router context) or IP prefix learned from VPRN BGP peers (in the vprn context).
  Default false
  Introduced 16.0.R1
 

Platforms

All
ignore-router-id
  Synopsis Enable the ignore-router-id context
  Context configure router string bgp best-path-selection ignore-router-id
  Tree ignore-router-id
 

Description

Commands in this context determine whether the BGP selection process ignores the BGP identifier (router ID) comparison of two EBGP paths from different EBGP peers when determining the best path for the specified address families.

By default, BGP selects the path with the lower router ID when it compares two paths from EBGP peers.
  Introduced 16.0.R1
 

Platforms

All
include-internal
  Synopsis Enter the include-internal context
  Context configure router string bgp best-path-selection ignore-router-id include-internal
  Tree include-internal
 

Description

Commands in this context specify the internal address families for which the router ID values are ignored, even when comparing two IBGP paths or an EBGP and an IBGP path.
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv4 boolean
  Synopsis Ignore the router IDs of MVPN-IPv4 routes
  Context configure router string bgp best-path-selection ignore-router-id include-internal mvpn-ipv4 boolean
  Tree mvpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv6 boolean
  Synopsis Ignore the router IDs of MVPN-IPv6 routes
  Context configure router string bgp best-path-selection ignore-router-id include-internal mvpn-ipv6 boolean
  Tree mvpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
origin-invalid-unusable boolean
  Synopsis Deem invalid routes unusable for best-path selection
  Context configure router string bgp best-path-selection origin-invalid-unusable boolean
  Tree origin-invalid-unusable
 

Description

When configured to true, routes that have an RPKI origin validation state of Invalid are considered unusable by the best-path selection algorithm. These routes cannot be used for forwarding and cannot be advertised to BGP peers.

When configured to false, routes with an RPKI origin validation state of Invalid are compared to other usable routes for the same prefix according to the BGP decision process.
  Default false
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD
  Context configure router string bgp bfd-liveness boolean
  Tree bfd-liveness
 

Description

When configured to true, BFD is enabled on all BGP sessions, subject to the association of those BGP sessions with IP interfaces that have BFD configurations.

When configured to false, BFD is not enabled globally for all BGP sessions.
  Default false
  Introduced 16.0.R1
 

Platforms

All
bgp-tunnel-metric
  Synopsis Enter the bgp-tunnel-metric context
  Context configure router string bgp bgp-tunnel-metric
  Tree bgp-tunnel-metric
 

Description

Commands in this context control the tunnel table metrics associated with BGP label unicast routes.
  Introduced 20.5.R1
 

Platforms

All
prefer-aigp boolean
  Synopsis Use the AIGP attribute as tunnel metric when present
  Context configure router string bgp bgp-tunnel-metric prefer-aigp boolean
  Tree prefer-aigp
 

Description

When configured to true, the TTM metric is based on the AIGP metric if the route has the path attribute. When the BGP-LU route is selected for installation in TTM and it is not matched by a BGP import policy entry that overrides the BGP tunnel metric action, the TTM metric of the tunnel is set to the AIGP metric value of the BGP-LU route plus the resolved cost to the BGP next-hop of the route; otherwise, the metric is set to the value in the value setting.

When configured to false, the AIGP attribute is ignored for purposes to TTM metric derivation.
  Default false
  Introduced 20.5.R1
 

Platforms

All
value number
  Synopsis BGP tunnel metric value
  Context configure router string bgp bgp-tunnel-metric value number
  Tree value
 

Description

This command configures a BGP tunnel metric for label IPv4 routes that do not have their metric set by more specific means.

If a BGP-LU route is selected for installation in the TTM and there is no tunnel metric policy action that applies to the route, the TTM metric of the associated tunnel is set to this value if either:

  • prefer-aigp is set to false

  • prefer-aigp is set to true but the BGP-LU route does not have an AIGP attribute
  Range 0 to 4294967295
  Default 1000
  Introduced 20.5.R1
 

Platforms

All
bgp-tunnel-preference number
  Synopsis BGP tunnel table preference
  Context configure router string bgp bgp-tunnel-preference number
  Tree bgp-tunnel-preference
 

Description

This command configures the tunnel table preference for BGP-LU tunnel type.

The tunnel table preference applies to next-hop resolution of BGP routes for: EVPN, IPv4, IPv6, VPN-IPv4, VPN-IPv6, label-IPv4, and label-IPV6 in the tunnel table.

This feature does not apply to a VPRN, VPLS, or VLL service with explicit binding to an SDP that enabled the mixed-lsp-mode option. The service manager controls and fixes the tunnel preference in such an SDP. The tunnel table preference configuration does not modify the SDP behavior, nor the services that bind to it.
  Range 1 to 255
  Default 12
  Introduced 21.10.R1
 

Platforms

All
block-prefix-sid boolean
  Synopsis Block the prefix SID attribute
  Context configure router string bgp block-prefix-sid boolean
  Tree block-prefix-sid
 

Description

When configured to true, all prefix SID attributes are removed from label IPv4 and label IPv6 routes when they are exchanged with EBGP and IBGP peers covered by the scope of the command. Locally-imposed prefix SID attributes are also removed.

When configured to false, all prefix SID attributes associated with label IPv4 and label IPv6 routes are propagated without restriction.

A change of this configuration causes the affected BGP sessions to flap.
  Default false
  Introduced 19.10.R1
 

Platforms

All
client-reflect boolean
  Synopsis Allow client reflection of routes by route reflector
  Context configure router string bgp client-reflect boolean
  Tree client-reflect
 

Description

When configured to true, routes received from neighbors considered to be RR clients are reflected to other peers as expected.

When configured to false, routes received from neighbors considered to be RR clients are not reflected to other clients.
  Default true
  Introduced 16.0.R1
 

Platforms

All
cluster
  Synopsis Enter the cluster context
  Context configure router string bgp cluster
  Tree cluster
  Introduced 16.0.R1
 

Platforms

All
allow-local-fallback boolean
  Synopsis Allow fallback to RR topology location for ORR
  Context configure router string bgp cluster allow-local-fallback boolean
  Tree allow-local-fallback
 

Description

When configured to true, this command allows the RR to advertise the best BGP path from its own topology location when there are no reachable routes from the client's ORR location. The ORR location must be specified before this command can be set to true.

When configured to false, no route is advertised to the clients when there are no reachable routes from the client's ORR location.
  Default false
  Introduced 16.0.R1
 

Platforms

All
cluster-id string
  Synopsis Route reflector cluster ID
  Context configure router string bgp cluster cluster-id string
  Tree cluster-id
 

Description

The command specifies the cluster ID to associate with the routing instance, effectively making all IBGP peers of the routing instance RR clients.
  Introduced 16.0.R1
 

Platforms

All
orr-location number
  Synopsis Optimal route reflection location for the cluster
  Context configure router string bgp cluster orr-location number
  Tree orr-location
 

Description

This command configures an ORR location ID. If a cluster ID is also specified, the clients in that cluster receive routes optimal for that specific location.

With optimal route reflection, the best path advertised to a client takes location ID into account. If the tie-break for best path (or Add-Paths) comes down to next-hop IGP cost, the IGP costs will be calculated relative to the specified location. In the SR OS implementation, the IGP costs from arbitrary ORR locations are calculated using OSPF, OSPFv3, IS-IS, or BGP-LS information in the TE DB.
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
connect-retry number
  Synopsis BGP connect retry timer value
  Context configure router string bgp connect-retry number
  Tree connect-retry
 

Description

This command configures the BGP connect retry timer. When the timer expires, BGP tries to reconnect to the configured peer.
  Range 1 to 65535
  Default 120
  Introduced 16.0.R1
 

Platforms

All
convergence
  Synopsis Enter the convergence context
  Context configure router string bgp convergence
  Tree convergence
  Introduced 19.7.R1
 

Platforms

All
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string bgp convergence family keyword
  Tree family
  Introduced 19.7.R1
 

Platforms

All
[family-type] keyword
  Synopsis Address family for which convergence selection applies
  Context configure router string bgp convergence family keyword
  Options ipv4, ipv6
 

Notes

This element is part of a list key.
  Introduced 19.7.R1
 

Platforms

All
max-wait-to-advertise number
  Synopsis Maximum wait time before advertising routes
  Context configure router string bgp convergence family keyword max-wait-to-advertise number
  Tree max-wait-to-advertise
  Range 0 to 3600
  Default 0
  Introduced 19.7.R1
 

Platforms

All
min-wait-to-advertise number
  Synopsis Minimum wait time before advertising routes
  Context configure router string bgp convergence min-wait-to-advertise number
  Tree min-wait-to-advertise
  Range 0 to 3600
  Default 0
  Introduced 19.7.R1
 

Platforms

All
damp-peer-oscillations
  Synopsis Enable the damp-peer-oscillations context
  Context configure router string bgp damp-peer-oscillations
  Tree damp-peer-oscillations
 

Description

Commands in this context specify how long a BGP peer session remains in the idle state after an error causes the session to reset. In the idle state, BGP does not initiate or respond to attempts to establish a new session. Repeated errors that occur a short time after each session reset cause longer and longer hold times in the idle state.
  Introduced 16.0.R1
 

Platforms

All
error-interval number
  Synopsis Time after a reset that the session must be error-free
  Context configure router string bgp damp-peer-oscillations error-interval number
  Tree error-interval
 

Description

This command sets the interval of time after a reset, during which the session must be error-free in order to reset the penalty counter and return the idle hold time to the initial wait time.
  Range 0 to 2048
  Default 30
  Introduced 16.0.R1
 

Platforms

All
idle-hold-time
  Synopsis Enter the idle-hold-time context
  Context configure router string bgp damp-peer-oscillations idle-hold-time
  Tree idle-hold-time
  Introduced 16.0.R1
 

Platforms

All
initial-wait number
  Synopsis Time session remains in idle state after stabilization
  Context configure router string bgp damp-peer-oscillations idle-hold-time initial-wait number
  Tree initial-wait
  Range 0 to 2048
  Default 0
  Introduced 16.0.R1
 

Platforms

All
max-wait number
  Synopsis Maximum session idle time after repeated instability
  Context configure router string bgp damp-peer-oscillations idle-hold-time max-wait number
  Tree max-wait
  Range 1 to 2048
  Default 60
  Introduced 16.0.R1
 

Platforms

All
second-wait number
  Synopsis Time that doubles after each session failure
  Context configure router string bgp damp-peer-oscillations idle-hold-time second-wait number
  Tree second-wait
 

Description

This command defines the hold time that doubles after each repeated session failure that occurs in a short span of time.
  Range 1 to 2048
  Default 5
  Introduced 16.0.R1
 

Platforms

All
damping boolean
  Synopsis Use BGP route damping to reduce route flap
  Context configure router string bgp damping boolean
  Tree damping
 

Description

When configured to true, this command enables route damping to reduce the number of update messages sent between BGP peers and reduce the load on peers without affecting the route convergence time for stable routes.

Route damping is controlled by profiles set in route policies. If no profile is specified in the route policy, the default damping profile is used with the following parameters:

  • Half-life: 15 minutes

  • Max-suppress: 60 minutes

  • Suppress-threshold: 3000

  • Reuse-threshold: 750

When configured to false, BGP route damping for learned routes is disabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
def-recv-evpn-encap keyword
  Synopsis Default EVPN encapsulation type
  Context configure router string bgp def-recv-evpn-encap keyword
  Tree def-recv-evpn-encap
 

Description

This command specifies the encapsulation type that BGP uses when an EVPN route is received without the Encapsulation Extended Community.
  Default mpls
  Options mpls, vxlan
  Introduced 16.0.R1
 

Platforms

All
default-label-preference
  Synopsis Enter the default-label-preference context
  Context configure router string bgp default-label-preference
  Tree default-label-preference
  Introduced 19.5.R1
 

Platforms

All
ebgp number
  Synopsis Default preference for EBGP
  Context configure router string bgp default-label-preference ebgp number
  Tree ebgp
  Range 0 to 255
  Default 0
  Introduced 19.5.R1
 

Platforms

All
ibgp number
  Synopsis Default preference for IBGP
  Context configure router string bgp default-label-preference ibgp number
  Tree ibgp
  Range 0 to 255
  Default 0
  Introduced 19.5.R1
 

Platforms

All
default-preference
  Synopsis Enter the default-preference context
  Context configure router string bgp default-preference
  Tree default-preference
  Introduced 19.5.R1
 

Platforms

All
ebgp number
  Synopsis Default preference for EBGP
  Context configure router string bgp default-preference ebgp number
  Tree ebgp
  Range 0 to 255
  Default 0
  Introduced 19.5.R1
 

Platforms

All
ibgp number
  Synopsis Default preference for IBGP
  Context configure router string bgp default-preference ibgp number
  Tree ibgp
  Range 0 to 255
  Default 0
  Introduced 19.5.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string bgp description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
dynamic-neighbor-limit number
  Synopsis Max dynamic BGP sessions to accept from remote peers
  Context configure router string bgp dynamic-neighbor-limit number
  Tree dynamic-neighbor-limit
 

Description

This command configures the maximum number of dynamic BGP sessions to accept from remote peers associated with the entire BGP instance. If accepting a new dynamic session causes the instance limit to be exceeded, the new session attempt is rejected and a Notification message is sent back to the remote peer.
  Range 1 to 8192
  Introduced 16.0.R1
 

Platforms

All
ebgp-default-reject-policy
  Synopsis Enter the ebgp-default-reject-policy context
  Context configure router string bgp ebgp-default-reject-policy
  Tree ebgp-default-reject-policy
  Introduced 19.5.R1
 

Platforms

All
export boolean
  Synopsis Enable default reject export policy for external peers
  Context configure router string bgp ebgp-default-reject-policy export boolean
  Tree export
  Default true
  Introduced 19.5.R1
 

Platforms

All
import boolean
  Synopsis Enable default reject import policy for external peers
  Context configure router string bgp ebgp-default-reject-policy import boolean
  Tree import
  Default true
  Introduced 19.5.R1
 

Platforms

All
egress-peer-engineering
  Synopsis Enable the egress-peer-engineering context
  Context configure router string bgp egress-peer-engineering
  Tree egress-peer-engineering
  Introduced 21.7.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BGP egress engineering
  Context configure router string bgp egress-peer-engineering admin-state keyword
  Tree admin-state
 

Description

This command administratively enables or disables egress engineering for the BGP. If enabled, peer node SIDs and peer adjacency SIDs are advertised in BGP-LS.
  Default disable
  Options enable, disable
  Introduced 21.7.R1
 

Platforms

All
enforce-first-as boolean
  Synopsis Enforce the configured peer AS value in received routes
  Context configure router string bgp enforce-first-as boolean
  Tree enforce-first-as
 

Description

When configured to true for an EBGP session, all routes received from an EBGP peer are checked to ensure that the most recent ASN in the AS_PATH attribute of each route matches the configured AS of the session. If there is not a match, the session is reset (if the update-fault-tolerance command in the error-handling context is set to false) or the session is left up but the route is treated as withdrawn (if update-fault-tolerance is set to true).

This command does not flap an established session because it applies only to routes received after the command is issued.

When configured to false, received routes are not checked for compliance with the rule.
  Default false
  Introduced 16.0.R1
 

Platforms

All
error-handling
  Synopsis Enter the error-handling context
  Context configure router string bgp error-handling
  Tree error-handling
  Introduced 16.0.R1
 

Platforms

All
update-fault-tolerance boolean
  Synopsis Tolerate non-critical errors in UPDATE messages
  Context configure router string bgp error-handling update-fault-tolerance boolean
  Tree update-fault-tolerance
 

Description

When configured to true, non-critical errors are handled with treat-as-withdraw, attribute-discard, and other non-disruptive approaches that do not cause a session reset. Critical errors still trigger a session reset.

When configured to false, most errors trigger a session reset.
  Default false
  Introduced 16.0.R1
 

Platforms

All
export
  Synopsis Enable the export context
  Context configure router string bgp export
  Tree export
 

Description

Commands in this context specify route policies that control the handling of outbound routes transmitted to all peers. Route policies are configured in the configure policy-options context.

When no export policies are specified in this context, BGP-learned routes are advertised by default and non-BGP routes are not advertised.
  Introduced 16.0.R1
 

Platforms

All
policy (policy-expr-string | string)
  Synopsis List of export policy names
  Context configure router string bgp export policy (policy-expr-string | string)
  Tree policy
 

Description

This command specifies route policies that control the handling of outbound routes transmitted to certain peers.

Each object in this command is either a policy logical expression or the name of a single policy. The objects are evaluated in the specified order to determine the modifications of each route and the final action to accept or reject the route.

Only one of the objects referenced by the command can be a policy logical expression consisting of policy names (enclosed in square brackets) and logical operators (AND, OR, NOT).

When no export policies are specified, BGP-learned routes are advertised by default and non-BGP routes are not advertised.
  String Length 1 to 255
  Max. Instances 15
  Min. Instances 1
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
extended-nh-encoding
  Synopsis Enter the extended-nh-encoding context
  Context configure router string bgp extended-nh-encoding
  Tree extended-nh-encoding
 

Description

Commands in this context specify the IPv4-related address families that can receive IPv6 next hops from peers. The peers should not send such routes unless the peers receive notification of this capability. If the router receives an enabled address family route from a peer to which it did not advertise the necessary capability, the UPDATE message will be considered malformed. This causes either a session reset or treat-as-withdraw behavior depending on the error handling settings.
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Advertise encoding capability for IPv4 routes
  Context configure router string bgp extended-nh-encoding ipv4 boolean
  Tree ipv4
  Default false
  Introduced 19.5.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise encoding capability for label-IPv4 routes
  Context configure router string bgp extended-nh-encoding label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise encoding capability for VPN-IPv4 routes
  Context configure router string bgp extended-nh-encoding vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
family
  Synopsis Enter the family context
  Context configure router string bgp family
  Tree family
 

Description

Commands in this context specify the BGP address families supported by the base router BGP sessions.
  Introduced 16.0.R1
 

Platforms

All
bgp-ls boolean
  Synopsis Advertise MP-BGP support for the BGP-LS address family
  Context configure router string bgp family bgp-ls boolean
  Tree bgp-ls
  Default false
  Introduced 16.0.R1
 

Platforms

All
evpn boolean
  Synopsis Advertise MP-BGP support for the EVPN address family
  Context configure router string bgp family evpn boolean
  Tree evpn
  Default false
  Introduced 16.0.R1
 

Platforms

All
flow-ipv4 boolean
  Synopsis Advertise support for the flowspec-IPv4 address family
  Context configure router string bgp family flow-ipv4 boolean
  Tree flow-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
flow-ipv6 boolean
  Synopsis Advertise support for the flowspec-IPv6 address family
  Context configure router string bgp family flow-ipv6 boolean
  Tree flow-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
flow-vpn-ipv4 boolean
  Synopsis Advertise support for FlowSpec-VPN IPv4 address family
  Context configure router string bgp family flow-vpn-ipv4 boolean
  Tree flow-vpn-ipv4
  Default false
  Introduced 22.7.R1
 

Platforms

All
flow-vpn-ipv6 boolean
  Synopsis Advertise support for FlowSpec-VPN IPv6 address family
  Context configure router string bgp family flow-vpn-ipv6 boolean
  Tree flow-vpn-ipv6
  Default false
  Introduced 22.7.R1
 

Platforms

All
ipv4 boolean
  Synopsis Advertise MP-BGP support for the IPv4 address family
  Context configure router string bgp family ipv4 boolean
  Tree ipv4
  Default true
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Advertise MP-BGP support for the IPv6 address family
  Context configure router string bgp family ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
l2-vpn boolean
  Synopsis Advertise MP-BGP support for the L2-VPN address family
  Context configure router string bgp family l2-vpn boolean
  Tree l2-vpn
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise support for the label-IPv4 address family
  Context configure router string bgp family label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Advertise support for the label-IPv6 address family
  Context configure router string bgp family label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-ipv4 boolean
  Synopsis Advertise support for the MCAST-IPv4 address family
  Context configure router string bgp family mcast-ipv4 boolean
  Tree mcast-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-ipv6 boolean
  Synopsis Advertise support for the MCAST-IPv6 address family
  Context configure router string bgp family mcast-ipv6 boolean
  Tree mcast-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv4 boolean
  Synopsis Advertise support for the IPv4 VPN MCAST address family
  Context configure router string bgp family mcast-vpn-ipv4 boolean
  Tree mcast-vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv6 boolean
  Synopsis Advertise support for the IPv6 VPN MCAST address family
  Context configure router string bgp family mcast-vpn-ipv6 boolean
  Tree mcast-vpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mdt-safi boolean
  Synopsis Advertise MP-BGP support for MDT-SAFI address family
  Context configure router string bgp family mdt-safi boolean
  Tree mdt-safi
  Default false
  Introduced 16.0.R1
 

Platforms

All
ms-pw boolean
  Synopsis Advertise support for multi-segment PW address family
  Context configure router string bgp family ms-pw boolean
  Tree ms-pw
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv4 boolean
  Synopsis Advertise support for the IPv4 MCAST VPN address family
  Context configure router string bgp family mvpn-ipv4 boolean
  Tree mvpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv6 boolean
  Synopsis Advertise support for the IPv6 MCAST VPN address family
  Context configure router string bgp family mvpn-ipv6 boolean
  Tree mvpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
route-target boolean
  Synopsis Advertise MP-BGP support for RT constraint routes
  Context configure router string bgp family route-target boolean
  Tree route-target
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-policy-ipv4 boolean
  Synopsis Advertise MP-BGP support for the SR-policy-IPv4 family
  Context configure router string bgp family sr-policy-ipv4 boolean
  Tree sr-policy-ipv4
 

Description

This command allows the router to advertise the capability for AFI1/SAFI73, which corresponds to BGP routes that encode a segment routing policy to an IPv4 destination. 
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-policy-ipv6 boolean
  Synopsis Advertise MP-BGP support for the SR-policy-IPv6 family
  Context configure router string bgp family sr-policy-ipv6 boolean
  Tree sr-policy-ipv6
 

Description

This command allows the router to advertise the capability for AFI2/SAFI73, which corresponds to BGP routes that encode a segment routing policy to an IPv6 destination. 
  Default false
  Introduced 19.10.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise MP-BGP support for IPv4 VPN address family
  Context configure router string bgp family vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Advertise MP-BGP support for IPv6 VPN address family
  Context configure router string bgp family vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
fast-external-failover boolean
  Synopsis Drop external BGP session immediately when link fails
  Context configure router string bgp fast-external-failover boolean
  Tree fast-external-failover
 

Description

When configured to true, the router drops an external BGP session to a single-hop neighbor immediately when the local interface goes down.

When configured to false, the BGP session remains up until the hold time expires.

  Default true
  Introduced 16.0.R1
 

Platforms

All
flowspec
  Synopsis Enter the flowspec context
  Context configure router string bgp flowspec
  Tree flowspec
  Introduced 16.0.R1
 

Platforms

All
validate-dest-prefix boolean
  Synopsis Validate destination prefix in FlowSpec-IPv4/IPv6 route
  Context configure router string bgp flowspec validate-dest-prefix boolean
  Tree validate-dest-prefix
 

Description

When configured to true, this command enables validation of received IPv4 and IPv6 FlowSpec routes that contain a destination-prefix subcomponent.

A FlowSpec route with a destination-prefix subcomponent is considered invalid if both of the following are true:

  • it was originated outside the local AS of the receiving BGP router

  • the neighbor AS of the FlowSpec route does not match the neighbor AS of the best match BGP (unicast) route for the destination prefix or the neighbor AS of any longer match BGP (unicast) route for the destination prefix

An invalid route is retained in the BGP but it is not used for filtering traffic or propagated to other BGP routers.

When configured to false, destination-prefix validation is disabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
validate-redirect-ip boolean
  Synopsis Validate the redirect-to-IPv4 action in FlowSpec route
  Context configure router string bgp flowspec validate-redirect-ip boolean
  Tree validate-redirect-ip
 

Description

When configured to true, this command enables procedures to validate the redirect-to-IPv4 action attached to FlowSpec-IPv4 routes that are received by the BGP instance.

A FlowSpec-IPv4 route is considered invalid and is not installed as a filter rule if the FlowSpec-IPv4 route is deemed to have originated from a different AS than the IP route that resolves the redirection IPv4 address. The originating AS of a FlowSpec route is determined from its AS path.

When configured to false, the validation check is disabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
graceful-restart
  Synopsis Enable the graceful-restart context
  Context configure router string bgp graceful-restart
  Tree graceful-restart
 

Description

Commands in this context configure BGP graceful restart helper procedures for address families included in the GR capabilities of both peers.
  Introduced 16.0.R1
 

Platforms

All
gr-notification boolean
  Synopsis Perform Graceful Restart procedures
  Context configure router string bgp graceful-restart gr-notification boolean
  Tree gr-notification
 

Description

When configured to true, the Graceful Restart capability sent by the router indicates support for NOTIFICATION messages. If the peer also supports this capability, the session is restarted gracefully (while preserving forwarding) if either peer sends a NOTIFICATION message due to some type of event or error.

When configured to false, NOTIFICATION messages are not supported.
  Default false
  Introduced 16.0.R1
 

Platforms

All
long-lived
  Synopsis Enable the long-lived context
  Context configure router string bgp graceful-restart long-lived
  Tree long-lived
 

Description

Commands in this context configure the BGP Long-Lived Graceful-Restart (LLGR) procedures.

LLGR, known informally as BGP persistence, is an extension of BGP GR that allows a session to stay down for a longer period of time. During this time, learned routes are marked and re-advertised as stale but they can continue to be used as routes of last resort.

The LLGR handling of a session failure can be invoked immediately or it can be delayed until the end of the traditional GR restart window.
  Introduced 16.0.R1
 

Platforms

All
advertise-stale-to-all-neighbors boolean
  Synopsis Advertise stale routes to all BGP peers
  Context configure router string bgp graceful-restart long-lived advertise-stale-to-all-neighbors boolean
  Tree advertise-stale-to-all-neighbors
  Default false
  Introduced 16.0.R1
 

Platforms

All
advertised-stale-time number
  Synopsis LLGR stale routes time
  Context configure router string bgp graceful-restart long-lived advertised-stale-time number
  Tree advertised-stale-time
  Range 0 to 16777215
  Default 86400
  Introduced 16.0.R1
 

Platforms

All
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string bgp graceful-restart long-lived family keyword
  Tree family
  Introduced 16.0.R1
 

Platforms

All
[family-type] keyword
  Synopsis Family type for family-specific LLGR configuration
  Context configure router string bgp graceful-restart long-lived family keyword
  Options ipv4, vpn-ipv4, ipv6, vpn-ipv6, l2-vpn, flow-ipv4, route-target, flow-ipv6, label-ipv4, label-ipv6, flow-vpn-ipv4, flow-vpn-ipv6
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertised-stale-time number
  Synopsis LLGR stale routes time for family override
  Context configure router string bgp graceful-restart long-lived family keyword advertised-stale-time number
  Tree advertised-stale-time
  Range 0 to 16777215
  Default 86400
  Introduced 16.0.R1
 

Platforms

All
helper-override-stale-time number
  Synopsis Locally-configured stale routes override time
  Context configure router string bgp graceful-restart long-lived family keyword helper-override-stale-time number
  Tree helper-override-stale-time
  Range 0 to 16777215
  Introduced 16.0.R1
 

Platforms

All
forwarding-bits-set keyword
  Synopsis BGP LLGR forwarding-bit behavior for address family
  Context configure router string bgp graceful-restart long-lived forwarding-bits-set keyword
  Tree forwarding-bits-set
 

Description

This command determines the setting of the F bit in the GR and LLGR capabilities advertised by the router. When the F bit is set for an address family, it indicates that the advertising router is able to preserve forwarding state for the routes of that address family across the last restart. When the session is re-established after a restart and the F bit is not set, all stale routes from the peer are immediately removed for the corresponding address family.

This command allows the F bit to be set for all address families or only for non-forwarding address families (L2-VPN, route target, flow-IPv4, and flow-IPv6).
  Default none
  Options none, all, non-fwd
  Introduced 16.0.R1
 

Platforms

All
helper-override-restart-time number
  Synopsis Locally-configured override for restart time
  Context configure router string bgp graceful-restart long-lived helper-override-restart-time number
  Tree helper-override-restart-time
 

Description

This command overrides the restart time advertised by a peer (in its GR capability) with a locally-configured value. This override applies only to AFI/SAFI that were included in the GR capability of the peer. The restart-time is always zero for AFI/SAFI not included in the GR capability. This command is useful if the local router wants to force the LLGR phase to begin after a set time for all protected AFI/SAFI.
  Range 0 to 4095
  Introduced 16.0.R1
 

Platforms

All
helper-override-stale-time number
  Synopsis Locally-configured stale routes override time
  Context configure router string bgp graceful-restart long-lived helper-override-stale-time number
  Tree helper-override-stale-time
 

Description

This command configures a locally-imposed LLGR stale time that overrides the long-lived stale routes time that is advertised by the router in its LLGR capability.

This command applies to all AFI/SAFI in the advertised LLGR capability except for any AFI/SAFI with a family-specific override.
  Range 0 to 16777215
  Introduced 16.0.R1
 

Platforms

All
without-no-export boolean
  Synopsis Advertise LLGR stale routes to non-LLGR peers
  Context configure router string bgp graceful-restart long-lived without-no-export boolean
  Tree without-no-export
 

Description

When configured to true, LLGR stale routes can be advertised to any peer (EBGP or IBGP) that did not signal the LLGR capability. For IBGP and confederation-EBGP peers that did not advertise the LLGR capability, the local preference attribute in the advertised stale routes is automatically set to 0.

When configured to false, LLGR stale routes are not advertised to any EBGP peer that did not signal the LLGR capability. For IBGP and confederation-EBGP peers that did not advertise the LLGR capability, the local preference attribute in the advertised stale routes is automatically set to 0 and a NO_EXPORT standard community is automatically added to the routes.
  Default false
  Introduced 16.0.R1
 

Platforms

All
restart-time number
  Synopsis Restart time advertised by GR capability
  Context configure router string bgp graceful-restart restart-time number
  Tree restart-time
  Range 0 to 4095
  Default 120
  Introduced 16.0.R1
 

Platforms

All
stale-routes-time number
  Synopsis Maximum time to maintain routes after graceful restart
  Context configure router string bgp graceful-restart stale-routes-time number
  Tree stale-routes-time
  Range 1 to 3600
  Default 360
  Introduced 16.0.R1
 

Platforms

All
group [group-name] string
  Synopsis Enter the group list instance
  Context configure router string bgp group string
  Tree group
 

Description

Commands in this context define BGP peer groups and their group-specific command options. The options in this context are identical to the global BGP options. Any options that are not overridden by the group-specific commands inherit the configuration settings from the BGP global level.
  Introduced 16.0.R1
 

Platforms

All
[group-name] string
  Synopsis BGP peer group name
  Context configure router string bgp group string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
add-paths
  Synopsis Enable the add-paths context
  Context configure router string bgp group string add-paths
  Tree add-paths
 

Description

Commands in this context allow the add-paths node to be configured for the specified families for configuration of the BGP group or neighbor. The BGP add-paths capability allows the router to send or receive multiple paths per prefix to and from a peer.

When unconfigured, command settings are inherited from a higher level BGP configuration.
  Introduced 16.0.R1
 

Platforms

All
evpn
  Synopsis Enter the evpn context
  Context configure router string bgp group string add-paths evpn
  Tree evpn
 

Description

Commands in this context configure the add-paths capability for EVPN routes. By default, add-paths is not enabled for EVPN routes.
  Introduced 21.10.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple EVPN paths per prefix from a peer
  Context configure router string bgp group string add-paths evpn receive boolean
  Tree receive
  Default false
  Introduced 21.10.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per EVPN prefix to Add-Path peers
  Context configure router string bgp group string add-paths evpn send (number | keyword)
  Tree send
  Range 1 to 16
  Options multipaths
  Introduced 21.10.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string bgp group string add-paths ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple labeled-unicast routes per IPv4 prefix
  Context configure router string bgp group string add-paths ipv4 receive boolean
  Tree receive
 

Description

When configured to true, the router can receive multiple unlabeled IPv4 unicast routes per prefix from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per unlabeled IPv4 unicast prefix
  Context configure router string bgp group string add-paths ipv4 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths per unlabeled IPv4 unicast prefix that are allowed to be advertised to ADD-PATH peers. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for unlabeled IPv4 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string bgp group string add-paths ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per IPv6 prefix
  Context configure router string bgp group string add-paths ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple unlabeled IPv6 unicast routes per prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per unlabeled IPv6 unicast prefix
  Context configure router string bgp group string add-paths ipv6 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths per unlabeled IPv4 unicast prefix that are allowed to be advertised to ADD-PATH peers. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for unlabeled IPv4 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
label-ipv4
  Synopsis Enter the label-ipv4 context
  Context configure router string bgp group string add-paths label-ipv4
  Tree label-ipv4
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple labeled-unicast routes per IPv4 prefix
  Context configure router string bgp group string add-paths label-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple labeled-unicast routes per IPv4 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per labeled IPv4 unicast prefix
  Context configure router string bgp group string add-paths label-ipv4 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per labeled IPv4 unicast prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for labeled IPv4 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
label-ipv6
  Synopsis Enter the label-ipv6 context
  Context configure router string bgp group string add-paths label-ipv6
  Tree label-ipv6
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple labeled-unicast routes per IPv6 prefix
  Context configure router string bgp group string add-paths label-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple labeled-unicast routes per IPv6 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per labeled IPv6 unicast prefix
  Context configure router string bgp group string add-paths label-ipv6 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per labeled IPv6 unicast prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for labeled IPv6 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv4
  Synopsis Enter the mcast-vpn-ipv4 context
  Context configure router string bgp group string add-paths mcast-vpn-ipv4
  Tree mcast-vpn-ipv4
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple multicast routes per IPv4 VPN prefix
  Context configure router string bgp group string add-paths mcast-vpn-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple multicast routes per IPv4 VPN prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths per multicast IPv4 VPN prefix
  Context configure router string bgp group string add-paths mcast-vpn-ipv4 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast IPv4 VPN prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for multicast IPv4 VPN routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv6
  Synopsis Enter the mcast-vpn-ipv6 context
  Context configure router string bgp group string add-paths mcast-vpn-ipv6
  Tree mcast-vpn-ipv6
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple multicast routes per IPv6 VPN prefix
  Context configure router string bgp group string add-paths mcast-vpn-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple multicast routes per IPv6 VPN prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths per multicast IPv6 VPN prefix
  Context configure router string bgp group string add-paths mcast-vpn-ipv6 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast IPv6 VPN prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for multicast IPv6 VPN routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv4
  Synopsis Enter the mvpn-ipv4 context
  Context configure router string bgp group string add-paths mvpn-ipv4
  Tree mvpn-ipv4
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple multicast VPN routes per IPv4 prefix
  Context configure router string bgp group string add-paths mvpn-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple multicast VPN routes per IPv4 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths per multicast VPN IPv4 prefix
  Context configure router string bgp group string add-paths mvpn-ipv4 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast VPN IPv4 prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for multicast VPN IPv4 routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv6
  Synopsis Enter the mvpn-ipv6 context
  Context configure router string bgp group string add-paths mvpn-ipv6
  Tree mvpn-ipv6
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple multicast VPN routes per IPv6 prefix
  Context configure router string bgp group string add-paths mvpn-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple multicast VPN routes per IPv6 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths per multicast VPN IPv6 prefix
  Context configure router string bgp group string add-paths mvpn-ipv6 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast VPN IPv6 prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for multicast VPN IPv6 routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4
  Synopsis Enter the vpn-ipv4 context
  Context configure router string bgp group string add-paths vpn-ipv4
  Tree vpn-ipv4
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per VPN-IPv4 prefix
  Context configure router string bgp group string add-paths vpn-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple VPN-IPv4 routes per prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per VPN-IPv4 prefix
  Context configure router string bgp group string add-paths vpn-ipv4 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per VPN-IPv4 prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for VPN-IPv4 routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6
  Synopsis Enter the vpn-ipv6 context
  Context configure router string bgp group string add-paths vpn-ipv6
  Tree vpn-ipv6
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per VPN-IPv6 prefix
  Context configure router string bgp group string add-paths vpn-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple VPN-IPv6 routes per prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per VPN-IPv6 prefix
  Context configure router string bgp group string add-paths vpn-ipv6 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per VPN-IPv6 prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for VPN-IPv6 routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the BGP group
  Context configure router string bgp group string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
advertise-inactive boolean
  Synopsis Advertise an inactive BGP route to peers
  Context configure router string bgp group string advertise-inactive boolean
  Tree advertise-inactive
 

Description

When configured to true, this command allows an inactive BGP route to be advertised, even though it is not the most preferred route. The effect of the command on advertised unlabeled, labeled, and multicast IPv4 and IPv6 routes depends on several factors.

  • If the active route for the IP prefix is a BGP route, that route is advertised.

  • If the active route is a non-BGP route and there are valid inactive BGP routes to the same destination, the best valid inactive route is advertised unless the active non-BGP route is matched and accepted by an export policy applied to the session.

  • If the active route is a non-BGP route and there are no valid BGP routes to the same destination, no route is advertised unless the active non-BGP route is matched and accepted by an export policy applied to the session.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the advertisement of inactive BGP routes to other BGP peers is disabled.
  Introduced 16.0.R1
 

Platforms

All
advertise-ipv6-next-hops
  Synopsis Enable the advertise-ipv6-next-hops context
  Context configure router string bgp group string advertise-ipv6-next-hops
  Tree advertise-ipv6-next-hops
 

Description

Commands in this context allow specified IP family routes to be advertised to IPv6 transport peers with a true IPv6 address when originated or when a configured or automatic next-hop-self action is applied.

When unconfigured, command settings are inherited from a higher level BGP configuration.
  Introduced 16.0.R1
 

Platforms

All
evpn boolean
  Synopsis Advertise EVPN route with IPv6 next-hop address
  Context configure router string bgp group string advertise-ipv6-next-hops evpn boolean
  Tree evpn
 

Description

When configured to true, EVPN routes are advertised with IPv6 next-hop addresses to IPv6 transport peers.

When configured to false, EVPN routes are advertised with IPv4 next-hop addresses to IPv6 transport peers.
  Default false
  Introduced 19.5.R1
 

Platforms

All
ipv4 boolean
  Synopsis Advertise IPv4 route with IPv6 next-hop address
  Context configure router string bgp group string advertise-ipv6-next-hops ipv4 boolean
  Tree ipv4
 

Description

When configured to true, IPv4 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers. The appropriate extended NH encoding capability must also be received from the remote peer before the route can be advertised with an IPv6 address instead of the IPv4 system address as the next hop.

When configured to false, IPv4 routes are advertised with IPv4 next-hop addresses to IPv6 transport peers. If the route matches a BGP export policy entry that tries to change the next hop to an IPv6 address and an appropriate extended NH encoding capability was not received by the remote peer, the route is handled as though it was rejected by the policy entry.
  Default false
  Introduced 19.5.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise label IPv4 route with IPv6 next-hop address
  Context configure router string bgp group string advertise-ipv6-next-hops label-ipv4 boolean
  Tree label-ipv4
 

Description

When configured to true, label IPv4 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers. The appropriate extended NH encoding capability must also be received from the remote peer before the route can be advertised with an IPv6 address instead of the IPv4 system address as the next hop.

When configured to false, label IPv4 routes are advertised with the system IPv4 address as the next hop to IPv6 transport peers. If the route matches a BGP export policy entry that tries to change the next hop to an IPv6 address and an appropriate extended NH encoding capability was not received by the remote peer, the route is handled as though it was rejected by the policy entry.
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Advertise label IPv6 route with IPv6 next-hop address
  Context configure router string bgp group string advertise-ipv6-next-hops label-ipv6 boolean
  Tree label-ipv6
 

Description

When configured to true, label IPv6 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers.

When configured to false, label IPv6 routes are advertised toward IPv6 transport peers with the system IPv4 address as the BGP next hop, encoded as an IPv4-mapped IPv6 address.
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise VPN IPv4 route with IPv6 next-hop address
  Context configure router string bgp group string advertise-ipv6-next-hops vpn-ipv4 boolean
  Tree vpn-ipv4
 

Description

When configured to true, VPN IPv4 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers. The appropriate extended NH encoding capability must also be received from the remote peer before the route can be advertised with an IPv6 address instead of the IPv4 system address as the next hop.

When configured to false, VPN IPv4 routes are advertised toward IPv6 transport peers with the system IPv4 address as the BGP next hop. If the route matches a BGP export policy entry that tries to change the next hop to an IPv6 address and an appropriate extended NH encoding capability was not received by the remote peer, the route is handled as though it was rejected by the policy entry.
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Advertise VPN IPv6 route with IPv6 next-hop address
  Context configure router string bgp group string advertise-ipv6-next-hops vpn-ipv6 boolean
  Tree vpn-ipv6
 

Description

When configured to true, VPN IPv6 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers.

When configured to false, VPN IPv6 routes are advertised toward IPv6 transport peers with the system IPv4 address as the BGP next hop, encoded as an IPv4-mapped IPv6 address.
  Default false
  Introduced 16.0.R1
 

Platforms

All
aggregator-id-zero boolean
  Synopsis Set router ID in the BGP AGGREGATOR attribute to zero
  Context configure router string bgp group string aggregator-id-zero boolean
  Tree aggregator-id-zero
  Introduced 16.0.R1
 

Platforms

All
aigp boolean
  Synopsis Add AIGP attribute to advertised routes
  Context configure router string bgp group string aigp boolean
  Tree aigp
 

Description

When configured to true, this command enables Accumulated IGP (AIGP) path attribute support with one or more BGP peers. BGP path selection among routes with an associated AIGP metric is based on the end-to-end IGP metrics of the different BGP paths, even when these BGP paths span more than one AS and IGP instance.

When configured to false, the AIGP attribute is removed from advertised routes, if present, and is ignored in received routes.

  Default false
  Introduced 16.0.R1
 

Platforms

All
as-override boolean
  Synopsis Replace the peer ASN with the local ASN in AS Path
  Context configure router string bgp group string as-override boolean
  Tree as-override
 

Description

When configured to true, the advertising router's local AS replaces all occurrences of the peer AS in the AS_PATH attribute.

This command should be used with caution, as it breaks BGP's loop detection mechanism.

When configured to false, no AS override is performed.
  Default false
  Introduced 19.7.R1
 

Platforms

All
asn-4-byte boolean
  Synopsis Advertise the use of 4-byte ASNs
  Context configure router string bgp group string asn-4-byte boolean
  Tree asn-4-byte
 

Description

When this command inherits a value of true, the use of 4-byte ASNs is supported.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to true.

When configured to false, this command disables the use of 4-byte ASNs.
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis BGP authentication key for peers in the group
  Context configure router string bgp group string authentication-key string
  Tree authentication-key
 

Description

This command configures the authentication key that must be configured on both peers. The stored format of the authentication key is based on the configure system security hash-control management-interface md-cli hash-algorithm setting.
  String Length 1 to 370
  Introduced 16.0.R1
 

Platforms

All
authentication-keychain reference
  Synopsis TCP authentication keychain for the session
  Context configure router string bgp group string authentication-keychain reference
  Tree authentication-keychain
 

Description

This command associates the keychain to be used to authenticate the BGP session. The keychain allows the rollover of authentication keys during the lifetime of a session.
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD
  Context configure router string bgp group string bfd-liveness boolean
  Tree bfd-liveness
 

Description

When configured to true, BFD is enabled on a given protocol interface where the state of the protocol interface is tied to the state of the BFD session between the local node and the remote node.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, BFD is removed from the associated protocol adjacency.
  Introduced 16.0.R1
 

Platforms

All
block-prefix-sid boolean
  Synopsis Block the prefix SID attribute
  Context configure router string bgp group string block-prefix-sid boolean
  Tree block-prefix-sid
 

Description

When configured to true, all prefix SID attributes are removed from all routes exchanged between EBGP and IBGP peers covered by the scope of the command. Locally-imposed prefix SID attributes are also removed.

When configured to false, all prefix SID attributes are propagated without restriction.

A change of this configuration causes the affected BGP sessions to flap.
  Default false
  Introduced 19.10.R1
 

Platforms

All
capability-negotiation boolean
  Synopsis Enable capability negotiation
  Context configure router string bgp group string capability-negotiation boolean
  Tree capability-negotiation
 

Description

When configured to true, this command enables the exchange of capabilities.

When configured to false and the peering is flapped, new capabilities are not negotiated and strictly IPv4 exchanges are supported with the peer.
  Default true
  Introduced 16.0.R1
 

Platforms

All
client-reflect boolean
  Synopsis Allow cluster RR to advertise routes to its clients
  Context configure router string bgp group string client-reflect boolean
  Tree client-reflect
 

Description

When unconfigured, this command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to true.

When the command inherits a value of true, client reflection of routes is enabled.

When configured to false, this command disables client reflection of routes.
  Introduced 16.0.R1
 

Platforms

All
cluster
  Synopsis Enter the cluster context
  Context configure router string bgp group string cluster
  Tree cluster
  Introduced 16.0.R1
 

Platforms

All
allow-local-fallback boolean
  Synopsis Allow fallback to RR topology location
  Context configure router string bgp group string cluster allow-local-fallback boolean
  Tree allow-local-fallback
 

Description

When configured to true, this command allows the RR to advertise the best BGP path from its own topology location when there are no reachable routes from the client's ORR location. The ORR location must be specified before this command can be set to true.

When configured to false, no route is advertised to the client.
  Default false
  Introduced 16.0.R1
 

Platforms

All
cluster-id string
  Synopsis Route reflector cluster ID
  Context configure router string bgp group string cluster cluster-id string
  Tree cluster-id
  Introduced 16.0.R1
 

Platforms

All
orr-location number
  Synopsis Optimal route reflection location for the cluster
  Context configure router string bgp group string cluster orr-location number
  Tree orr-location
 

Description

This command configures an ORR location ID. If a cluster ID is also specified, the clients in that cluster receive routes optimal for that specific location.

With optimal route reflection, the best path advertised to a client takes location ID into account. If the tie-break for best path (or Add-Paths) comes down to next-hop IGP cost, the IGP costs will be calculated relative to the specified location. In the SR OS implementation, the IGP costs from arbitrary ORR locations are calculated using OSPF, OSPFv3, IS-IS, or BGP-LS information in the TE DB.
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
connect-retry number
  Synopsis BGP connect retry timer value
  Context configure router string bgp group string connect-retry number
  Tree connect-retry
  Range 1 to 65535
  Introduced 16.0.R1
 

Platforms

All
damp-peer-oscillations
  Synopsis Enable the damp-peer-oscillations context
  Context configure router string bgp group string damp-peer-oscillations
  Tree damp-peer-oscillations
 

Description

Commands in this context specify how long a BGP peer session remains in the idle state after an error causes the session to reset. In the idle state, BGP does not initiate or respond to attempts to establish a new session. Repeated errors that occur a short time after each session reset cause longer and longer hold times in the idle state.

When unconfigured, command settings are inherited from the global-level configuration.
  Introduced 16.0.R1
 

Platforms

All
error-interval number
  Synopsis Time after a reset that the session must be error-free
  Context configure router string bgp group string damp-peer-oscillations error-interval number
  Tree error-interval
 

Description

This command sets the interval of time after a reset, during which the session must be error-free in order to reset the penalty counter and return the idle hold time to the initial wait time.
  Range 0 to 2048
  Default 30
  Introduced 16.0.R1
 

Platforms

All
idle-hold-time
  Synopsis Enter the idle-hold-time context
  Context configure router string bgp group string damp-peer-oscillations idle-hold-time
  Tree idle-hold-time
  Introduced 16.0.R1
 

Platforms

All
initial-wait number
  Synopsis Time session remains in idle state after stabilization
  Context configure router string bgp group string damp-peer-oscillations idle-hold-time initial-wait number
  Tree initial-wait
  Range 0 to 2048
  Default 0
  Introduced 16.0.R1
 

Platforms

All
max-wait number
  Synopsis Maximum session idle time after repeated instability
  Context configure router string bgp group string damp-peer-oscillations idle-hold-time max-wait number
  Tree max-wait
  Range 1 to 2048
  Default 60
  Introduced 16.0.R1
 

Platforms

All
second-wait number
  Synopsis Time that doubles after each repeated session failure
  Context configure router string bgp group string damp-peer-oscillations idle-hold-time second-wait number
  Tree second-wait
 

Description

This command defines the hold time that doubles after each repeated session failure that occurs in a short span of time.
  Range 1 to 2048
  Default 5
  Introduced 16.0.R1
 

Platforms

All
damping boolean
  Synopsis Use BGP route damping to reduce route flap
  Context configure router string bgp group string damping boolean
  Tree damping
  Introduced 16.0.R1
 

Platforms

All
def-recv-evpn-encap keyword
  Synopsis Default EVPN encapsulation type
  Context configure router string bgp group string def-recv-evpn-encap keyword
  Tree def-recv-evpn-encap
 

Description

This command specifies the encapsulation type that BGP uses when an EVPN route is received without the Encapsulation Extended Community.

When unconfigured, the setting for this command is inherited from the BGP global-level configuration.
  Options mpls, vxlan
  Introduced 16.0.R1
 

Platforms

All
default-label-preference
  Synopsis Enter the default-label-preference context
  Context configure router string bgp group string default-label-preference
  Tree default-label-preference
  Introduced 19.5.R1
 

Platforms

All
ebgp number
  Synopsis Default preference for EBGP
  Context configure router string bgp group string default-label-preference ebgp number
  Tree ebgp
  Range 0 to 255
  Introduced 19.5.R1
 

Platforms

All
ibgp number
  Synopsis Default preference for IBGP
  Context configure router string bgp group string default-label-preference ibgp number
  Tree ibgp
  Range 0 to 255
  Introduced 19.5.R1
 

Platforms

All
default-preference
  Synopsis Enter the default-preference context
  Context configure router string bgp group string default-preference
  Tree default-preference
  Introduced 19.5.R1
 

Platforms

All
ebgp number
  Synopsis Default preference for EBGP
  Context configure router string bgp group string default-preference ebgp number
  Tree ebgp
  Range 0 to 255
  Introduced 19.5.R1
 

Platforms

All
ibgp number
  Synopsis Default preference for IBGP
  Context configure router string bgp group string default-preference ibgp number
  Tree ibgp
  Range 0 to 255
  Introduced 19.5.R1
 

Platforms

All
default-route-target boolean
  Synopsis Send default RTC route (zero prefix length) to peers
  Context configure router string bgp group string default-route-target boolean
  Tree default-route-target
 

Description

When configured to true, this command sends the default RTC route (zero prefix length) toward the selected peers.

When configured to false, a default RTC route is not sent.
  Default false
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string bgp group string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
dynamic-neighbor
  Synopsis Enter the dynamic-neighbor context
  Context configure router string bgp group string dynamic-neighbor
  Tree dynamic-neighbor
 

Description

Commands in this context configure dynamic BGP sessions for a peer group.
  Introduced 16.0.R1
 

Platforms

All
match
  Synopsis Enter the match context
  Context configure router string bgp group string dynamic-neighbor match
  Tree match
 

Description

Commands in this context configure match conditions for the dynamic neighbors.
  Introduced 19.5.R1
 

Platforms

All
prefix [ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the prefix list instance
  Context configure router string bgp group string dynamic-neighbor match prefix (ipv4-prefix | ipv6-prefix)
  Tree prefix
  Introduced 19.5.R1
 

Platforms

All
[ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Dynamic peer prefix for the group
  Context configure router string bgp group string dynamic-neighbor match prefix (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 19.5.R1
 

Platforms

All
allowed-peer-as string
  Synopsis Allowed peer AS range
  Context configure router string bgp group string dynamic-neighbor match prefix (ipv4-prefix | ipv6-prefix) allowed-peer-as string
  Tree allowed-peer-as
  Max. Instances 32
 

Notes

This element is ordered by the user.
  Introduced 19.5.R1
 

Platforms

All
dynamic-neighbor-limit number
  Synopsis Maximum dynamic BGP sessions to accept from remote peer
  Context configure router string bgp group string dynamic-neighbor-limit number
  Tree dynamic-neighbor-limit
 

Description

This command configures the maximum number of dynamic BGP sessions that are accepted from remote peers associated with a specific peer group. If accepting a new dynamic session causes the group limit to be exceeded, the new session attempt is rejected and a Notification message is sent back to the remote peer.

When unconfigured, the setting is inherited from the BGP global-level configuration.
  Range 1 to 8192
  Introduced 16.0.R1
 

Platforms

All
ebgp-default-reject-policy
  Synopsis Enable the ebgp-default-reject-policy context
  Context configure router string bgp group string ebgp-default-reject-policy
  Tree ebgp-default-reject-policy
  Introduced 19.5.R1
 

Platforms

All
export boolean
  Synopsis Enable default reject export policy for external peers
  Context configure router string bgp group string ebgp-default-reject-policy export boolean
  Tree export
  Default true
  Introduced 19.5.R1
 

Platforms

All
import boolean
  Synopsis Enable default reject import policy for external peers
  Context configure router string bgp group string ebgp-default-reject-policy import boolean
  Tree import
  Default true
  Introduced 19.5.R1
 

Platforms

All
egress-engineering
  Synopsis Enable the egress-engineering context
  Context configure router string bgp group string egress-engineering
  Tree egress-engineering
  Introduced 21.7.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BGP egress engineering
  Context configure router string bgp group string egress-engineering admin-state keyword
  Tree admin-state
 

Description

This command administratively enables or disables egress engineering for the BGP. If enabled, peer node SIDs and peer adjacency SIDs are advertised in BGP-LS.
  Default disable
  Options enable, disable
  Introduced 21.7.R1
 

Platforms

All
egress-peer-engineering-label-unicast boolean
  Synopsis Generate EPE label-unicast routes for group
  Context configure router string bgp group string egress-peer-engineering-label-unicast boolean
  Tree egress-peer-engineering-label-unicast
 

Description

When configured to true, BGP generates a label-unicast route for each /32 or /128 prefix that corresponds to the BGP group address in the scope of the command. These routes can be advertised to other routers to recursively resolve unlabeled BGP routes for AS external destinations. They support the Egress Peer Engineering (EPE) use case.
  Default false
  Introduced 22.2.R1
 

Platforms

All
enforce-first-as boolean
  Synopsis Enforce the configured peer AS value in received routes
  Context configure router string bgp group string enforce-first-as boolean
  Tree enforce-first-as
  Introduced 16.0.R1
 

Platforms

All
error-handling
  Synopsis Enter the error-handling context
  Context configure router string bgp group string error-handling
  Tree error-handling
  Introduced 16.0.R1
 

Platforms

All
update-fault-tolerance boolean
  Synopsis Tolerate non-critical errors in UPDATE messages
  Context configure router string bgp group string error-handling update-fault-tolerance boolean
  Tree update-fault-tolerance
 

Description

When configured to true, non-critical errors are handled with treat-as-withdraw, attribute-discard, and other non-disruptive approaches that do not cause a session reset. Critical errors still trigger a session reset.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, all errors trigger a session reset.
  Introduced 16.0.R1
 

Platforms

All
export
  Synopsis Enable the export context
  Context configure router string bgp group string export
  Tree export
 

Description

Commands in this context specify route policies that control the handling of outbound routes transmitted to certain peers. Route policies are configured in the configure policy-options context.

When this context is unconfigured, the policy association for the group is inherited from the BGP global-level configuration.
  Introduced 16.0.R1
 

Platforms

All
policy (policy-expr-string | string)
  Synopsis BGP export policy name
  Context configure router string bgp group string export policy (policy-expr-string | string)
  Tree policy
 

Description

This command specifies route policies that control the handling of outbound routes transmitted to certain peers.

Each object in this command is either a policy logical expression or the name of a single policy. The objects are evaluated in the specified order to determine the modifications of each route and the final action to accept or reject the route.

Only one of the objects referenced by the command can be a policy logical expression consisting of policy names (enclosed in square brackets) and logical operators (AND, OR, NOT).

Policy parameters must be enclosed by at-signs (@) and may be midstring; for example, "@variable@," "start@variable@end"," @variable@end", or"start@variable@".
  String Length 1 to 255
  Max. Instances 15
  Min. Instances 1
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
extended-nh-encoding
  Synopsis Enable the extended-nh-encoding context
  Context configure router string bgp group string extended-nh-encoding
  Tree extended-nh-encoding
 

Description

Commands in this context specify the address families enabled to advertise the capability to receive label IPv4 routes, VPN IPv4 routes, or IPv6 next hops from peers. The peers should not send such routes unless notification has been received of this capability. If the router receives an enabled address family route from a peer to which it did not advertise the necessary capability, the UPDATE message will be considered malformed. This causes either a session reset or treat-as-withdraw behavior depending on the error handling settings.

When the context is unconfigured, command settings are inherited from the higher level BGP configuration.
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Advertise encoding capability for IPv4 routes
  Context configure router string bgp group string extended-nh-encoding ipv4 boolean
  Tree ipv4
  Default false
  Introduced 19.5.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise encoding capability for label-IPv4 routes
  Context configure router string bgp group string extended-nh-encoding label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise encoding capability for VPN-IPv4 routes
  Context configure router string bgp group string extended-nh-encoding vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
family
  Synopsis Enable the family context
  Context configure router string bgp group string family
  Tree family
  Introduced 16.0.R1
 

Platforms

All
bgp-ls boolean
  Synopsis Advertise MP-BGP support for the BGP-LS address family
  Context configure router string bgp group string family bgp-ls boolean
  Tree bgp-ls
  Default false
  Introduced 16.0.R1
 

Platforms

All
evpn boolean
  Synopsis Advertise MP-BGP support for the EVPN address family
  Context configure router string bgp group string family evpn boolean
  Tree evpn
  Default false
  Introduced 16.0.R1
 

Platforms

All
flow-ipv4 boolean
  Synopsis Advertise support for the flowspec-IPv4 address family
  Context configure router string bgp group string family flow-ipv4 boolean
  Tree flow-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
flow-ipv6 boolean
  Synopsis Advertise support for the flowspec-IPv6 address family
  Context configure router string bgp group string family flow-ipv6 boolean
  Tree flow-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
flow-vpn-ipv4 boolean
  Synopsis Advertise support for FlowSpec-VPN IPv4 address family
  Context configure router string bgp group string family flow-vpn-ipv4 boolean
  Tree flow-vpn-ipv4
  Default false
  Introduced 22.7.R1
 

Platforms

All
flow-vpn-ipv6 boolean
  Synopsis Advertise support for FlowSpec-VPN IPv6 address family
  Context configure router string bgp group string family flow-vpn-ipv6 boolean
  Tree flow-vpn-ipv6
  Default false
  Introduced 22.7.R1
 

Platforms

All
ipv4 boolean
  Synopsis Add support for the IPv4 address family
  Context configure router string bgp group string family ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Advertise MP-BGP support for the IPv6 address family
  Context configure router string bgp group string family ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
l2-vpn boolean
  Synopsis Advertise MP-BGP support for the L2-VPN address family
  Context configure router string bgp group string family l2-vpn boolean
  Tree l2-vpn
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise support for the label-IPv4 address family
  Context configure router string bgp group string family label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Advertise support for the label-IPv6 address family
  Context configure router string bgp group string family label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-ipv4 boolean
  Synopsis Advertise support for the MCAST-IPv4 address family
  Context configure router string bgp group string family mcast-ipv4 boolean
  Tree mcast-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-ipv6 boolean
  Synopsis Advertise support for the MCAST-IPv6 address family
  Context configure router string bgp group string family mcast-ipv6 boolean
  Tree mcast-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv4 boolean
  Synopsis Advertise support for the IPv4 VPN MCAST address family
  Context configure router string bgp group string family mcast-vpn-ipv4 boolean
  Tree mcast-vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv6 boolean
  Synopsis Advertise support for the IPv6 VPN MCAST address family
  Context configure router string bgp group string family mcast-vpn-ipv6 boolean
  Tree mcast-vpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mdt-safi boolean
  Synopsis Advertise MP-BGP support for MDT-SAFI address family
  Context configure router string bgp group string family mdt-safi boolean
  Tree mdt-safi
  Default false
  Introduced 16.0.R1
 

Platforms

All
ms-pw boolean
  Synopsis Advertise support for multi-segment PW address family
  Context configure router string bgp group string family ms-pw boolean
  Tree ms-pw
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv4 boolean
  Synopsis Advertise support for the IPv4 MCAST VPN address family
  Context configure router string bgp group string family mvpn-ipv4 boolean
  Tree mvpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv6 boolean
  Synopsis Advertise support for the IPv6 MCAST VPN address family
  Context configure router string bgp group string family mvpn-ipv6 boolean
  Tree mvpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
route-target boolean
  Synopsis Advertise MP-BGP support for RT constraint routes
  Context configure router string bgp group string family route-target boolean
  Tree route-target
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-policy-ipv4 boolean
  Synopsis Advertise MP-BGP support for the SR-policy-IPv4 family
  Context configure router string bgp group string family sr-policy-ipv4 boolean
  Tree sr-policy-ipv4
 

Description

This command allows the router to advertise the capability for AFI1/SAFI73, which corresponds to BGP routes that encode a segment routing policy to an IPv4 destination. 
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-policy-ipv6 boolean
  Synopsis Advertise MP-BGP support for the SR-policy-IPv6 family
  Context configure router string bgp group string family sr-policy-ipv6 boolean
  Tree sr-policy-ipv6
 

Description

This command allows the router to advertise the capability for AFI2/SAFI73, which corresponds to BGP routes that encode a segment routing policy to an IPv6 destination. 
  Default false
  Introduced 19.10.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise MP-BGP support for IPv4 VPN address family
  Context configure router string bgp group string family vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Advertise MP-BGP support for IPv6 VPN address family
  Context configure router string bgp group string family vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
fast-external-failover boolean
  Synopsis Drop external BGP session immediately when link fails
  Context configure router string bgp group string fast-external-failover boolean
  Tree fast-external-failover
 

Description

When this command inherits a value of true, the router drops an external BGP session on a single-hop route immediately when the local interface goes down.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to true.

When configured to false, the BGP session remains up until the hold time expires.

  Introduced 16.0.R1
 

Platforms

All
graceful-restart
  Synopsis Enable the graceful-restart context
  Context configure router string bgp group string graceful-restart
  Tree graceful-restart
 

Description

Commands in this context configure BGP graceful restart helper procedures for address families included in the GR capabilities of both peers.

When the context is unconfigured, the command settings are inherited from the BGP global-level configuration.
  Introduced 16.0.R1
 

Platforms

All
gr-notification boolean
  Synopsis Perform graceful restart procedures after NOTIFICATION
  Context configure router string bgp group string graceful-restart gr-notification boolean
  Tree gr-notification
 

Description

When configured to true, the Graceful Restart capability sent by the router indicates support for NOTIFICATION messages. If the peer also supports this capability, the session is restarted gracefully (while preserving forwarding) if either peer sends a NOTIFICATION message due to some type of event or error.

When configured to false, NOTIFICATION messages are not supported.
  Default false
  Introduced 16.0.R1
 

Platforms

All
long-lived
  Synopsis Enable the long-lived context
  Context configure router string bgp group string graceful-restart long-lived
  Tree long-lived
 

Description

Commands in this context configure the BGP Long-Lived Graceful-Restart (LLGR) procedures.

LLGR, known informally as BGP persistence, is an extension of BGP GR that allows a session to stay down for a longer period of time. During this time, learned routes are marked and re-advertised as stale but they can continue to be used as routes of last resort.

The LLGR handling of a session failure can be invoked immediately or it can be delayed until the end of the traditional GR restart window.
  Introduced 16.0.R1
 

Platforms

All
advertise-stale-to-all-neighbors boolean
  Synopsis Advertise stale routes to all BGP peers
  Context configure router string bgp group string graceful-restart long-lived advertise-stale-to-all-neighbors boolean
  Tree advertise-stale-to-all-neighbors
  Default false
  Introduced 16.0.R1
 

Platforms

All
advertised-stale-time number
  Synopsis Advertised long-lived stale time for LLGR routes
  Context configure router string bgp group string graceful-restart long-lived advertised-stale-time number
  Tree advertised-stale-time
  Range 0 to 16777215
  Default 86400
  Introduced 16.0.R1
 

Platforms

All
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string bgp group string graceful-restart long-lived family keyword
  Tree family
  Introduced 16.0.R1
 

Platforms

All
[family-type] keyword
  Synopsis Family type for family-specific LLGR configuration
  Context configure router string bgp group string graceful-restart long-lived family keyword
  Options ipv4, vpn-ipv4, ipv6, vpn-ipv6, l2-vpn, flow-ipv4, route-target, flow-ipv6, label-ipv4, label-ipv6, flow-vpn-ipv4, flow-vpn-ipv6
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertised-stale-time number
  Synopsis LLGR stale routes time for family override
  Context configure router string bgp group string graceful-restart long-lived family keyword advertised-stale-time number
  Tree advertised-stale-time
 

Description

This command configures the long-lived stale routes time that is advertised by the router in its LLGR capability.

This command applies to all AFI/SAFI in the advertised LLGR capability with a family-specific override.
  Range 0 to 16777215
  Default 86400
  Introduced 16.0.R1
 

Platforms

All
helper-override-stale-time number
  Synopsis Locally-configured stale routes override time
  Context configure router string bgp group string graceful-restart long-lived family keyword helper-override-stale-time number
  Tree helper-override-stale-time
 

Description

This command configures a locally-imposed LLGR stale time that overrides the long-lived stale routes time that is advertised by the router in its LLGR capability. This is a family-specific override value.
  Range 0 to 16777216
  Default 16777216
  Introduced 16.0.R1
 

Platforms

All
forwarding-bits-set keyword
  Synopsis BGP LLGR forwarding-bit behavior for address family
  Context configure router string bgp group string graceful-restart long-lived forwarding-bits-set keyword
  Tree forwarding-bits-set
 

Description

This command determines the setting of the F bit in the GR and LLGR capabilities advertised by the router. When the F bit is set for an address family, it indicates that the advertising router is able to preserve forwarding state for the routes of that address family across the last restart. When the session is re-established after a restart and the F bit is not set, all stale routes from the peer are immediately removed for the corresponding address family.

This command allows the F bit to be set for all address families or only for non-forwarding address families (L2-VPN, route target, flow-IPv4, and flow-IPv6).
  Default none
  Options none, all, non-fwd
  Introduced 16.0.R1
 

Platforms

All
helper-override-restart-time number
  Synopsis Locally-configured override for restart time
  Context configure router string bgp group string graceful-restart long-lived helper-override-restart-time number
  Tree helper-override-restart-time
 

Description

This command overrides the restart time advertised by a peer (in its GR capability) with a locally-configured value. This override applies only to AFI/SAFI that were included in the GR capability of the peer. The restart-time is always zero for AFI/SAFI not included in the GR capability. This command is useful if the local router wants to force the LLGR phase to begin after a set time for all protected AFI/SAFI.
  Range 0 to 4095
  Introduced 16.0.R1
 

Platforms

All
helper-override-stale-time number
  Synopsis Locally-configured stale routes override time
  Context configure router string bgp group string graceful-restart long-lived helper-override-stale-time number
  Tree helper-override-stale-time
 

Description

This command configures a locally-imposed LLGR stale time that overrides the long-lived stale routes time that is advertised by the router in its LLGR capability.

This command applies to all AFI/SAFI in the advertised LLGR capability except for any AFI/SAFI with a family-specific override.
  Range 0 to 16777215
  Introduced 16.0.R1
 

Platforms

All
without-no-export boolean
  Synopsis Advertise LLGR stale routes to non-LLGR peers
  Context configure router string bgp group string graceful-restart long-lived without-no-export boolean
  Tree without-no-export
 

Description

When configured to true, LLGR stale routes can be advertised to any peer (EBGP or IBGP) that did not signal the LLGR capability. For IBGP and confederation-EBGP peers that did not advertise the LLGR capability, the local preference attribute in the advertised stale routes is automatically set to 0.

When configured to false, LLGR stale routes are not advertised to any EBGP peer that did not signal the LLGR capability. For IBGP and confederation-EBGP peers that did not advertise the LLGR capability, the local preference attribute in the advertised stale routes is automatically set to 0 and a NO_EXPORT standard community is automatically added to the routes.
  Default false
  Introduced 16.0.R1
 

Platforms

All
restart-time number
  Synopsis Restart time advertised by GR capability
  Context configure router string bgp group string graceful-restart restart-time number
  Tree restart-time
  Range 0 to 4095
  Default 300
  Introduced 16.0.R1
 

Platforms

All
stale-routes-time number
  Synopsis Maximum time to maintain routes after graceful restart
  Context configure router string bgp group string graceful-restart stale-routes-time number
  Tree stale-routes-time
  Range 1 to 3600
  Default 360
  Introduced 16.0.R1
 

Platforms

All
hold-time
  Synopsis Enter the hold-time context
  Context configure router string bgp group string hold-time
  Tree hold-time
  Introduced 16.0.R1
 

Platforms

All
minimum-hold-time number
  Synopsis Minimum hold time between successive messages
  Context configure router string bgp group string hold-time minimum-hold-time number
  Tree minimum-hold-time
 

Description

This command specifies the minimum hold time that is accepted for the session. If a peer proposes a hold time lower than this value, the session attempt is rejected.

When unconfigured, the command value is inherited from the BGP global-level setting.
  Range 0 | 3 to 65536
  Default 0
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Maximum time BGP waits between successive messages
  Context configure router string bgp group string hold-time seconds number
  Tree seconds
 

Description

This command configures the maximum time BGP waits between successive messages (either keepalive or update) from its peer before closing the connection.

Although the implementation allows setting the keepalive timer at the BGP group level times separately, the configured keepalive timer is overridden by this value under the following circumstances.

  • If the specified hold time is less than the configured keepalive time, the operational keepalive time is set to a third of the hold-time; the configured keepalive time is not changed.

  • If the hold time is set to zero, the operational value of the keepalive time is set to zero; the configured keepalive time is not changed. The connection with the peer is up permanently and no keepalive packets are sent to the peer.

When unconfigured, the command setting is inherited from the BGP global-level configuration.

  Range 0 | 3 to 65535
  Introduced 16.0.R1
 

Platforms

All
import
  Synopsis Enable the import context
  Context configure router string bgp group string import
  Tree import
 

Description

Commands in this context specify route policies that control the handling of inbound routes received from certain peers. Route policies are configured in the configure policy-options context.

When this context is unconfigured, the policy association for the group is inherited from the BGP global-level configuration.
  Introduced 16.0.R1
 

Platforms

All
policy (policy-expr-string | string)
  Synopsis BGP import policy name
  Context configure router string bgp group string import policy (policy-expr-string | string)
  Tree policy
 

Description

This command specifies route policies that control the handling of inbound routes received from certain peers.

Each object in this command is either a policy logical expression or the name of a single policy. The objects are evaluated in the specified order to determine the modifications of each route and the final action to accept or reject the route.

Only one of the objects referenced by the command can be a policy logical expression consisting of policy names (enclosed in square brackets) and logical operators (AND, OR, NOT).

Policy parameters must be enclosed by at-signs (@) and may be midstring; for example, "@variable@," "start@variable@end"," @variable@end", or"start@variable@".
  String Length 1 to 255
  Max. Instances 15
  Min. Instances 1
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
initial-send-delay-zero boolean
  Synopsis Send BGP updates as soon as the session comes up
  Context configure router string bgp group string initial-send-delay-zero boolean
  Tree initial-send-delay-zero
 

Description

When configured to true, BGP updates are sent as soon as the session comes up.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, BGP waits to send UPDATE messages for the minimum route advertisement time after a session is established.
  Introduced 16.0.R1
 

Platforms

All
keepalive number
  Synopsis Time after which the BGP KEEPALIVE message is sent
  Context configure router string bgp group string keepalive number
  Tree keepalive
 

Description

This command configures the BGP keepalive timer value. A keepalive message is sent every time this timer expires.

This value is generally one-third of the hold time interval configured in the hold-time seconds context. Although the implementation allows this keepalive value and the hold time interval to be independently set, under the following circumstances, the configured keepalive value is overridden by the hold time interval value:

  • If the specified keepalive value is greater than the configured hold time, the specified keepalive value is ignored and the timer value is set to one third of the current hold time value.

  • If the specified hold time interval is less than the configured keepalive value, the keepalive value is reset to one third of the specified hold time interval.

  • If the hold time interval is set to zero, the configured keepalive value is ignored. This means that the connection with the peer is up permanently and no keepalive packets are sent to the peer.

When unconfigured, the command inherits the BGP global-level setting.
  Range 0 to 21845
  Introduced 16.0.R1
 

Platforms

All
label-preference number
  Synopsis Route preference for routes from labeled-unicast peers
  Context configure router string bgp group string label-preference number
  Tree label-preference
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
link-bandwidth
  Synopsis Enter the link-bandwidth context
  Context configure router string bgp group string link-bandwidth
  Tree link-bandwidth
 

Description

Commands in this context specify the handling of the Link Bandwidth Extended Community attached to specific BGP routes.

When all used multipaths of an IP prefix correspond to BGP routes with a Link Bandwidth EC, the datapath is programmed to use weighted ECMP across the BGP next hops in proportion to the bandwidth values.
  Introduced 16.0.R3
 

Platforms

All
accept-from-ebgp
  Synopsis Enter the accept-from-ebgp context
  Context configure router string bgp group string link-bandwidth accept-from-ebgp
  Tree accept-from-ebgp
  Introduced 16.0.R4
 

Platforms

All
ipv4 boolean
  Synopsis Support Link Bandwidth EC in IPv4 routes
  Context configure router string bgp group string link-bandwidth accept-from-ebgp ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
ipv6 boolean
  Synopsis Support Link Bandwidth EC in IPv6 routes
  Context configure router string bgp group string link-bandwidth accept-from-ebgp ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv4 boolean
  Synopsis Support Link Bandwidth EC in label-IPv4 routes
  Context configure router string bgp group string link-bandwidth accept-from-ebgp label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv6 boolean
  Synopsis Support Link Bandwidth EC in label-IPv6 routes
  Context configure router string bgp group string link-bandwidth accept-from-ebgp label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv4 routes
  Context configure router string bgp group string link-bandwidth accept-from-ebgp vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv6 routes
  Context configure router string bgp group string link-bandwidth accept-from-ebgp vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
add-to-received-ebgp
  Synopsis Enter the add-to-received-ebgp context
  Context configure router string bgp group string link-bandwidth add-to-received-ebgp
  Tree add-to-received-ebgp
  Introduced 16.0.R3
 

Platforms

All
ipv4 boolean
  Synopsis Support Link Bandwidth EC in IPv4 routes
  Context configure router string bgp group string link-bandwidth add-to-received-ebgp ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R3
 

Platforms

All
ipv6 boolean
  Synopsis Support Link Bandwidth EC in IPv6 routes
  Context configure router string bgp group string link-bandwidth add-to-received-ebgp ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R3
 

Platforms

All
label-ipv4 boolean
  Synopsis Support Link Bandwidth EC in label-IPv4 routes
  Context configure router string bgp group string link-bandwidth add-to-received-ebgp label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R3
 

Platforms

All
label-ipv6 boolean
  Synopsis Support Link Bandwidth EC in label-IPv6 routes
  Context configure router string bgp group string link-bandwidth add-to-received-ebgp label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R3
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv4 routes
  Context configure router string bgp group string link-bandwidth add-to-received-ebgp vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R3
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv6 routes
  Context configure router string bgp group string link-bandwidth add-to-received-ebgp vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R3
 

Platforms

All
aggregate-used-paths
  Synopsis Enter the aggregate-used-paths context
  Context configure router string bgp group string link-bandwidth aggregate-used-paths
  Tree aggregate-used-paths
  Introduced 16.0.R4
 

Platforms

All
ipv4 boolean
  Synopsis Support Link Bandwidth EC in IPv4 routes
  Context configure router string bgp group string link-bandwidth aggregate-used-paths ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
ipv6 boolean
  Synopsis Support Link Bandwidth EC in IPv6 routes
  Context configure router string bgp group string link-bandwidth aggregate-used-paths ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv4 boolean
  Synopsis Support Link Bandwidth EC in label-IPv4 routes
  Context configure router string bgp group string link-bandwidth aggregate-used-paths label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv6 boolean
  Synopsis Support Link Bandwidth EC in label-IPv6 routes
  Context configure router string bgp group string link-bandwidth aggregate-used-paths label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv4 routes
  Context configure router string bgp group string link-bandwidth aggregate-used-paths vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv6 routes
  Context configure router string bgp group string link-bandwidth aggregate-used-paths vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
send-to-ebgp
  Synopsis Enter the send-to-ebgp context
  Context configure router string bgp group string link-bandwidth send-to-ebgp
  Tree send-to-ebgp
  Introduced 16.0.R4
 

Platforms

All
ipv4 boolean
  Synopsis Support Link Bandwidth EC in IPv4 routes
  Context configure router string bgp group string link-bandwidth send-to-ebgp ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
ipv6 boolean
  Synopsis Support Link Bandwidth EC in IPv6 routes
  Context configure router string bgp group string link-bandwidth send-to-ebgp ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv4 boolean
  Synopsis Support Link Bandwidth EC in label-IPv4 routes
  Context configure router string bgp group string link-bandwidth send-to-ebgp label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv6 boolean
  Synopsis Support Link Bandwidth EC in label-IPv6 routes
  Context configure router string bgp group string link-bandwidth send-to-ebgp label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv4 routes
  Context configure router string bgp group string link-bandwidth send-to-ebgp vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv6 routes
  Context configure router string bgp group string link-bandwidth send-to-ebgp vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
local-address (ipv4-address-no-zone | ipv6-address-no-zone | interface-name)
  Synopsis Local IP address used when communicating with BGP peers
  Context configure router string bgp group string local-address (ipv4-address-no-zone | ipv6-address-no-zone | interface-name)
  Tree local-address
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

All
local-as
  Synopsis Enter the local-as context
  Context configure router string bgp group string local-as
  Tree local-as
  Introduced 16.0.R1
 

Platforms

All
as-number number
  Synopsis Local (or virtual) BGP AS number
  Context configure router string bgp group string local-as as-number number
  Tree as-number
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
prepend-global-as boolean
  Synopsis Prepend global ASN when advertising routes to BGP peer
  Context configure router string bgp group string local-as prepend-global-as boolean
  Tree prepend-global-as
 

Description

When configured to true, the global ASN is added to the AS_PATH attribute in outbound routes sent to the peer.

When configured to false, the global ASN is not included in the AS_PATH attribute.
  Default true
  Introduced 16.0.R1
 

Platforms

All
private boolean
  Synopsis Hide the local ASN in sent paths learned from peering
  Context configure router string bgp group string local-as private boolean
  Tree private
 

Description

When configured to true, the local AS number is only advertised to peers that use the local ASN for establishing BGP peering sessions.

When configured to false, the local ASN is advertised to all peers, including those that can use the global ASN for establishing BGP peering sessions.
  Default false
  Introduced 16.0.R1
 

Platforms

All
local-preference number
  Synopsis Default local preference if not in incoming routes
  Context configure router string bgp group string local-preference number
  Tree local-preference
  Range 0 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
loop-detect keyword
  Synopsis Strategy for loop detection in the AS path
  Context configure router string bgp group string loop-detect keyword
  Tree loop-detect
  Options drop-peer, ignore-loop, off, discard-route
  Introduced 16.0.R1
 

Platforms

All
loop-detect-threshold number
  Synopsis Threshold for the global ASN in a received AS path
  Context configure router string bgp group string loop-detect-threshold number
  Tree loop-detect-threshold
  Range 0 to 15
  Introduced 16.0.R6
 

Platforms

All
med-out (number | keyword)
  Synopsis Default MED attribute value to advertise to peers
  Context configure router string bgp group string med-out (number | keyword)
  Tree med-out
  Max. Range 0 to 4294967295
  Options igp-cost
  Introduced 16.0.R1
 

Platforms

All
min-route-advertisement number
  Synopsis Minimum time before a prefix can be advertised to peer
  Context configure router string bgp group string min-route-advertisement number
  Tree min-route-advertisement
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
monitor
  Synopsis Enable the monitor context
  Context configure router string bgp group string monitor
  Tree monitor
 

Description

Commands in this context specify BMP-related configurations at the BGP group level.

When this context is unconfigured, the command settings are inherited from the BGP global-level configuration.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BMP monitoring
  Context configure router string bgp group string monitor admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
all-stations boolean
  Synopsis Send BMP messages to all configured stations
  Context configure router string bgp group string monitor all-stations boolean
  Tree all-stations
 

Description

When configured to true, this command specifies that BMP messages are to be sent to all configured BMP monitoring stations.

When configured to false, the command is not used to indicate the stations which can receive BMP messages. The station command (at the same context level) identifies the BMP stations for which BMP messages are to be sent.
  Default false
  Introduced 16.0.R1
 

Platforms

All
route-monitoring
  Synopsis Enter the route-monitoring context
  Context configure router string bgp group string monitor route-monitoring
  Tree route-monitoring
  Introduced 16.0.R1
 

Platforms

All
post-policy boolean
  Synopsis Allow post-policy route-monitoring messages to be sent
  Context configure router string bgp group string monitor route-monitoring post-policy boolean
  Tree post-policy
  Default false
  Introduced 16.0.R1
 

Platforms

All
pre-policy boolean
  Synopsis Allow pre-policy route-monitoring messages to be sent
  Context configure router string bgp group string monitor route-monitoring pre-policy boolean
  Tree pre-policy
  Default false
  Introduced 16.0.R1
 

Platforms

All
station [station-name] reference
  Synopsis Add a list entry for station
  Context configure router string bgp group string monitor station reference
  Tree station
 

Description

This command identifies a BMP monitoring station for which BMP messages are to be sent.
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

All
[station-name] reference
  Synopsis BMP monitoring station
  Context configure router string bgp group string monitor station reference
 

Reference

configure bmp station string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
multihop number
  Synopsis TTL in IP packet headers for EBGP peers multi-hops away
  Context configure router string bgp group string multihop number
  Tree multihop
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
multipath-eligible boolean
  Synopsis Allow routes from group peers in multipath eligibility
  Context configure router string bgp group string multipath-eligible boolean
  Tree multipath-eligible
  Default false
  Introduced 19.5.R1
 

Platforms

All
next-hop-self boolean
  Synopsis Advertise routes with local address as next-hop address
  Context configure router string bgp group string next-hop-self boolean
  Tree next-hop-self
  Default false
  Introduced 16.0.R1
 

Platforms

All
next-hop-unchanged
  Synopsis Enter the next-hop-unchanged context
  Context configure router string bgp group string next-hop-unchanged
  Tree next-hop-unchanged
 

Description

Commands in this context specify the IP address families that allow unchanged BGP next-hops when sending BGP routes to peers in the group.
  Introduced 16.0.R1
 

Platforms

All
evpn boolean
  Synopsis Advertise EVPN routes with unchanged BGP next hop
  Context configure router string bgp group string next-hop-unchanged evpn boolean
  Tree evpn
  Default false
  Introduced 20.2.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise label-IPv4 routes with unchanged BGP next hop
  Context configure router string bgp group string next-hop-unchanged label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Advertise label-IPv6 routes with unchanged BGP next hop
  Context configure router string bgp group string next-hop-unchanged label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise VPN IPv4 routes with unchanged BGP next hop
  Context configure router string bgp group string next-hop-unchanged vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 20.2.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Advertise VPN IPv6 routes with unchanged BGP next hop
  Context configure router string bgp group string next-hop-unchanged vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 20.2.R1
 

Platforms

All
origin-validation
  Synopsis Enter the origin-validation context
  Context configure router string bgp group string origin-validation
  Tree origin-validation
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Enable support for unlabeled unicast IPv4 routes
  Context configure router string bgp group string origin-validation ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Enable support for unlabeled unicast IPv6 routes
  Context configure router string bgp group string origin-validation ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Enable support for labeled-unicast IPv4 routes
  Context configure router string bgp group string origin-validation label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Enable support for labeled-unicast IPv6 routes
  Context configure router string bgp group string origin-validation label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
outbound-route-filtering
  Synopsis Enable the outbound-route-filtering context
  Context configure router string bgp group string outbound-route-filtering
  Tree outbound-route-filtering
 

Description

Commands in this context configure the send and receive capabilities for Outbound Route Filtering (ORF).

When this context is unconfigured, the group command settings are inherited from the BGP global-level configuration.
  Introduced 16.0.R1
 

Platforms

All
extended-community
  Synopsis Enable the extended-community context
  Context configure router string bgp group string outbound-route-filtering extended-community
  Tree extended-community
 

Description

Commands in this context configure the ORF send and receive capabilities based on Extended Communities.

When this context is unconfigured, the command settings are inherited from the global-level configuration.
  Introduced 16.0.R1
 

Platforms

All
accept-orf boolean
  Synopsis Negotiate with peer to accept BGP ORF filters
  Context configure router string bgp group string outbound-route-filtering extended-community accept-orf boolean
  Tree accept-orf
 

Description

When configured to true, the receive capability in the BGP ORF is negotiated with a peer and ORF filters can be accepted from peers.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the accept capability in the BGP ORF is removed and any existing ORF filters that are currently in place are cleared.
  Introduced 16.0.R1
 

Platforms

All
send-orf
  Synopsis Enable the send-orf context
  Context configure router string bgp group string outbound-route-filtering extended-community send-orf
  Tree send-orf
 

Description

Commands in this context allow BGP to negotiate the send capability in the ORF negotiation with a peer. The send capability also causes the router to send a community filter, prefix filter, or AS path filter configured as an inbound filter on the BGP session to its peer as an ORF Action ADD.

When this context is unconfigured, the command settings are inherited from the BGP global-level configuration.
  Introduced 16.0.R1
 

Platforms

All
route-target [community-name] string
  Synopsis Add a list entry for route-target
  Context configure router string bgp group string outbound-route-filtering extended-community send-orf route-target string
  Tree route-target
  Introduced 16.0.R1
 

Platforms

All
[community-name] string
  Synopsis Route target community name
  Context configure router string bgp group string outbound-route-filtering extended-community send-orf route-target string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
passive boolean
  Synopsis Enable passive mode for BGP communication
  Context configure router string bgp group string passive boolean
  Tree passive
  Default false
  Introduced 16.0.R1
 

Platforms

All
path-mtu-discovery boolean
  Synopsis Enable Path MTU Discovery
  Context configure router string bgp group string path-mtu-discovery boolean
  Tree path-mtu-discovery
 

Description

When configured to true, Path MTU Discovery (PMTUD) is enabled for the associated TCP connections.

When set to true, PMTUD is activated toward an IPv4 BGP neighbor and the Don’t Fragment (DF) bit is set in the IP header of all IPv4 packets sent to the peer. If any device along the path toward the peer cannot forward the packet because the IP MTU of the interface is smaller than the IP packet size, this device drops the packet and sends an ICMP or ICMPv6 error message encoding the interface MTU. When the router receives the ICMP or ICMPv6 message, it lowers the TCP maximum segment size limit from the previous value so that the IP MTU constraint can be accommodated.

When PMTUD is configured to false and there is no TCP MSS configuration that can be associated with a BGP neighbor (in either the BGP configuration or the first hop IP interface configuration), the router advertises a value of only 1024 bytes as the TCP MSS option value, limiting received TCP segments to that size.
  Introduced 16.0.R1
 

Platforms

All
peer-as number
  Synopsis Peer AS number
  Context configure router string bgp group string peer-as number
  Tree peer-as
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
peer-ip-tracking boolean
  Synopsis Enable BGP peer tracking
  Context configure router string bgp group string peer-ip-tracking boolean
  Tree peer-ip-tracking
 

Description

When configured to true, this command enables BGP peer tracking.

Peer tracking should be used with caution. Peer tracking can tear a session down even if the loss of connectivity turns out to be short-lived (for example, while the IGP protocol is re-converging). Next-hop tracking, which is always enabled, handles temporary connectivity issues more effectively.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, peer tracking is disabled.
  Introduced 16.0.R1
 

Platforms

All
preference number
  Synopsis Route preference for routes learned from all peers
  Context configure router string bgp group string preference number
  Tree preference
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
prefix-limit [family] keyword
  Synopsis Enter the prefix-limit list instance
  Context configure router string bgp group string prefix-limit keyword
  Tree prefix-limit
  Introduced 16.0.R1
 

Platforms

All
[family] keyword
  Synopsis Address family to which the limit applies
  Context configure router string bgp group string prefix-limit keyword
  Options ipv4, vpn-ipv4, ipv6, mcast-ipv4, vpn-ipv6, l2-vpn, mvpn-ipv4, mdt-safi, ms-pw, flow-ipv4, route-target, mcast-vpn-ipv4, mvpn-ipv6, flow-ipv6, evpn, mcast-ipv6, label-ipv4, label-ipv6, bgp-ls, mcast-vpn-ipv6, sr-policy-ipv4, sr-policy-ipv6, flow-vpn-ipv4, flow-vpn-ipv6
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
idle-timeout number
  Synopsis Time BGP peering remains idle before reconnecting
  Context configure router string bgp group string prefix-limit keyword idle-timeout number
  Tree idle-timeout
  Range 1 to 1024
  Introduced 16.0.R1
 

Platforms

All
log-only boolean
  Synopsis Send warning message at threshold instead of take-down
  Context configure router string bgp group string prefix-limit keyword log-only boolean
  Tree log-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
maximum number
  Synopsis Maximum number of routes to be learned from a peer
  Context configure router string bgp group string prefix-limit keyword maximum number
  Tree maximum
 

Description

This command configures the maximum number of BGP routes that can be received from a peer before administrative action is taken.
  Range 1 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R2
 

Platforms

All
post-import boolean
  Synopsis Apply limit only to routes accepted by import policies
  Context configure router string bgp group string prefix-limit keyword post-import boolean
  Tree post-import
  Default false
  Introduced 16.0.R1
 

Platforms

All
threshold number
  Synopsis Percentage threshold that triggers a warning message
  Context configure router string bgp group string prefix-limit keyword threshold number
  Tree threshold
  Range 1 to 100
  Default 90
  Introduced 16.0.R1
 

Platforms

All
remove-private
  Synopsis Enable the remove-private context
  Context configure router string bgp group string remove-private
  Tree remove-private
  Introduced 16.0.R1
 

Platforms

All
limited boolean
  Synopsis Remove private ASNs up to first public ASN encountered
  Context configure router string bgp group string remove-private limited boolean
  Tree limited
  Default false
  Introduced 16.0.R1
 

Platforms

All
replace boolean
  Synopsis Replace private ASN with global ASN before advertising
  Context configure router string bgp group string remove-private replace boolean
  Tree replace
  Default false
  Introduced 19.10.R1
 

Platforms

All
skip-peer-as boolean
  Synopsis Keep private ASN if it is the same as the BGP peer ASN
  Context configure router string bgp group string remove-private skip-peer-as boolean
  Tree skip-peer-as
  Default false
  Introduced 16.0.R1
 

Platforms

All
segment-routing-v6
  Synopsis Enable the segment-routing-v6 context
  Context configure router string bgp group string segment-routing-v6
  Tree segment-routing-v6
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
route-advertisement
  Synopsis Enable the route-advertisement context
  Context configure router string bgp group string segment-routing-v6 route-advertisement
  Tree route-advertisement
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
drop-routes-with-srv6-tlvs boolean
  Synopsis Drop BGP routes with SRv6 TLVs
  Context configure router string bgp group string segment-routing-v6 route-advertisement drop-routes-with-srv6-tlvs boolean
  Tree drop-routes-with-srv6-tlvs
 

Description

When configured to true, the router drops and does not advertise BGP routes (that belong to any address family) with SRv6 TLVs.

When configured to false, the router advertises BGP routes with SRv6 TLVs.
  Default false
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string bgp group string segment-routing-v6 route-advertisement family keyword
  Tree family
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[family-type] keyword
  Synopsis IP address type that SRv6 route attributes apply to
  Context configure router string bgp group string segment-routing-v6 route-advertisement family keyword
  Options ipv4, ipv6
 

Notes

This element is part of a list key.
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
strip-srv6-tlvs boolean
  Synopsis Strip SRv6 TLVs from BGP routes advertised to peers
  Context configure router string bgp group string segment-routing-v6 route-advertisement family keyword strip-srv6-tlvs boolean
  Tree strip-srv6-tlvs
 

Description

When configured to true, BGP routes that belong to the address family specified using the family command are advertised to peers with SRv6 TLVs removed. Locally or remotely added SRv6 TLVs can be removed.

When configured to false, SRv6 TLVs are not stripped from BGP routes advertised to peers.
  Default false
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
selective-label-ipv4-install boolean
  Synopsis Enable selective download for bgp label-ipv4 routes
  Context configure router string bgp group string selective-label-ipv4-install boolean
  Tree selective-label-ipv4-install
  Introduced 19.10.R1
 

Platforms

All
send-communities
  Synopsis Enter the send-communities context
  Context configure router string bgp group string send-communities
  Tree send-communities
  Introduced 16.0.R1
 

Platforms

All
extended boolean
  Synopsis Advertise the Extended Communities attribute to peers
  Context configure router string bgp group string send-communities extended boolean
  Tree extended
 

Description

When unconfigured, this command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to true.

When this command inherits a value of true, BGP extended communities are sent to peers in the Extended Communities attribute.

When configured to false, all extended communities are removed from all routes advertised to BGP peers.

  Introduced 16.0.R1
 

Platforms

All
large boolean
  Synopsis Advertise the Large Communities attribute to peers
  Context configure router string bgp group string send-communities large boolean
  Tree large
 

Description

When unconfigured, this command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to true.

When this command inherits a value of true, BGP large communities are sent to peers in the Large Communities attribute.

When configured to false, all large communities are removed from all routes advertised to BGP peers.

  Introduced 16.0.R1
 

Platforms

All
standard boolean
  Synopsis Advertise the Communities attribute to peers
  Context configure router string bgp group string send-communities standard boolean
  Tree standard
 

Description

When unconfigured, this command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to true.

When this command inherits a value of true, BGP standard communities are sent to peers in the Communities attribute.

When configured to false, all standard communities are removed from all routes advertised to BGP peers.

  Introduced 16.0.R1
 

Platforms

All
send-default
  Synopsis Enable the send-default context
  Context configure router string bgp group string send-default
  Tree send-default
  Introduced 19.7.R1
 

Platforms

All
export-policy reference
  Synopsis Export policy name
  Context configure router string bgp group string send-default export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Introduced 19.7.R1
 

Platforms

All
ipv4 boolean
  Synopsis Generate and advertise an IPv4 default route (0/0)
  Context configure router string bgp group string send-default ipv4 boolean
  Tree ipv4
  Default false
  Introduced 19.7.R1
 

Platforms

All
ipv6 boolean
  Synopsis Generate and advertise an IPv6 default route (::/0)
  Context configure router string bgp group string send-default ipv6 boolean
  Tree ipv6
  Default false
  Introduced 19.7.R1
 

Platforms

All
split-horizon boolean
  Synopsis Prevent routes being reflected back to best-route peer
  Context configure router string bgp group string split-horizon boolean
  Tree split-horizon
 

Description

When configured to true, this command enables the use of split-horizon.

This command prevents routes from being reflected back to a peer that sends the best route. It applies to routes of all address families and to any type of sending peer; confed-EBGP, EBGP and IBGP.

Enabling the split-horizon functionality may have a detrimental impact on peer and route scaling and should only be used when absolutely necessary.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the use of split-horizon is disabled.
  Introduced 16.0.R1
 

Platforms

All
static-group boolean
  Synopsis Use group for static peers
  Context configure router string bgp group string static-group boolean
  Tree static-group
  Default true
  Introduced 16.0.R1
 

Platforms

All
tcp-mss (number | keyword)
  Synopsis TCP maximum segment size override
  Context configure router string bgp group string tcp-mss (number | keyword)
  Tree tcp-mss
 

Description

This command configures an override for the TCP maximum segment size to use with a specific peer or set of peers (depending on the scope of the command).

The configured value controls two properties of the TCP connection as follows:

TCP MSS option - The router advertises the TCP MSS option value in the TCP SYN packet it sends as part of the 3-way handshake. The advertised value may be lower than the configured value, depending on the IP MTU of the first hop IP interface. The peers must abide by this value when sending TCP segments to the local router.

TCP maximum segment size - The actual transmitted size may be lower than the configured value, depending on the TCP MSS option value signaled by the peers, the effect of path MTU discovery, or other factors.
  Range 384 to 9746
  Options ip-stack
  Introduced 21.2.R1
 

Platforms

All
third-party-nexthop boolean
  Synopsis Apply third-party next-hop processing to EBGP peers
  Context configure router string bgp group string third-party-nexthop boolean
  Tree third-party-nexthop
 

Description

When configured to true, this command enables the router to send third-party next hop to EBGP peers in the same subnet as the source peer. The address family of the transport must match the address family of the route.

When an IPv4 or IPv6 route is received from one EBGP peer and advertised to another EBGP peer in the same IP subnet, the BGP next hop is left unchanged.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, third-party next-hop processing is disabled and the next hop carries the IP address of the interface used to establish the TCP connection to the peer.
  Introduced 16.0.R1
 

Platforms

All
ttl-security number
  Synopsis Minimum TTL value for an incoming BGP packet
  Context configure router string bgp group string ttl-security number
  Tree ttl-security
 

Description

This command configures the minimum TTL value that BGP will accept from an incoming packet. A packet with a TTL value less than the minimum configured TTL value is discarded.
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
type keyword
  Synopsis BGP peer type
  Context configure router string bgp group string type keyword
  Tree type
  Default no-type
  Options no-type, internal, external
  Introduced 16.0.R1
 

Platforms

All
vpn-apply-export boolean
  Synopsis Apply base-instance BGP export policies to VPN routes
  Context configure router string bgp group string vpn-apply-export boolean
  Tree vpn-apply-export
 

Description

When configured to true, base-instance BGP export route policies are applied to VPN-IPv4/6, MVPN-IPv4/6, L2-VPN, MDT-SAFI, MCAST-VPN-IPv4, and EVPN routes.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the export policies are not applied.
  Introduced 16.0.R1
 

Platforms

All
vpn-apply-import boolean
  Synopsis Apply base-instance BGP import policies to VPN routes
  Context configure router string bgp group string vpn-apply-import boolean
  Tree vpn-apply-import
 

Description

When configured to true, base-instance BGP import route policies are applied to VPN-IPv4/6, MVPN-IPv4/6, L2-VPN, MDT-SAFI, MCAST-VPN-IPv4, and EVPN routes.

When unconfigured, the command inherits the value of the global-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the import policies are not applied.
  Introduced 16.0.R1
 

Platforms

All
hold-time
  Synopsis Enter the hold-time context
  Context configure router string bgp hold-time
  Tree hold-time
  Introduced 16.0.R1
 

Platforms

All
minimum-hold-time number
  Synopsis Minimum hold time between successive messages
  Context configure router string bgp hold-time minimum-hold-time number
  Tree minimum-hold-time
 

Description

This command specifies the minimum hold time that is accepted for the session. If a peer proposes a hold time lower than this value, the session attempt is rejected.
  Range 0 | 3 to 65535
  Default 0
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Maximum time BGP waits between successive messages
  Context configure router string bgp hold-time seconds number
  Tree seconds
 

Description

This command configures the maximum time BGP waits between successive messages (either keepalive or update) from its peer before closing the connection.

Although the implementation allows setting the keepalive timer at the BGP global level times separately, the configured keepalive timer is overridden by this value under the following circumstances.

  • If the specified hold time is less than the configured keepalive time, the operational keepalive time is set to a third of the hold-time; the configured keepalive time is not changed.

  • If the hold time is set to zero, the operational value of the keepalive time is set to zero; the configured keepalive time is not changed. The connection with the peer is up permanently and no keepalive packets are sent to the peer.
  Range 0 | 3 to 65535
  Default 90
  Introduced 16.0.R1
 

Platforms

All
ibgp-multipath boolean
  Synopsis Enable IBGP multipath load balancing
  Context configure router string bgp ibgp-multipath boolean
  Tree ibgp-multipath
 

Description

When configured to true, this command enables IBGP multipath load balancing when adding BGP routes to the route table if the route resolving the BGP next hop offers multiple next hops.

When configured to false, this command disables IBGP multipath load balancing.

  Default false
  Introduced 16.0.R1
 

Platforms

All
import
  Synopsis Enable the import context
  Context configure router string bgp import
  Tree import
 

Description

Commands in this context specify route policies that control the handling of inbound routes received from certain peers. Route policies are configured in the configure policy-options context.

When no import policies are specified in this context, BGP routes are accepted by default.
  Introduced 16.0.R1
 

Platforms

All
policy (policy-expr-string | string)
  Synopsis BGP import policy name
  Context configure router string bgp import policy (policy-expr-string | string)
  Tree policy
 

Description

This command specifies a list of objects, where each object is either a policy logical expression or the name of a single policy. The objects are evaluated in the specified order to determine the modifications of each route and the final action to accept or reject the route.

Only one of the objects referenced by this command is allowed to be a policy logical expression consisting of policy names (enclosed in square brackets) and logical operators (AND, OR, NOT).

Policy parameters must be enclosed by at-signs (@) and may be midstring; for example, "@variable@," "start@variable@end"," @variable@end", or"start@variable@".
  String Length 1 to 255
  Max. Instances 15
  Min. Instances 1
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
initial-send-delay-zero boolean
  Synopsis Send BGP updates as soon as session comes up
  Context configure router string bgp initial-send-delay-zero boolean
  Tree initial-send-delay-zero
  Default false
  Introduced 16.0.R1
 

Platforms

All
inter-as-vpn boolean
  Synopsis Allow advertisement of VPN routes across AS boundaries
  Context configure router string bgp inter-as-vpn boolean
  Tree inter-as-vpn
 

Description

When configured to true, this command allows VPNs to exchange routes across AS boundaries, providing model B connectivity.

When configured to false, ASBRs are prevented from advertising VPN routes to peers in other ASs.
  Default false
  Introduced 16.0.R1
 

Platforms

All
keepalive number
  Synopsis Time after which the BGP KEEPALIVE message is sent
  Context configure router string bgp keepalive number
  Tree keepalive
  Range 0 to 21845
  Default 30
  Introduced 16.0.R1
 

Platforms

All
label-allocation
  Synopsis Enter the label-allocation context
  Context configure router string bgp label-allocation
  Tree label-allocation
  Introduced 20.10.R1
 

Platforms

All
label-ipv6
  Synopsis Enter the label-ipv6 context
  Context configure router string bgp label-allocation label-ipv6
  Tree label-ipv6
 

Description

This command controls the label allocation behavior for labeled unicast IPv6 routes. The label options are explicit-null and normal.
  Introduced 20.10.R1
 

Platforms

All
explicit-null boolean
  Synopsis Apply advertised label and associated programming rules
  Context configure router string bgp label-allocation label-ipv6 explicit-null boolean
  Tree explicit-null
 

Description

When configured to true, this command uses the advertised label and associated programming rules on this instance of BGP. The following applies:

  • The router is required to act as the BGP next-hop of a label-unicast IPv6 route that it is advertising. It sets the BGP label value to IPv6 explicit null (value 2), forcing a POP behavior for received packets.

  • The received label-unicast IPv6 routes never create tunnels in TTM that can be used to resolve other BGP routes (with an IPv6 next-hop).

  • A received label-unicast IPv6 route can be resolved by a label-ipv4 BGP tunnel that is transported over a stacked tunnel (SR-TE LSP or LDPoRSVP LSP).

When configured to false, advertised label IPv6 programming rules are not used. The following applies

  • When the router is required to act as the BGP next-hop of a label-unicast IPv6 route that it is advertising, it sets the BGP label value to a proper value in the dynamic label range and programs a POP or SWAP operation for that label, depending on the origin of the route and various import policy actions that could apply to the route.

  • Received label-unicast IPv6 routes that have a prefix length of 128 bits are automatically installed in TTM so that they can be used to resolve other (non-labeled-unicast) BGP routes (with an IPv6 next-hop).

  • A received label-unicast IPv6 route cannot be resolved by a label-ipv4 BGP tunnel that is transported over a stacked tunnel (SR-TE LSP or LDPoRSVP LSP).

  • The label-ipv6 routes used for ECMP toward an IPv6 destination cannot be a mix of routes with regular label values and routes with special (IPv6 explicit null) label values.

Changes in the value of this leaf do not cause the BGP sessions of the base router to reset.
  Default true
  Introduced 20.10.R1
 

Platforms

All
label-preference number
  Synopsis Route preference for routes from labeled-unicast peers
  Context configure router string bgp label-preference number
  Tree label-preference
  Range 1 to 255
  Default 170
  Introduced 16.0.R1
 

Platforms

All
link-state-route-export boolean
  Synopsis Allow the export of the TED NLRI database
  Context configure router string bgp link-state-route-export boolean
  Tree link-state-route-export
 

Description

When configured to true, this command allows BGP to export link-state information to BGP neighbors.

When configured to false, link-state information is not exported.
  Default false
  Introduced 16.0.R1
 

Platforms

All
link-state-route-import boolean
  Synopsis Allow the import of the TED NLRI database
  Context configure router string bgp link-state-route-import boolean
  Tree link-state-route-import
 

Description

When configured to true, this command enables the import of link-state information into the BGP-LS address family for advertisement to other BGP neighbors.

When configured to false, this command disables the import of link-state information.
  Default false
  Introduced 16.0.R1
 

Platforms

All
local-as
  Synopsis Enter the local-as context
  Context configure router string bgp local-as
  Tree local-as
  Introduced 16.0.R1
 

Platforms

All
as-number number
  Synopsis Local (or virtual) BGP AS number
  Context configure router string bgp local-as as-number number
  Tree as-number
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
prepend-global-as boolean
  Synopsis Prepend global AS when advertising routes to BGP peer
  Context configure router string bgp local-as prepend-global-as boolean
  Tree prepend-global-as
 

Description

When configured to true, the global ASN is added to the AS_PATH attribute in outbound routes sent to the peer.

When configured to false, the global ASN is hidden in paths announced to the EBGP peer.
  Default true
  Introduced 16.0.R1
 

Platforms

All
private boolean
  Synopsis Hide the local ASN in sent paths learned from peering
  Context configure router string bgp local-as private boolean
  Tree private
 

Description

When configured to true, the local ASN is hidden in paths learned from the peering.

When configured to false, the local ASN is advertised to all peers, including those that can use the global ASN for establishing BGP peering sessions.
  Default false
  Introduced 16.0.R1
 

Platforms

All
local-preference number
  Synopsis Default local preference if not in incoming routes
  Context configure router string bgp local-preference number
  Tree local-preference
  Max. Range 0 to 4294967295
  Default 100
  Introduced 16.0.R1
 

Platforms

All
loop-detect keyword
  Synopsis Strategy for loop detection in the AS path
  Context configure router string bgp loop-detect keyword
  Tree loop-detect
  Default ignore-loop
  Options drop-peer, ignore-loop, off, discard-route
  Introduced 16.0.R1
 

Platforms

All
loop-detect-threshold number
  Synopsis Threshold for the global ASN in a received AS path
  Context configure router string bgp loop-detect-threshold number
  Tree loop-detect-threshold
  Range 0 to 15
  Default 0
  Introduced 16.0.R6
 

Platforms

All
med-out (number | keyword)
  Synopsis Default MED attribute value to advertise to peers
  Context configure router string bgp med-out (number | keyword)
  Tree med-out
  Max. Range 0 to 4294967295
  Options igp-cost
  Introduced 16.0.R1
 

Platforms

All
min-route-advertisement number
  Synopsis Minimum time before a prefix can be advertised to peer
  Context configure router string bgp min-route-advertisement number
  Tree min-route-advertisement
  Range 1 to 255
  Default 30
  Introduced 16.0.R1
 

Platforms

All
monitor
  Synopsis Enable the monitor context
  Context configure router string bgp monitor
  Tree monitor
 

Description

Commands in this context specify BMP-related configurations. 

When this context is unconfigured, the sending of BMP messages to BMP monitoring stations is disabled.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BMP monitoring
  Context configure router string bgp monitor admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
all-stations boolean
  Synopsis Send BMP messages to all configured stations
  Context configure router string bgp monitor all-stations boolean
  Tree all-stations
 

Description

When configured to true, this command specifies that BMP messages are to be sent to all configured BMP monitoring stations.

When configured to false, the command is not used to indicate the stations which can receive BMP messages. The station command (at the same context level) identifies the BMP stations for which BMP messages are to be sent.
  Default false
  Introduced 16.0.R1
 

Platforms

All
route-monitoring
  Synopsis Enter the route-monitoring context
  Context configure router string bgp monitor route-monitoring
  Tree route-monitoring
  Introduced 16.0.R1
 

Platforms

All
post-policy boolean
  Synopsis Allow post-policy route-monitoring messages to be sent
  Context configure router string bgp monitor route-monitoring post-policy boolean
  Tree post-policy
  Default false
  Introduced 16.0.R1
 

Platforms

All
pre-policy boolean
  Synopsis Allow pre-policy route-monitoring messages to be sent
  Context configure router string bgp monitor route-monitoring pre-policy boolean
  Tree pre-policy
  Default false
  Introduced 16.0.R1
 

Platforms

All
station [station-name] reference
  Synopsis Add a list entry for station
  Context configure router string bgp monitor station reference
  Tree station
 

Description

This command identifies a BMP monitoring station for which BMP messages are to be sent.
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

All
[station-name] reference
  Synopsis BMP monitoring station
  Context configure router string bgp monitor station reference
 

Reference

configure bmp station string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
mp-bgp-keep boolean
  Synopsis Keep rejected VPN-IP routes in RIB-IN
  Context configure router string bgp mp-bgp-keep boolean
  Tree mp-bgp-keep
 

Description

When configured to true, the RIB-IN retains all MP-BGP routes, including VPN routes rejected by import policies or not imported by any services. As a result, sending Route Refresh messages is not required when an import policy changes.

When configured to false, these VPN routes are deleted from the RIB-IN.
  Default false
  Introduced 16.0.R1
 

Platforms

All
multihop number
  Synopsis TTL in IP packet headers for EBGP peers multi-hops away
  Context configure router string bgp multihop number
  Tree multihop
 

Description

This command configures the Time to Live (TTL) value entered in the IP header of packets sent to an EBGP peer multiple hops away. This command applies only to EBGP.
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
multipath
  Synopsis Enter the multipath context
  Context configure router string bgp multipath
  Tree multipath
  Introduced 16.0.R1
 

Platforms

All
ebgp number
  Synopsis Maximum multipaths per prefix for EBGP learned routes
  Context configure router string bgp multipath ebgp number
  Tree ebgp
  Range 1 to 64
  Introduced 16.0.R1
 

Platforms

All
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string bgp multipath family keyword
  Tree family
  Introduced 19.5.R1
 

Platforms

All
[family-type] keyword
  Synopsis Address family for which multipath selection applies
  Context configure router string bgp multipath family keyword
  Options ipv4, ipv6, label-ipv4, label-ipv6
 

Notes

This element is part of a list key.
  Introduced 19.5.R1
 

Platforms

All
ebgp number
  Synopsis Maximum multipaths when best path is EBGP learned route
  Context configure router string bgp multipath family keyword ebgp number
  Tree ebgp
 

Description

This command configures the maximum number of multipaths per prefix or NLRI when the best path is an EBGP learned route. The limit configured using this command overrides the limit configured in the max-paths command. If the best path is an EBGP learned route, and this command is set to 1, multipaths are disabled.
  Range 1 to 64
  Introduced 19.5.R1
 

Platforms

All
ibgp number
  Synopsis Maximum multipaths when best path is IBGP learned route
  Context configure router string bgp multipath family keyword ibgp number
  Tree ibgp
 

Description

This command configures the maximum number of multipaths per prefix or NLRI when the best path is an IBGP learned route. The limit configured using this command overrides the limit configured in the max-paths command. If the best path is an IBGP learned route and this command is set to 1, multipaths are disabled.
  Range 1 to 64
  Introduced 19.5.R1
 

Platforms

All
max-paths number
  Synopsis Maximum number of multipaths per prefix or NLRI
  Context configure router string bgp multipath family keyword max-paths number
  Tree max-paths
 

Description

This command configures the maximum number of multipaths per prefix or NLRI for the IP family option specified using the family command.

Consider the following when configuring this command: 

  • If the best path is an EBGP-learned route and the ebgp command is configured, the limit configured in the ebgp command overrides the limit configured in this command. 

  • If the best path is an IBGP-learned route and the ibgp command is configured, the limit configured in the ibgp command overrides the limit configured in this command.

  • If the best path is an EBGP-learned route and the ebgp command is not configured, and this command is configured to 1, multipaths are disabled.

  • If the best path is an IBGP-learned route and the ibgp command is not configured, and this command is configured to 1, multipaths are disabled.
  Range 1 to 64
  Introduced 19.5.R1
 

Platforms

All
restrict keyword
  Synopsis AS path restriction for the non-best path
  Context configure router string bgp multipath family keyword restrict keyword
  Tree restrict
  Default same-as-path-length
  Options same-as-path-length, same-neighbor-as, exact-as-path
  Introduced 19.5.R1
 

Platforms

All
unequal-cost boolean
  Synopsis Ignore differences in the next-hop cost for multipath
  Context configure router string bgp multipath family keyword unequal-cost boolean
  Tree unequal-cost
 

Description

When configured to true, BGP ignores differences in the next-hop cost when determining eligible multipaths.
  Default false
  Introduced 19.5.R1
 

Platforms

All
ibgp number
  Synopsis Maximum multipaths per prefix for IBGP learned routes
  Context configure router string bgp multipath ibgp number
  Tree ibgp
  Range 1 to 64
  Introduced 16.0.R1
 

Platforms

All
max-paths number
  Synopsis Maximum multipaths per prefix
  Context configure router string bgp multipath max-paths number
  Tree max-paths
  Range 1 to 64
  Default 1
  Introduced 16.0.R1
 

Platforms

All
restrict keyword
  Synopsis AS path restriction for the non-best path
  Context configure router string bgp multipath restrict keyword
  Tree restrict
  Default same-as-path-length
  Options same-as-path-length, same-neighbor-as, exact-as-path
  Introduced 16.0.R1
 

Platforms

All
unequal-cost boolean
  Synopsis Ignore differences in the next-hop cost for multipath
  Context configure router string bgp multipath unequal-cost boolean
  Tree unequal-cost
  Default false
  Introduced 19.5.R1
 

Platforms

All
mvpn-vrf-import-subtype-new boolean
  Synopsis Encode the IANA value of 0x010b in advertised routes
  Context configure router string bgp mvpn-vrf-import-subtype-new boolean
  Tree mvpn-vrf-import-subtype-new
 

Description

When configured to true, this command encodes the value of 0x010b for the type or subtype in advertised routes.

When configured to false, BGP encodes the extended community type or subtype as 0x010a to preserve backwards compatibility.
  Default false
  Introduced 16.0.R1
 

Platforms

All
neighbor [ip-address] (ipv4-address-with-zone | ipv6-address-with-zone)
  Synopsis Enter the neighbor list instance
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone)
  Tree neighbor
  Introduced 16.0.R1
 

Platforms

All
[ip-address] (ipv4-address-with-zone | ipv6-address-with-zone)
  Synopsis IP address of the BGP peer router
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
add-paths
  Synopsis Enable the add-paths context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths
  Tree add-paths
 

Description

Commands in this context allow the add-paths node to be configured for the specified families for configuration of the BGP group or neighbor. The BGP add-paths capability allows the router to send or receive multiple paths per prefix to and from a peer.

When unconfigured, command settings are inherited from a higher level BGP configuration.
  Introduced 16.0.R1
 

Platforms

All
evpn
  Synopsis Enter the evpn context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths evpn
  Tree evpn
 

Description

Commands in this context configure the add-paths capability for EVPN routes. By default, add-paths is not enabled for EVPN routes.
  Introduced 21.10.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple EVPN paths per prefix from a peer
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths evpn receive boolean
  Tree receive
  Default false
  Introduced 21.10.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per EVPN prefix to Add-Path peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths evpn send (number | keyword)
  Tree send
  Range 1 to 16
  Options multipaths
  Introduced 21.10.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple labeled-unicast routes per IPv4 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths ipv4 receive boolean
  Tree receive
 

Description

When configured to true, the router can receive multiple unlabeled IPv4 unicast routes per prefix from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per unlabeled IPv4 unicast prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths ipv4 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths per unlabeled IPv4 unicast prefix that are allowed to be advertised to ADD-PATH peers. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for unlabeled IPv4 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per IPv6 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple unlabeled IPv6 unicast routes per prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per unlabeled IPv6 unicast prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths ipv6 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths per unlabeled IPv4 unicast prefix that are allowed to be advertised to ADD-PATH peers. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for unlabeled IPv4 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
label-ipv4
  Synopsis Enter the label-ipv4 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths label-ipv4
  Tree label-ipv4
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple labeled-unicast routes per IPv4 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths label-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple labeled-unicast routes per IPv4 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per labeled IPv4 unicast prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths label-ipv4 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per labeled IPv4 unicast prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for labeled IPv4 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
label-ipv6
  Synopsis Enter the label-ipv6 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths label-ipv6
  Tree label-ipv6
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple labeled-unicast routes per IPv6 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths label-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple labeled-unicast routes per IPv6 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per labeled IPv6 unicast prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths label-ipv6 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per labeled IPv6 unicast prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for labeled IPv6 unicast routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv4
  Synopsis Enter the mcast-vpn-ipv4 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mcast-vpn-ipv4
  Tree mcast-vpn-ipv4
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple multicast routes per IPv4 VPN prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mcast-vpn-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple multicast routes per IPv4 VPN prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths per multicast IPv4 VPN prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mcast-vpn-ipv4 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast IPv4 VPN prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for multicast IPv4 VPN routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv6
  Synopsis Enter the mcast-vpn-ipv6 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mcast-vpn-ipv6
  Tree mcast-vpn-ipv6
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple multicast routes per IPv6 VPN prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mcast-vpn-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple multicast routes per IPv6 VPN prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths per multicast IPv6 VPN prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mcast-vpn-ipv6 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast IPv6 VPN prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for multicast IPv6 VPN routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv4
  Synopsis Enter the mvpn-ipv4 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mvpn-ipv4
  Tree mvpn-ipv4
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple multicast VPN routes per IPv4 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mvpn-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple multicast VPN routes per IPv4 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths per multicast VPN IPv4 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mvpn-ipv4 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast VPN IPv4 prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for multicast VPN IPv4 routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv6
  Synopsis Enter the mvpn-ipv6 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mvpn-ipv6
  Tree mvpn-ipv6
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple multicast VPN routes per IPv6 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mvpn-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple multicast VPN routes per IPv6 prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send number
  Synopsis Maximum paths per multicast VPN IPv6 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths mvpn-ipv6 send number
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per multicast VPN IPv6 prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for multicast VPN IPv6 routes.
  Range 1 to 16
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4
  Synopsis Enter the vpn-ipv4 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths vpn-ipv4
  Tree vpn-ipv4
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per VPN-IPv4 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths vpn-ipv4 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple VPN-IPv4 routes per prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per VPN-IPv4 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths vpn-ipv4 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per VPN-IPv4 prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for VPN-IPv4 routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6
  Synopsis Enter the vpn-ipv6 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths vpn-ipv6
  Tree vpn-ipv6
  Introduced 16.0.R1
 

Platforms

All
receive boolean
  Synopsis Receive multiple routes per VPN-IPv6 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths vpn-ipv6 receive boolean
  Tree receive
 

Description

When configured to true, this command allows multiple VPN-IPv6 routes per prefix to be received from a peer.

When configured to false, the ADD-PATH receive capability is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send (number | keyword)
  Synopsis Maximum paths per VPN-IPv6 prefix
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) add-paths vpn-ipv6 send (number | keyword)
  Tree send
 

Description

This command configures the maximum number of paths that are allowed to be advertised to add-paths peers per VPN-IPv6 prefix. The actual number of advertised routes may be less depending on the next-hop diversity requirement, other configuration options, route policies, or route advertisement rules.

When not configured, ADD-PATH send capability is not enabled for VPN-IPv6 routes.
  Range 1 to 16
  Options multipaths
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the BGP neighbor
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
advertise-inactive boolean
  Synopsis Advertise an inactive BGP route to peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) advertise-inactive boolean
  Tree advertise-inactive
 

Description

When configured to true, this command allows an inactive BGP route to be advertised, even though it is not the most preferred route. The effect of the command on advertised unlabeled, labeled, and multicast IPv4 and IPv6 routes depends on several factors.

  • If the active route for the IP prefix is a BGP route, that route is advertised.

  • If the active route is a non-BGP route and there are valid inactive BGP routes to the same destination, the best valid inactive route is advertised unless the active non-BGP route is matched and accepted by an export policy applied to the session.

  • If the active route is a non-BGP route and there are no valid BGP routes to the same destination, no route is advertised unless the active non-BGP route is matched and accepted by an export policy applied to the session.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the advertisement of inactive BGP routes to other BGP peers is disabled.
  Introduced 16.0.R1
 

Platforms

All
advertise-ipv6-next-hops
  Synopsis Enable the advertise-ipv6-next-hops context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) advertise-ipv6-next-hops
  Tree advertise-ipv6-next-hops
 

Description

Commands in this context allow specified IP family routes to be advertised to IPv6 transport peers with a true IPv6 address when originated or when a configured or automatic next-hop-self action is applied.

When unconfigured, command settings are inherited from a higher level BGP configuration.
  Introduced 16.0.R1
 

Platforms

All
evpn boolean
  Synopsis Advertise EVPN route with IPv6 next-hop address
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) advertise-ipv6-next-hops evpn boolean
  Tree evpn
 

Description

When configured to true, EVPN routes are advertised with IPv6 next-hop addresses to IPv6 transport peers.

When configured to false, EVPN routes are advertised with IPv4 next-hop addresses to IPv6 transport peers.
  Default false
  Introduced 19.5.R1
 

Platforms

All
ipv4 boolean
  Synopsis Advertise IPv4 route with IPv6 next-hop address
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) advertise-ipv6-next-hops ipv4 boolean
  Tree ipv4
 

Description

When configured to true, IPv4 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers. The appropriate extended NH encoding capability must also be received from the remote peer before the route can be advertised with an IPv6 address instead of the IPv4 system address as the next hop.

When configured to false, IPv4 routes are advertised with IPv4 next-hop addresses to IPv6 transport peers. If the route matches a BGP export policy entry that tries to change the next hop to an IPv6 address and an appropriate extended NH encoding capability was not received by the remote peer, the route is handled as though it was rejected by the policy entry.
  Default false
  Introduced 19.5.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise label IPv4 route with IPv6 next-hop address
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) advertise-ipv6-next-hops label-ipv4 boolean
  Tree label-ipv4
 

Description

When configured to true, label IPv4 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers. The appropriate extended NH encoding capability must also be received from the remote peer before the route can be advertised with an IPv6 address instead of the IPv4 system address as the next hop.

When configured to false, label IPv4 routes are advertised with the system IPv4 address as the next hop to IPv6 transport peers. If the route matches a BGP export policy entry that tries to change the next hop to an IPv6 address and an appropriate extended NH encoding capability was not received by the remote peer, the route is handled as though it was rejected by the policy entry.
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Advertise label IPv6 route with IPv6 next-hop address
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) advertise-ipv6-next-hops label-ipv6 boolean
  Tree label-ipv6
 

Description

When configured to true, label IPv6 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers.

When configured to false, label IPv6 routes are advertised toward IPv6 transport peers with the system IPv4 address as the BGP next hop, encoded as an IPv4-mapped IPv6 address.
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise VPN IPv4 route with IPv6 next-hop address
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) advertise-ipv6-next-hops vpn-ipv4 boolean
  Tree vpn-ipv4
 

Description

When configured to true, VPN IPv4 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers. The appropriate extended NH encoding capability must also be received from the remote peer before the route can be advertised with an IPv6 address instead of the IPv4 system address as the next hop.

When configured to false, VPN IPv4 routes are advertised toward IPv6 transport peers with the system IPv4 address as the BGP next hop. If the route matches a BGP export policy entry that tries to change the next hop to an IPv6 address and an appropriate extended NH encoding capability was not received by the remote peer, the route is handled as though it was rejected by the policy entry.
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Advertise VPN IPv6 route with IPv6 next-hop address
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) advertise-ipv6-next-hops vpn-ipv6 boolean
  Tree vpn-ipv6
 

Description

When configured to true, VPN IPv6 routes are advertised with IPv6 next-hop addresses to IPv6 transport peers.

When configured to false, VPN IPv6 routes are advertised toward IPv6 transport peers with the system IPv4 address as the BGP next hop, encoded as an IPv4-mapped IPv6 address.
  Default false
  Introduced 16.0.R1
 

Platforms

All
advertise-ldp-prefix boolean
  Synopsis Advertise active /32 LDP FEC prefixes to BGP peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) advertise-ldp-prefix boolean
  Tree advertise-ldp-prefix
  Default false
  Introduced 16.0.R1
 

Platforms

All
aggregator-id-zero boolean
  Synopsis Set router ID in the BGP AGGREGATOR attribute to zero
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) aggregator-id-zero boolean
  Tree aggregator-id-zero
  Introduced 16.0.R1
 

Platforms

All
aigp boolean
  Synopsis Add AIGP attribute to advertised routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) aigp boolean
  Tree aigp
 

Description

When configured to true, this command enables Accumulated IGP (AIGP) path attribute support with one or more BGP peers. BGP path selection among routes with an associated AIGP metric is based on the end-to-end IGP metrics of the different BGP paths, even when these BGP paths span more than one AS and IGP instance.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the AIGP attribute is removed from advertised routes, if present, and is ignored in received routes.
  Introduced 16.0.R1
 

Platforms

All
as-override boolean
  Synopsis Replace the peer's ASN with the local ASN in AS Path
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) as-override boolean
  Tree as-override
 

Description

When configured to true, the advertising router's local AS replaces all occurrences of the peer AS in the AS_PATH attribute.

This command should be used with caution, as it breaks BGP's loop detection mechanism.

When unconfigured, the command inherits the value of the group-level setting (true or false). This command cannot be explicitly configured to false.

When configured to false, no AS override is performed.
  Introduced 19.7.R1
 

Platforms

All
asn-4-byte boolean
  Synopsis Advertise the use of 4-byte ASNs
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) asn-4-byte boolean
  Tree asn-4-byte
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis BGP authentication key
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) authentication-key string
  Tree authentication-key
  String Length 1 to 370
  Introduced 16.0.R1
 

Platforms

All
authentication-keychain reference
  Synopsis TCP authentication keychain for the session
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) authentication-keychain reference
  Tree authentication-keychain
 

Description

This command associates the keychain to be used to authenticate the BGP session. The keychain allows the rollover of authentication keys during the lifetime of a session.
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) bfd-liveness boolean
  Tree bfd-liveness
 

Description

When configured to true, BFD is enabled on a given protocol interface where the state of the protocol interface is tied to the state of the BFD session between the local node and the remote node.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, BFD is removed from the associated protocol adjacency.
  Introduced 16.0.R1
 

Platforms

All
block-prefix-sid boolean
  Synopsis Block the prefix SID attribute
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) block-prefix-sid boolean
  Tree block-prefix-sid
 

Description

When configured to true, all prefix SID attributes are removed from all routes exchanged between EBGP and IBGP peers covered by the scope of the command. Locally-imposed prefix SID attributes are also removed.

When configured to false, all prefix SID attributes are propagated without restriction.

A change of this configuration causes the affected BGP sessions to flap.
  Default false
  Introduced 19.10.R1
 

Platforms

All
capability-negotiation boolean
  Synopsis Enable capability negotiation
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) capability-negotiation boolean
  Tree capability-negotiation
  Introduced 16.0.R1
 

Platforms

All
client-reflect boolean
  Synopsis Allow cluster RR to advertise routes to its clients
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) client-reflect boolean
  Tree client-reflect
  Introduced 16.0.R1
 

Platforms

All
cluster
  Synopsis Enter the cluster context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) cluster
  Tree cluster
  Introduced 16.0.R1
 

Platforms

All
allow-local-fallback boolean
  Synopsis Allow fallback to RR topology
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) cluster allow-local-fallback boolean
  Tree allow-local-fallback
 

Description

When configured to true, this command allows the RR to advertise the best BGP path from its own topology location when there are no reachable routes from the client's ORR location. The ORR location must be specified before this command can be set to true.

When configured to false, this command no route is advertised to the client.
  Default false
  Introduced 16.0.R1
 

Platforms

All
cluster-id string
  Synopsis Route reflector cluster ID
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) cluster cluster-id string
  Tree cluster-id
  Introduced 16.0.R1
 

Platforms

All
orr-location number
  Synopsis Optimal route reflection location for the cluster
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) cluster orr-location number
  Tree orr-location
 

Description

This command configures an ORR location ID. If a cluster ID is also specified, the clients in that cluster receive routes optimal for that specific location.

With optimal route reflection, the best path advertised to a client takes location ID into account. If the tie-break for best path (or Add-Paths) comes down to next-hop IGP cost, the IGP costs will be calculated relative to the specified location. In the SR OS implementation, the IGP costs from arbitrary ORR locations are calculated using OSPF, OSPFv3, IS-IS, or BGP-LS information in the TE DB.
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
connect-retry number
  Synopsis BGP connect retry timer value
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) connect-retry number
  Tree connect-retry
  Range 1 to 65535
  Introduced 16.0.R1
 

Platforms

All
damp-peer-oscillations
  Synopsis Enable the damp-peer-oscillations context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) damp-peer-oscillations
  Tree damp-peer-oscillations
  Introduced 16.0.R1
 

Platforms

All
error-interval number
  Synopsis Time after a reset that the session must be error-free
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) damp-peer-oscillations error-interval number
  Tree error-interval
 

Description

This command sets the interval of time after a reset, during which the session must be error-free in order to reset the penalty counter and return the idle hold time to the initial wait time.
  Range 0 to 2048
  Default 30
  Introduced 16.0.R1
 

Platforms

All
idle-hold-time
  Synopsis Enter the idle-hold-time context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) damp-peer-oscillations idle-hold-time
  Tree idle-hold-time
  Introduced 16.0.R1
 

Platforms

All
initial-wait number
  Synopsis Time session remains in idle state after stabilization
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) damp-peer-oscillations idle-hold-time initial-wait number
  Tree initial-wait
  Range 0 to 2048
  Default 0
  Introduced 16.0.R1
 

Platforms

All
max-wait number
  Synopsis Maximum session idle time after repeated instability
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) damp-peer-oscillations idle-hold-time max-wait number
  Tree max-wait
  Range 1 to 2048
  Default 60
  Introduced 16.0.R1
 

Platforms

All
second-wait number
  Synopsis Time that doubles after each repeated session failure
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) damp-peer-oscillations idle-hold-time second-wait number
  Tree second-wait
 

Description

This command defines the hold time that doubles after each repeated session failure that occurs in a short span of time.
  Range 1 to 2048
  Default 5
  Introduced 16.0.R1
 

Platforms

All
damping boolean
  Synopsis Use BGP route damping to reduce route flap
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) damping boolean
  Tree damping
  Introduced 16.0.R1
 

Platforms

All
def-recv-evpn-encap keyword
  Synopsis Default EVPN encapsulation type
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) def-recv-evpn-encap keyword
  Tree def-recv-evpn-encap
 

Description

This command specifies the encapsulation type that BGP uses when an EVPN route is received without the Encapsulation Extended Community.

When unconfigured, the setting for this command is inherited from the BGP group-level configuration.
  Options mpls, vxlan
  Introduced 16.0.R1
 

Platforms

All
default-label-preference
  Synopsis Enter the default-label-preference context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) default-label-preference
  Tree default-label-preference
  Introduced 19.5.R1
 

Platforms

All
ebgp number
  Synopsis Default preference for EBGP
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) default-label-preference ebgp number
  Tree ebgp
  Range 0 to 255
  Introduced 19.5.R1
 

Platforms

All
ibgp number
  Synopsis Default preference for IBGP
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) default-label-preference ibgp number
  Tree ibgp
  Range 0 to 255
  Introduced 19.5.R1
 

Platforms

All
default-preference
  Synopsis Enter the default-preference context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) default-preference
  Tree default-preference
  Introduced 19.5.R1
 

Platforms

All
ebgp number
  Synopsis Default preference for EBGP
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) default-preference ebgp number
  Tree ebgp
  Range 0 to 255
  Introduced 19.5.R1
 

Platforms

All
ibgp number
  Synopsis Default preference for IBGP
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) default-preference ibgp number
  Tree ibgp
  Range 0 to 255
  Introduced 19.5.R1
 

Platforms

All
default-route-target boolean
  Synopsis Send default RTC route (zero prefix length) to peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) default-route-target boolean
  Tree default-route-target
 

Description

When configured to true, this command sends the default RTC route (zero prefix length) toward the selected peers.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, a default RTC route is not sent.
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
ebgp-default-reject-policy
  Synopsis Enable the ebgp-default-reject-policy context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) ebgp-default-reject-policy
  Tree ebgp-default-reject-policy
  Introduced 19.5.R1
 

Platforms

All
export boolean
  Synopsis Enable default reject export policy for external peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) ebgp-default-reject-policy export boolean
  Tree export
  Default true
  Introduced 19.5.R1
 

Platforms

All
import boolean
  Synopsis Enable default reject import policy for external peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) ebgp-default-reject-policy import boolean
  Tree import
  Default true
  Introduced 19.5.R1
 

Platforms

All
egress-engineering
  Synopsis Enable the egress-engineering context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) egress-engineering
  Tree egress-engineering
  Introduced 21.7.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BGP egress engineering
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) egress-engineering admin-state keyword
  Tree admin-state
 

Description

This command administratively enables or disables egress engineering for the BGP. If enabled, peer node SIDs and peer adjacency SIDs are advertised in BGP-LS.
  Default disable
  Options enable, disable
  Introduced 21.7.R1
 

Platforms

All
egress-peer-engineering-label-unicast boolean
  Synopsis Generate EPE label-unicast routes for neighbor
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) egress-peer-engineering-label-unicast boolean
  Tree egress-peer-engineering-label-unicast
 

Description

When configured to true, BGP generates a label-unicast route for the /32 or /128 prefix that corresponds to the BGP neighbor address. This route can be advertised to other routers to recursively resolve unlabeled BGP routes for AS external destinations. This supports the Egress Peer Engineering (EPE) use case.
  Default false
  Introduced 22.2.R1
 

Platforms

All
enforce-first-as boolean
  Synopsis Enforce the configured peer AS value in received routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) enforce-first-as boolean
  Tree enforce-first-as
 

Description

When configured to true for an EBGP session, all routes received from an EBGP peer are checked to ensure that the most recent ASN in the AS_PATH attribute of each route matches the configured AS of the session. If there is not a match, the session is reset (if the update-fault-tolerance command in the error-handling context is set to false) or the session is left up but the route is treated as withdrawn (if update-fault-tolerance is set to true).

This command does not flap an established session because it applies only to routes received after the command is issued.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, received routes are not checked for compliance with the rule.
  Introduced 16.0.R1
 

Platforms

All
error-handling
  Synopsis Enter the error-handling context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) error-handling
  Tree error-handling
  Introduced 16.0.R1
 

Platforms

All
update-fault-tolerance boolean
  Synopsis Tolerate non-critical errors in UPDATE messages
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) error-handling update-fault-tolerance boolean
  Tree update-fault-tolerance
 

Description

When configured to true, non-critical errors are handled with treat-as-withdraw, attribute-discard, and other non-disruptive approaches that do not cause a session reset. Critical errors still trigger a session reset.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, all errors trigger a session reset.
  Introduced 16.0.R1
 

Platforms

All
export
  Synopsis Enable the export context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) export
  Tree export
 

Description

Commands in this context specify route policies that control the handling of outbound routes transmitted to certain peers. Route policies are configured in the configure policy-options context.

When this context is unconfigured, the policy association for the group is inherited from the BGP global-level configuration.
  Introduced 16.0.R1
 

Platforms

All
policy (policy-expr-string | string)
  Synopsis BGP export policy name
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) export policy (policy-expr-string | string)
  Tree policy
 

Description

This command specifies route policies that control the handling of outbound routes transmitted to certain peers.

Each object in this command is either a policy logical expression or the name of a single policy. The objects are evaluated in the specified order to determine the modifications of each route and the final action to accept or reject the route.

Only one of the objects referenced by the command can be a policy logical expression consisting of policy names (enclosed in square brackets) and logical operators (AND, OR, NOT).

Policy parameters must be enclosed by at-signs (@) and may be midstring; for example, "@variable@," "start@variable@end"," @variable@end", or"start@variable@".
  String Length 1 to 255
  Max. Instances 15
  Min. Instances 1
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
extended-nh-encoding
  Synopsis Enable the extended-nh-encoding context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) extended-nh-encoding
  Tree extended-nh-encoding
 

Description

Commands in this context specify the address families enabled to advertise the capability to receive label IPv4 routes, VPN IPv4 routes, or IPv6 next hops from peers. The peers should not send such routes unless notification has been received of this capability. If the router receives an enabled address family route from a peer to which it did not advertise the necessary capability, the UPDATE message will be considered malformed. This causes either a session reset or treat-as-withdraw behavior depending on the error handling settings.

When the context is unconfigured, command settings are inherited from the higher level BGP configuration.
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Advertise encoding capability for IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) extended-nh-encoding ipv4 boolean
  Tree ipv4
  Default false
  Introduced 19.5.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise encoding capability for label-IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) extended-nh-encoding label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise encoding capability for VPN-IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) extended-nh-encoding vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
family
  Synopsis Enable the family context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family
  Tree family
  Introduced 16.0.R1
 

Platforms

All
bgp-ls boolean
  Synopsis Advertise MP-BGP support for the BGP-LS address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family bgp-ls boolean
  Tree bgp-ls
  Default false
  Introduced 16.0.R1
 

Platforms

All
evpn boolean
  Synopsis Advertise MP-BGP support for the EVPN address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family evpn boolean
  Tree evpn
  Default false
  Introduced 16.0.R1
 

Platforms

All
flow-ipv4 boolean
  Synopsis Advertise support for the flowspec-IPv4 address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family flow-ipv4 boolean
  Tree flow-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
flow-ipv6 boolean
  Synopsis Advertise support for the flowspec-IPv6 address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family flow-ipv6 boolean
  Tree flow-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
flow-vpn-ipv4 boolean
  Synopsis Advertise support for FlowSpec-VPN IPv4 address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family flow-vpn-ipv4 boolean
  Tree flow-vpn-ipv4
  Default false
  Introduced 22.7.R1
 

Platforms

All
flow-vpn-ipv6 boolean
  Synopsis Advertise support for FlowSpec-VPN IPv6 address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family flow-vpn-ipv6 boolean
  Tree flow-vpn-ipv6
  Default false
  Introduced 22.7.R1
 

Platforms

All
ipv4 boolean
  Synopsis Add support for the IPv4 address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Advertise MP-BGP support for the IPv6 address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
l2-vpn boolean
  Synopsis Advertise MP-BGP support for the L2-VPN address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family l2-vpn boolean
  Tree l2-vpn
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise support for the label-IPv4 address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Advertise support for the label-IPv6 address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-ipv4 boolean
  Synopsis Advertise support for the MCAST-IPv4 address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family mcast-ipv4 boolean
  Tree mcast-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-ipv6 boolean
  Synopsis Advertise support for the MCAST-IPv6 address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family mcast-ipv6 boolean
  Tree mcast-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv4 boolean
  Synopsis Advertise support for the IPv4 VPN MCAST address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family mcast-vpn-ipv4 boolean
  Tree mcast-vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv6 boolean
  Synopsis Advertise support for the IPv6 VPN MCAST address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family mcast-vpn-ipv6 boolean
  Tree mcast-vpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mdt-safi boolean
  Synopsis Advertise MP-BGP support for MDT-SAFI address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family mdt-safi boolean
  Tree mdt-safi
  Default false
  Introduced 16.0.R1
 

Platforms

All
ms-pw boolean
  Synopsis Advertise support for multi-segment PW address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family ms-pw boolean
  Tree ms-pw
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv4 boolean
  Synopsis Advertise support for the IPv4 MCAST VPN address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family mvpn-ipv4 boolean
  Tree mvpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv6 boolean
  Synopsis Advertise support for the IPv6 MCAST VPN address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family mvpn-ipv6 boolean
  Tree mvpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
route-target boolean
  Synopsis Advertise MP-BGP support for RT constraint routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family route-target boolean
  Tree route-target
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-policy-ipv4 boolean
  Synopsis Advertise MP-BGP support for the SR-policy-IPv4 family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family sr-policy-ipv4 boolean
  Tree sr-policy-ipv4
 

Description

This command allows the router to advertise the capability for AFI1/SAFI73, which corresponds to BGP routes that encode a segment routing policy to an IPv4 destination. 
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-policy-ipv6 boolean
  Synopsis Advertise MP-BGP support for the SR-policy-IPv6 family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family sr-policy-ipv6 boolean
  Tree sr-policy-ipv6
 

Description

This command allows the router to advertise the capability for AFI2/SAFI73, which corresponds to BGP routes that encode a segment routing policy to an IPv6 destination. 
  Default false
  Introduced 19.10.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise MP-BGP support for IPv4 VPN address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Advertise MP-BGP support for IPv6 VPN address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) family vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
fast-external-failover boolean
  Synopsis Drop external BGP session immediately when link fails
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) fast-external-failover boolean
  Tree fast-external-failover
 

Description

When this command inherits a value of true, the router drops an external BGP session on a single-hop route immediately when the local interface goes down.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to true.

When configured to false, the BGP session remains up until the hold time expires.

  Introduced 16.0.R1
 

Platforms

All
graceful-restart
  Synopsis Enable the graceful-restart context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart
  Tree graceful-restart
 

Description

Commands in this context configure BGP graceful restart helper procedures for address families included in the GR capabilities of both peers.

When this context is unconfigured, the command settings are inherited from the BGP group-level configuration.
  Introduced 16.0.R1
 

Platforms

All
gr-notification boolean
  Synopsis Perform graceful restart procedures after NOTIFICATION
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart gr-notification boolean
  Tree gr-notification
 

Description

When configured to true, the Graceful Restart capability sent by the router indicates support for NOTIFICATION messages. If the peer also supports this capability, the session is restarted gracefully (while preserving forwarding) if either peer sends a NOTIFICATION message due to some type of event or error.

When configured to false, NOTIFICATION messages are not supported.
  Default false
  Introduced 16.0.R1
 

Platforms

All
long-lived
  Synopsis Enable the long-lived context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived
  Tree long-lived
 

Description

Commands in this context configure the BGP Long-Lived Graceful-Restart (LLGR) procedures.

LLGR, known informally as BGP persistence, is an extension of BGP GR that allows a session to stay down for a longer period of time. During this time, learned routes are marked and re-advertised as stale but they can continue to be used as routes of last resort.

The LLGR handling of a session failure can be invoked immediately or it can be delayed until the end of the traditional GR restart window.
  Introduced 16.0.R1
 

Platforms

All
advertise-stale-to-all-neighbors boolean
  Synopsis Advertise stale routes to all BGP peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived advertise-stale-to-all-neighbors boolean
  Tree advertise-stale-to-all-neighbors
  Default false
  Introduced 16.0.R1
 

Platforms

All
advertised-stale-time number
  Synopsis Advertised long-lived stale time for LLGR routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived advertised-stale-time number
  Tree advertised-stale-time
  Range 0 to 16777215
  Default 86400
  Introduced 16.0.R1
 

Platforms

All
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived family keyword
  Tree family
  Introduced 16.0.R1
 

Platforms

All
[family-type] keyword
  Synopsis Family type for family-specific LLGR configuration
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived family keyword
  Options ipv4, vpn-ipv4, ipv6, vpn-ipv6, l2-vpn, flow-ipv4, route-target, flow-ipv6, label-ipv4, label-ipv6, flow-vpn-ipv4, flow-vpn-ipv6
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertised-stale-time number
  Synopsis LLGR stale routes time for family override
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived family keyword advertised-stale-time number
  Tree advertised-stale-time
 

Description

This command configures the long-lived stale routes time that is advertised by the router in its LLGR capability.

This command applies to all AFI/SAFI in the advertised LLGR capability with a family-specific override.
  Range 0 to 16777215
  Default 86400
  Introduced 16.0.R1
 

Platforms

All
helper-override-stale-time number
  Synopsis Locally-configured stale routes override time
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived family keyword helper-override-stale-time number
  Tree helper-override-stale-time
 

Description

This command configures a locally-imposed LLGR stale time that overrides the long-lived stale routes time that is advertised by the router in its LLGR capability. This is a family-specific override value.
  Range 0 to 16777216
  Default 16777216
  Introduced 16.0.R1
 

Platforms

All
forwarding-bits-set keyword
  Synopsis BGP LLGR forwarding-bit behavior for address family
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived forwarding-bits-set keyword
  Tree forwarding-bits-set
 

Description

This command determines the setting of the F bit in the GR and LLGR capabilities advertised by the router. When the F bit is set for an address family, it indicates that the advertising router is able to preserve forwarding state for the routes of that address family across the last restart. When the session is re-established after a restart and the F bit is not set, all stale routes from the peer are immediately removed for the corresponding address family.

This command allows the F bit to be set for all address families or only for non-forwarding address families (L2-VPN, route target, flow-IPv4, and flow-IPv6).
  Default none
  Options none, all, non-fwd
  Introduced 16.0.R1
 

Platforms

All
helper-override-restart-time number
  Synopsis Locally-configured override for restart time
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived helper-override-restart-time number
  Tree helper-override-restart-time
 

Description

This command overrides the restart time advertised by a peer (in its GR capability) with a locally-configured value. This override applies only to AFI/SAFI that were included in the GR capability of the peer. The restart-time is always zero for AFI/SAFI not included in the GR capability. This command is useful if the local router wants to force the LLGR phase to begin after a set time for all protected AFI/SAFI.
  Range 0 to 4095
  Introduced 16.0.R1
 

Platforms

All
helper-override-stale-time number
  Synopsis Locally-configured stale routes override time
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived helper-override-stale-time number
  Tree helper-override-stale-time
 

Description

This command configures a locally-imposed LLGR stale time that overrides the long-lived stale routes time that is advertised by the router in its LLGR capability.

This command applies to all AFI/SAFI in the advertised LLGR capability except for any AFI/SAFI with a family-specific override.
  Range 0 to 16777215
  Introduced 16.0.R1
 

Platforms

All
without-no-export boolean
  Synopsis Advertise LLGR stale routes to non-LLGR peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart long-lived without-no-export boolean
  Tree without-no-export
 

Description

When configured to true, LLGR stale routes can be advertised to any peer (EBGP or IBGP) that did not signal the LLGR capability. For IBGP and confederation-EBGP peers that did not advertise the LLGR capability, the local preference attribute in the advertised stale routes is automatically set to 0.

When configured to false, LLGR stale routes are not advertised to any EBGP peer that did not signal the LLGR capability. For IBGP and confederation-EBGP peers that did not advertise the LLGR capability, the local preference attribute in the advertised stale routes is automatically set to 0 and a NO_EXPORT standard community is automatically added to the routes.
  Default false
  Introduced 16.0.R1
 

Platforms

All
restart-time number
  Synopsis Restart time advertised by GR capability
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart restart-time number
  Tree restart-time
  Range 0 to 4095
  Default 300
  Introduced 16.0.R1
 

Platforms

All
stale-routes-time number
  Synopsis Maximum time to maintain routes after graceful restart
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) graceful-restart stale-routes-time number
  Tree stale-routes-time
  Range 1 to 3600
  Default 360
  Introduced 16.0.R1
 

Platforms

All
group reference
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis BGP peer group
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) group reference
  Tree group
 

Reference

configure router string bgp group string

 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
hold-time
  Synopsis Enter the hold-time context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) hold-time
  Tree hold-time
  Introduced 16.0.R1
 

Platforms

All
minimum-hold-time number
  Synopsis Minimum time BGP waits between successive messages
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) hold-time minimum-hold-time number
  Tree minimum-hold-time
  Range 0 | 3 to 65536
  Default 0
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Maximum hold time between successive messages
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) hold-time seconds number
  Tree seconds
 

Description

The BGP hold time specifies the maximum time BGP waits between successive messages (either keepalive or update) from its peer, before closing the connection.

Even though the implementation allows setting the keepalive timer at the BGP neighbor level times separately, the configured keepalive timer is overridden by this value under the following circumstances:

  • If the specified hold time is less than the configured keepalive time, then the operational keepalive time is set to a third of the hold-time; the configured keepalive time is not changed.

  • If the hold time is set to zero, the operational value of the keepalive time is set to zero; the configured keepalive time is not changed. This means that the connection with the peer is up permanently and no keepalive packets are sent to the peer.

When unconfigured, the command setting is inherited from the BGP group-level configuration.

  Range 0 | 3 to 65535
  Introduced 16.0.R1
 

Platforms

All
import
  Synopsis Enable the import context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) import
  Tree import
 

Description

Commands in this context specify route policies that control the handling of inbound routes received from certain peers. Route policies are configured in the configure policy-options context.

When this context is unconfigured, the policy association is inherited from the BGP group-level configuration.
  Introduced 16.0.R1
 

Platforms

All
policy (policy-expr-string | string)
  Synopsis Names of the BGP import policies
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) import policy (policy-expr-string | string)
  Tree policy
 

Description

This command specifies route policies that control the handling of inbound routes received from certain peers.

Each object in this command is either a policy logical expression or the name of a single policy. The objects are evaluated in the specified order to determine the modifications of each route and the final action to accept or reject the route.

Only one of the objects referenced by the command can be a policy logical expression consisting of policy names (enclosed in square brackets) and logical operators (AND, OR, NOT).

Policy parameters must be enclosed by at-signs (@) and may be midstring; for example, "@variable@," "start@variable@end"," @variable@end", or"start@variable@".
  String Length 1 to 255
  Max. Instances 15
  Min. Instances 1
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
initial-send-delay-zero boolean
  Synopsis Send BGP updates as soon as the session comes up
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) initial-send-delay-zero boolean
  Tree initial-send-delay-zero
 

Description

When configured to true, BGP updates are sent as soon as the session comes up.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, BGP waits to send UPDATE messages for the minimum route advertisement time after a session is established.
  Introduced 16.0.R1
 

Platforms

All
keepalive number
  Synopsis Time after which the BGP KEEPALIVE message is sent
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) keepalive number
  Tree keepalive
  Range 0 to 21845
  Introduced 16.0.R1
 

Platforms

All
l2vpn-cisco-interop boolean
  Synopsis Allow translation from Cisco non-compliant NLRI format
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) l2vpn-cisco-interop boolean
  Tree l2vpn-cisco-interop
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-preference number
  Synopsis Route preference for routes from labeled-unicast peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) label-preference number
  Tree label-preference
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
link-bandwidth
  Synopsis Enter the link-bandwidth context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth
  Tree link-bandwidth
  Introduced 16.0.R3
 

Platforms

All
accept-from-ebgp
  Synopsis Enable the accept-from-ebgp context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth accept-from-ebgp
  Tree accept-from-ebgp
  Introduced 16.0.R4
 

Platforms

All
ipv4 boolean
  Synopsis Support Link Bandwidth EC in IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth accept-from-ebgp ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
ipv6 boolean
  Synopsis Support Link Bandwidth EC in IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth accept-from-ebgp ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv4 boolean
  Synopsis Support Link Bandwidth EC in label-IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth accept-from-ebgp label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv6 boolean
  Synopsis Support Link Bandwidth EC in label-IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth accept-from-ebgp label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth accept-from-ebgp vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth accept-from-ebgp vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
add-to-received-ebgp
  Synopsis Enable the add-to-received-ebgp context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth add-to-received-ebgp
  Tree add-to-received-ebgp
  Introduced 16.0.R3
 

Platforms

All
ipv4 boolean
  Synopsis Support Link Bandwidth EC in IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth add-to-received-ebgp ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R3
 

Platforms

All
ipv6 boolean
  Synopsis Support Link Bandwidth EC in IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth add-to-received-ebgp ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R3
 

Platforms

All
label-ipv4 boolean
  Synopsis Support Link Bandwidth EC in label-IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth add-to-received-ebgp label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R3
 

Platforms

All
label-ipv6 boolean
  Synopsis Support Link Bandwidth EC in label-IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth add-to-received-ebgp label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R3
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth add-to-received-ebgp vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R3
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth add-to-received-ebgp vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R3
 

Platforms

All
aggregate-used-paths
  Synopsis Enable the aggregate-used-paths context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth aggregate-used-paths
  Tree aggregate-used-paths
  Introduced 16.0.R4
 

Platforms

All
ipv4 boolean
  Synopsis Support Link Bandwidth EC in IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth aggregate-used-paths ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
ipv6 boolean
  Synopsis Support Link Bandwidth EC in IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth aggregate-used-paths ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv4 boolean
  Synopsis Support Link Bandwidth EC in label-IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth aggregate-used-paths label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv6 boolean
  Synopsis Support Link Bandwidth EC in label-IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth aggregate-used-paths label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth aggregate-used-paths vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth aggregate-used-paths vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
send-to-ebgp
  Synopsis Enable the send-to-ebgp context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth send-to-ebgp
  Tree send-to-ebgp
  Introduced 16.0.R4
 

Platforms

All
ipv4 boolean
  Synopsis Support Link Bandwidth EC in IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth send-to-ebgp ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
ipv6 boolean
  Synopsis Support Link Bandwidth EC in IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth send-to-ebgp ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv4 boolean
  Synopsis Support Link Bandwidth EC in label-IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth send-to-ebgp label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
label-ipv6 boolean
  Synopsis Support Link Bandwidth EC in label-IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth send-to-ebgp label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth send-to-ebgp vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Support Link Bandwidth EC in VPN-IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) link-bandwidth send-to-ebgp vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
local-address (ipv4-address-no-zone | ipv6-address-no-zone | interface-name)
  Synopsis Local IP address used when communicating with BGP peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) local-address (ipv4-address-no-zone | ipv6-address-no-zone | interface-name)
  Tree local-address
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

All
local-as
  Synopsis Enter the local-as context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) local-as
  Tree local-as
  Introduced 16.0.R1
 

Platforms

All
as-number number
  Synopsis Local (or virtual) BGP AS number
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) local-as as-number number
  Tree as-number
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
prepend-global-as boolean
  Synopsis Prepend global ASN when advertising routes to BGP peer
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) local-as prepend-global-as boolean
  Tree prepend-global-as
 

Description

When configured to true, the global ASN is added to the AS_PATH attribute in outbound routes sent to the peer.

When configured to false, the global ASN is not included in the AS_PATH attribute.
  Default true
  Introduced 16.0.R1
 

Platforms

All
private boolean
  Synopsis Hide the local ASN in sent paths learned from peering
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) local-as private boolean
  Tree private
 

Description

When configured to true, the local AS number is only advertised to peers that use the local ASN for establishing BGP peering sessions.

When configured to false, the local ASN is advertised to all peers, including those that can use the global ASN for establishing BGP peering sessions.
  Default false
  Introduced 16.0.R1
 

Platforms

All
local-preference number
  Synopsis Default local preference if not in incoming routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) local-preference number
  Tree local-preference
  Range 0 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
loop-detect keyword
  Synopsis Strategy for loop detection in the AS path
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) loop-detect keyword
  Tree loop-detect
  Options drop-peer, ignore-loop, off, discard-route
  Introduced 16.0.R1
 

Platforms

All
loop-detect-threshold number
  Synopsis Threshold for the global ASN in a received AS path
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) loop-detect-threshold number
  Tree loop-detect-threshold
  Range 0 to 15
  Introduced 16.0.R6
 

Platforms

All
med-out (number | keyword)
  Synopsis Default MED attribute value to advertise to peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) med-out (number | keyword)
  Tree med-out
  Max. Range 0 to 4294967295
  Options igp-cost
  Introduced 16.0.R1
 

Platforms

All
min-route-advertisement number
  Synopsis Minimum interval between successive prefix updates
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) min-route-advertisement number
  Tree min-route-advertisement
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
monitor
  Synopsis Enable the monitor context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) monitor
  Tree monitor
 

Description

Commands in this context specify BMP-related configurations at the BGP neighbor level.

When this context is unconfigured, the command settings are inherited from the BGP group-level configuration.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BMP monitoring
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) monitor admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
all-stations boolean
  Synopsis Send BMP messages to all configured stations
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) monitor all-stations boolean
  Tree all-stations
 

Description

When configured to true, this command specifies that BMP messages are to be sent to all configured BMP monitoring stations.

When configured to false, the command is not used to indicate the stations which can receive BMP messages. The station command (at the same context level) identifies the BMP stations for which BMP messages are to be sent.
  Default false
  Introduced 16.0.R1
 

Platforms

All
route-monitoring
  Synopsis Enter the route-monitoring context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) monitor route-monitoring
  Tree route-monitoring
  Introduced 16.0.R1
 

Platforms

All
post-policy boolean
  Synopsis Allow post-policy route-monitoring messages to be sent
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) monitor route-monitoring post-policy boolean
  Tree post-policy
  Default false
  Introduced 16.0.R1
 

Platforms

All
pre-policy boolean
  Synopsis Allow pre-policy route-monitoring messages to be sent
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) monitor route-monitoring pre-policy boolean
  Tree pre-policy
  Default false
  Introduced 16.0.R1
 

Platforms

All
station [station-name] reference
  Synopsis Add a list entry for station
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) monitor station reference
  Tree station
 

Description

This command configures the set of BMP monitoring stations for which BMP messages are to be sent.
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

All
[station-name] reference
  Synopsis BMP monitoring station
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) monitor station reference
 

Reference

configure bmp station string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
multihop number
  Synopsis TTL in IP packet headers for EBGP peers multi-hops away
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) multihop number
  Tree multihop
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
multipath-eligible boolean
  Synopsis Allow routes from this peer in multipath eligibility
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) multipath-eligible boolean
  Tree multipath-eligible
  Introduced 19.5.R1
 

Platforms

All
next-hop-self boolean
  Synopsis Advertise routes with local address as next-hop address
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) next-hop-self boolean
  Tree next-hop-self
 

Description

When configured to true, this command configures BGP to advertise routes to members of a group using a local address of the BGP instance as the BGP next-hop address.

Note that this command is set without exception, regardless of the route source (EBGP or IBGP) or its family. When used with VPN-IPv4 and VPN-IPv6 routes, the configure router bgp rr-vpn-forwarding command should also be configured.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, protocol standard behavior is applied to determine whether to set next-hop-self in advertised routes.
  Introduced 16.0.R1
 

Platforms

All
next-hop-unchanged
  Synopsis Enable the next-hop-unchanged context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) next-hop-unchanged
  Tree next-hop-unchanged
 

Description

Commands in this context specify the IP address families where the next hop remains unchanged when sending BGP routes to peers of the neighbor.
  Introduced 16.0.R1
 

Platforms

All
evpn boolean
  Synopsis Advertise EVPN routes with unchanged BGP next hop
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) next-hop-unchanged evpn boolean
  Tree evpn
  Default false
  Introduced 20.2.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Advertise label-IPv4 routes with unchanged BGP next hop
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) next-hop-unchanged label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Advertise label-IPv6 routes with unchanged BGP next hop
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) next-hop-unchanged label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Advertise VPN IPv4 routes with unchanged BGP next hop
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) next-hop-unchanged vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 20.2.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Advertise VPN IPv6 routes with unchanged BGP next hop
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) next-hop-unchanged vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 20.2.R1
 

Platforms

All
origin-validation
  Synopsis Enable the origin-validation context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) origin-validation
  Tree origin-validation
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Enable support for unlabeled unicast IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) origin-validation ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Enable support for unlabeled unicast IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) origin-validation ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Enable support for labeled-unicast IPv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) origin-validation label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Enable support for labeled-unicast IPv6 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) origin-validation label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
outbound-route-filtering
  Synopsis Enable the outbound-route-filtering context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) outbound-route-filtering
  Tree outbound-route-filtering
 

Description

Commands in this context configure the send and receive capabilities for Outbound Route Filtering (ORF).

When this context is unconfigured, the command settings are inherited from the BGP group-level configuration.
  Introduced 16.0.R1
 

Platforms

All
extended-community
  Synopsis Enable the extended-community context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) outbound-route-filtering extended-community
  Tree extended-community
 

Description

Commands in this context configure the ORF send and receive capabilities based on Extended Communities.

When this context is unconfigured, the command settings are inherited from the group-level configuration.
  Introduced 16.0.R1
 

Platforms

All
accept-orf boolean
  Synopsis Negotiate with peer to accept BGP ORF filters
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) outbound-route-filtering extended-community accept-orf boolean
  Tree accept-orf
 

Description

When configured to true, the receive capability in the BGP ORF is negotiated with a peer and ORF filters can be accepted from peers.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the accept capability in the BGP ORF is removed and any existing ORF filters that are currently in place are cleared.
  Introduced 16.0.R1
 

Platforms

All
send-orf
  Synopsis Enable the send-orf context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) outbound-route-filtering extended-community send-orf
  Tree send-orf
 

Description

Commands in this context allow BGP to negotiate the send capability in the ORF negotiation with a peer. The send capability also causes the router to send a community filter, prefix filter, or AS path filter configured as an inbound filter on the BGP session to its peer as an ORF Action ADD.

When this context is unconfigured, the command settings are inherited from the BGP group-level configuration.
  Introduced 16.0.R1
 

Platforms

All
route-target [community-name] string
  Synopsis Add a list entry for route-target
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) outbound-route-filtering extended-community send-orf route-target string
  Tree route-target
  Introduced 16.0.R1
 

Platforms

All
[community-name] string
  Synopsis Route target community name
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) outbound-route-filtering extended-community send-orf route-target string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
passive boolean
  Synopsis Use passive mode for BGP communication
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) passive boolean
  Tree passive
  Introduced 16.0.R1
 

Platforms

All
path-mtu-discovery boolean
  Synopsis Enable path MTU discovery
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) path-mtu-discovery boolean
  Tree path-mtu-discovery
 

Description

When configured to true, Path MTU Discovery (PMTUD) is enabled for the associated TCP connections.

When set to true, PMTUD is activated toward an IPv4 BGP neighbor and the Don’t Fragment (DF) bit is set in the IP header of all IPv4 packets sent to the peer. If any device along the path toward the peer cannot forward the packet because the IP MTU of the interface is smaller than the IP packet size, this device drops the packet and sends an ICMP or ICMPv6 error message encoding the interface MTU. When the router receives the ICMP or ICMPv6 message, it lowers the TCP maximum segment size limit from the previous value so that the IP MTU constraint can be accommodated.

When PMTUD is configured to false and there is no TCP MSS configuration that can be associated with a BGP neighbor (in either the BGP configuration or the first hop IP interface configuration), the router advertises a value of only 1024 bytes as the TCP MSS option value, limiting received TCP segments to that size.
  Introduced 16.0.R1
 

Platforms

All
peer-as number
  Synopsis Peer AS number
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) peer-as number
  Tree peer-as
 

Description

This command configures the autonomous system number for the peer. The peer AS number must be configured for each configured peer.

For EBGP peers, the peer AS number configured must be different from the autonomous system number configured for this router under the global level since the peer will be in a different autonomous system than this router.

For IBGP peers, the peer AS number must be the same as the autonomous system number of this router configured under the global level.
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
peer-creation-type keyword
  Synopsis Peer creation type
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) peer-creation-type keyword
  Tree peer-creation-type
  Default static
  Options static, dynamic
  Introduced 16.0.R1
 

Platforms

All
peer-ip-tracking boolean
  Synopsis Enable BGP peer tracking
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) peer-ip-tracking boolean
  Tree peer-ip-tracking
 

Description

When configured to true, this command enables BGP peer tracking.

Peer tracking should be used with caution. Peer tracking can tear a session down even if the loss of connectivity turns out to be short-lived (for example, while the IGP protocol is re-converging). Next-hop tracking, which is always enabled, handles temporary connectivity issues more effectively.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, peer tracking is disabled.
  Introduced 16.0.R1
 

Platforms

All
preference number
  Synopsis Route preference for routes learned from all peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) preference number
  Tree preference
 

Description

This command configures the route preference for routes learned from the configured peers.

The lower the preference value, the higher the chance of the route being the active route. The router assigns BGP routes the highest default preference as compared to routes that are direct, static or learned via MPLS or OSPF.

When unconfigured, the command setting is inherited from the group-level configuration.
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
prefix-limit [family] keyword
  Synopsis Enter the prefix-limit list instance
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) prefix-limit keyword
  Tree prefix-limit
  Introduced 16.0.R1
 

Platforms

All
[family] keyword
  Synopsis Address family to which the limit applies
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) prefix-limit keyword
  Options ipv4, vpn-ipv4, ipv6, mcast-ipv4, vpn-ipv6, l2-vpn, mvpn-ipv4, mdt-safi, ms-pw, flow-ipv4, route-target, mcast-vpn-ipv4, mvpn-ipv6, flow-ipv6, evpn, mcast-ipv6, label-ipv4, label-ipv6, bgp-ls, mcast-vpn-ipv6, sr-policy-ipv4, sr-policy-ipv6, flow-vpn-ipv4, flow-vpn-ipv6
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
idle-timeout number
  Synopsis Time which BGP peering remains idle before reconnecting
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) prefix-limit keyword idle-timeout number
  Tree idle-timeout
 

Description

This command defines the idle time after an administrative take-down before BGP re-establishes a session and reconnects to a peer.

When unconfigured, the command inherits the value from the group-level configuration.
  Range 1 to 1024
  Introduced 16.0.R1
 

Platforms

All
log-only boolean
  Synopsis Send warning message at threshold instead of take-down
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) prefix-limit keyword log-only boolean
  Tree log-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
maximum number
  Synopsis Maximum number of routes to be learned from a peer
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) prefix-limit keyword maximum number
  Tree maximum
 

Description

This command configures the maximum number of BGP routes than can be received from a peer before administrative action is taken.
  Range 1 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R2
 

Platforms

All
post-import boolean
  Synopsis Apply limit only to routes accepted by import policies
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) prefix-limit keyword post-import boolean
  Tree post-import
  Default false
  Introduced 16.0.R1
 

Platforms

All
threshold number
  Synopsis Percentage threshold that triggers a warning message
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) prefix-limit keyword threshold number
  Tree threshold
  Range 1 to 100
  Default 90
  Introduced 16.0.R1
 

Platforms

All
remove-private
  Synopsis Enable the remove-private context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) remove-private
  Tree remove-private
  Introduced 16.0.R1
 

Platforms

All
limited boolean
  Synopsis Remove private ASNs up to first public ASN encountered
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) remove-private limited boolean
  Tree limited
  Default false
  Introduced 16.0.R1
 

Platforms

All
replace boolean
  Synopsis Replace private ASN with global ASN before advertising
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) remove-private replace boolean
  Tree replace
  Default false
  Introduced 19.10.R1
 

Platforms

All
skip-peer-as boolean
  Synopsis Keep private ASN if it is the same as the BGP peer ASN
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) remove-private skip-peer-as boolean
  Tree skip-peer-as
  Default false
  Introduced 16.0.R1
 

Platforms

All
segment-routing-v6
  Synopsis Enable the segment-routing-v6 context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) segment-routing-v6
  Tree segment-routing-v6
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
route-advertisement
  Synopsis Enable the route-advertisement context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) segment-routing-v6 route-advertisement
  Tree route-advertisement
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
drop-routes-with-srv6-tlvs boolean
  Synopsis Drop BGP routes with SRv6 TLVs
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) segment-routing-v6 route-advertisement drop-routes-with-srv6-tlvs boolean
  Tree drop-routes-with-srv6-tlvs
 

Description

When configured to true, the router drops and does not advertise BGP routes (that belong to any address family) with SRv6 TLVs.

When configured to false, the router advertises BGP routes with SRv6 TLVs.
  Default false
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) segment-routing-v6 route-advertisement family keyword
  Tree family
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[family-type] keyword
  Synopsis IP address type that SRv6 route attributes apply to
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) segment-routing-v6 route-advertisement family keyword
  Options ipv4, ipv6
 

Notes

This element is part of a list key.
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
strip-srv6-tlvs boolean
  Synopsis Strip SRv6 TLVs from BGP routes advertised to peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) segment-routing-v6 route-advertisement family keyword strip-srv6-tlvs boolean
  Tree strip-srv6-tlvs
 

Description

When configured to true, BGP routes that belong to the address family specified using the family command are advertised to peers with SRv6 TLVs removed. Locally or remotely added SRv6 TLVs can be removed.

When configured to false, SRv6 TLVs are not stripped from BGP routes advertised to peers.
  Default false
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
selective-label-ipv4-install boolean
  Synopsis Enable selective download for BGP label-ipv4 routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) selective-label-ipv4-install boolean
  Tree selective-label-ipv4-install
  Introduced 19.10.R1
 

Platforms

All
send-communities
  Synopsis Enter the send-communities context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) send-communities
  Tree send-communities
  Introduced 16.0.R1
 

Platforms

All
extended boolean
  Synopsis Advertise the Extended Communities attribute to peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) send-communities extended boolean
  Tree extended
 

Description

When unconfigured, this command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to true.

When this command inherits a value of true, BGP extended communities are sent to peers in the Extended Communities attribute.

When configured to false, all extended communities are removed from all routes advertised to BGP peers.

  Introduced 16.0.R1
 

Platforms

All
large boolean
  Synopsis Advertise the Large Communities attribute to peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) send-communities large boolean
  Tree large
 

Description

When unconfigured, this command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to true.

When this command inherits a value of true, BGP large communities are sent to peers in the Large Communities attribute.

When configured to false, all large communities are removed from all routes advertised to BGP peers.

  Introduced 16.0.R1
 

Platforms

All
standard boolean
  Synopsis Advertise the Communities attribute to peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) send-communities standard boolean
  Tree standard
 

Description

When unconfigured, this command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to true.

When this command inherits a value of true, BGP standard communities are sent to peers in the Communities attribute.

When configured to false, all standard communities are removed from all routes advertised to BGP peers.

  Introduced 16.0.R1
 

Platforms

All
send-default
  Synopsis Enable the send-default context
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) send-default
  Tree send-default
  Introduced 19.7.R1
 

Platforms

All
export-policy reference
  Synopsis Export policy name
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) send-default export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Introduced 19.7.R1
 

Platforms

All
ipv4 boolean
  Synopsis Enable IPv4 family type
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) send-default ipv4 boolean
  Tree ipv4
  Default false
  Introduced 19.7.R1
 

Platforms

All
ipv6 boolean
  Synopsis Enable IPv6 family type
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) send-default ipv6 boolean
  Tree ipv6
  Default false
  Introduced 19.7.R1
 

Platforms

All
split-horizon boolean
  Synopsis Prevent routes being reflected back to best-route peer
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) split-horizon boolean
  Tree split-horizon
 

Description

When configured to true, this command enables the use of split-horizon.

This command prevents routes from being reflected back to a peer that sends the best route. It applies to routes of all address families and to any type of sending peer; confed-EBGP, EBGP and IBGP.

Enabling the split-horizon functionality may have a detrimental impact on peer and route scaling and should only be used when absolutely necessary.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the use of split-horizon is disabled.
  Introduced 16.0.R1
 

Platforms

All
tcp-mss (number | keyword)
  Synopsis TCP maximum segment size override
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) tcp-mss (number | keyword)
  Tree tcp-mss
 

Description

This command configures an override for the TCP maximum segment size to use with a specific peer or set of peers (depending on the scope of the command).

The configured value controls two properties of the TCP connection as follows:

TCP MSS option - The router advertises the TCP MSS option value in the TCP SYN packet it sends as part of the 3-way handshake. The advertised value may be lower than the configured value, depending on the IP MTU of the first hop IP interface. The peers must abide by this value when sending TCP segments to the local router.

TCP maximum segment size - The actual transmitted size may be lower than the configured value, depending on the TCP MSS option value signaled by the peers, the effect of path MTU discovery, or other factors.
  Range 384 to 9746
  Options ip-stack
  Introduced 21.2.R1
 

Platforms

All
third-party-nexthop boolean
  Synopsis Apply third-party next-hop processing to EBGP peers
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) third-party-nexthop boolean
  Tree third-party-nexthop
  Introduced 16.0.R1
 

Platforms

All
ttl-security number
  Synopsis Minimum TTL value for an incoming BGP packet
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) ttl-security number
  Tree ttl-security
 

Description

This command configures the minimum TTL value that BGP will accept from an incoming packet. A packet with a TTL value less than the minimum configured TTL value is discarded.

When unconfigured, the command inherits the value of the group-level setting.
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
type keyword
  Synopsis BGP peer type
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) type keyword
  Tree type
  Options no-type, internal, external
  Introduced 16.0.R1
 

Platforms

All
vpn-apply-export boolean
  Synopsis Apply base-instance BGP export policies to VPN routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) vpn-apply-export boolean
  Tree vpn-apply-export
 

Description

When configured to true, base-instance BGP export route policies are applied to VPN-IPv4/6, MVPN-IPv4/6, L2-VPN, MDT-SAFI, MCAST-VPN-IPv4, and EVPN routes.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the export policies are not applied.
  Introduced 16.0.R1
 

Platforms

All
vpn-apply-import boolean
  Synopsis Apply base-instance BGP import policies to VPN routes
  Context configure router string bgp neighbor (ipv4-address-with-zone | ipv6-address-with-zone) vpn-apply-import boolean
  Tree vpn-apply-import
 

Description

When configured to true, base-instance BGP import route policies are applied to VPN-IPv4/6, MVPN-IPv4/6, L2-VPN, MDT-SAFI, MCAST-VPN-IPv4, and EVPN routes.

When unconfigured, the command inherits the value of the group-level setting (true or false). The command cannot be explicitly configured to false.

When this command inherits a value of false, the import policies are not applied.
  Introduced 16.0.R1
 

Platforms

All
neighbor-trust
  Synopsis Enter the neighbor-trust context
  Context configure router string bgp neighbor-trust
  Tree neighbor-trust
 

Description

Commands in this context enable a label security feature at an inter-AS boundary for the specified IP families.

This label security feature allows the configuration of a router, acting in a PE or in an ASBR role, to accept packets of VPRN prefixes only from direct EBGP neighbors to which it advertised a VPRN label.

The untrusted state identifies the participating interfaces. The router supports a maximum of 15 network interfaces that can participate in this feature.

At a high level, BGP tracks each direct EBGP neighbor over an untrusted interface and to which it sent a VPRN prefix label. For each of those VPRN prefixes, BGP programs a bit map in the ILM record that indicates, on a per-untrusted interface basis, whether the matching received packets must be forwarded or dropped.
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Enable inter-AS label security for the VPN-IPv4 family
  Context configure router string bgp neighbor-trust vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Enable inter-AS label security for the VPN-IPv6 family
  Context configure router string bgp neighbor-trust vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R4
 

Platforms

All
next-hop-resolution
  Synopsis Enter the next-hop-resolution context
  Context configure router string bgp next-hop-resolution
  Tree next-hop-resolution
  Introduced 16.0.R1
 

Platforms

All
allow-unresolved-leaking boolean
  Synopsis Allow unresolved BGP routes to be leaked to VPRN routes
  Context configure router string bgp next-hop-resolution allow-unresolved-leaking boolean
  Tree allow-unresolved-leaking
 

Description

When configured to true, this command instructs BGP in the base router instance to allow its routes to be leaked to other (VPRN) BGP instances even if the routes to be leaked do not have a BGP next-hop that can be resolved by the base instance.

When configured to false, VPRN cannot import a route.
  Default false
  Introduced 19.10.R1
 

Platforms

All
labeled-routes
  Synopsis Enter the labeled-routes context
  Context configure router string bgp next-hop-resolution labeled-routes
  Tree labeled-routes
  Introduced 16.0.R1
 

Platforms

All
allow-static boolean
  Synopsis Allow static routes to resolve BGP next-hop
  Context configure router string bgp next-hop-resolution labeled-routes allow-static boolean
  Tree allow-static
 

Description

When configured to true, the BGP next-hop of label-IPv4, label-IPv6, VPN-IPv4, and VPN-IPv6 routes received from any EBGP or IBGP peer can be resolved using static routes, except for static default routes (0/0 and ::/0).

A static route is less preferred than a local or interface route for resolving the BGP next-hop of labeled route but is more preferred than other IGP routes or tunnels.

When configured to false, BGP next-hop resolution using static routes is not allowed.

A label-IPv4 or label-IPv6 route can be resolved by a static blackhole route, even when this command is configured to false, but only if the static blackhole route is the longest prefix match (LPM) static route for the BGP next-hop address.
  Default false
  Introduced 16.0.R1
 

Platforms

All
rr-use-route-table boolean
  Synopsis Use RTM to resolve BGP next-hop if TTM resolution fails
  Context configure router string bgp next-hop-resolution labeled-routes rr-use-route-table boolean
  Tree rr-use-route-table
 

Description

When configured to true, this command enables BGP to perform a lookup of IGP routes in the route table to resolve the BGP next-hop of label-IPv4 and label-IPv6 routes. This is useful for a Route Reflector (RR) that does not participate in tunnel signaling protocols such as LDP and RSVP and therefore, does not have tunnels to resolve the BGP next-hops of label-unicast routes.

Disable route table installation (via the route-table-install command) before setting this command to true; otherwise, forwarding of label routes resolved in this way will be incorrect.

When configured to false, RTM next-hop resolution is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
transport-tunnel
  Synopsis Enter the transport-tunnel context
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel
  Tree transport-tunnel
 

Description

Commands in this context configure options for the next-hop resolution of BGP labeled routes (VPN-IP and labeled-unicast) using tunnels in TTM.
  Introduced 16.0.R1
 

Platforms

All
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword
  Tree family
  Introduced 16.0.R1
 

Platforms

All
[family-type] keyword
  Synopsis Address family type for tunnel selection
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword
  Options vpn, label-ipv4, label-ipv6
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
allow-flex-algo-fallback boolean
  Synopsis Enable flexible algorithm fallback
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword allow-flex-algo-fallback boolean
  Tree allow-flex-algo-fallback
 

Description

When configured to true, a BGP router with a Flex-Algorithm action configured (via the configure policy-options policy-statement entry action flex-algo command) can resolve to a tunnel with algorithm 0 if no target Flex-Algorithm tunnel is available.

When configured to false, the BGP router can resolve only to the intended Flex-Algorithm tunnel, which may cause traffic loss if no corresponding Flex-Algorithm tunnel is available.
  Default false
  Introduced 20.10.R1
 

Platforms

All
enforce-strict-tunnel-tagging boolean
  Synopsis Consider only LSPs with an admin-tag for next hop
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword enforce-strict-tunnel-tagging boolean
  Tree enforce-strict-tunnel-tagging
 

Description

When configured to true, the system only considers LSPs marked with an administrative tag for next-hop resolution. Untagged LSPs are not considered.

When configured to false, matching admin-tagged RSVP or SR-TE LSPs are used in preference to other LSP types, whether tagged or untagged. If no eligible RSVP or SR-TE LSP exists, the system falls back to using tagged LSPs that are not explicitly excluded by a route admin tag policy and untagged LSPs of other types.
  Default false
  Introduced 16.0.R1
 

Platforms

All
resolution keyword
  Synopsis Resolution mode for binding BGP routes to tunnel types
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution keyword
  Tree resolution
  Default filter
  Options none, filter, any
  Introduced 16.0.R1
 

Platforms

All
resolution-filter
  Synopsis Enter the resolution-filter context
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter
  Tree resolution-filter
  Introduced 16.0.R1
 

Platforms

All
bgp boolean
  Synopsis Use BGP tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter bgp boolean
  Tree bgp
 

Description

When configured to true, this command enables the selection of BGP tunneling for next-hop resolution and specifies the IPv4 tunnels created by receiving BGP label-unicast IPv4 routes for /32 IPv4 prefixes.

When configured to false, BGP tunneling for next-hop resolution is not enabled.
  Introduced 16.0.R1
 

Platforms

All
ldp boolean
  Synopsis Use LDP tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter ldp boolean
  Tree ldp
 

Description

When configured to true, this command enables the selection of LDP tunneling for next-hop resolution and specifies the LDP tunnels in the tunnel table corresponding to /32 IPv4 FECs and /128 IPv6 FECs.

When configured to false, LDP tunneling for next-hop resolution is not enabled.
  Default true
  Introduced 16.0.R1
 

Platforms

All
mpls-fwd-policy boolean
  Synopsis Use MPLS forwarding policy for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter mpls-fwd-policy boolean
  Tree mpls-fwd-policy
  Default false
  Introduced 16.0.R4
 

Platforms

All
rib-api boolean
  Synopsis Use RIB API gRPC service for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter rib-api boolean
  Tree rib-api
  Default false
  Introduced 16.0.R4
 

Platforms

All
rsvp boolean
  Synopsis Use RSVP tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter rsvp boolean
  Tree rsvp
 

Description

When configured to true, this command enables the selection of RSVP tunneling for next-hop resolution and specifies RSVP tunnels in a tunnel table to IPv4 destinations.

This option allows BGP to use the best metric RSVP LSP to the address of the BGP next hop. This address can correspond to the system interface or to another loopback interface of the remote BGP router. In the case of multiple RSVP LSPs with the same lowest metric, BGP selects the LSP with the lowest tunnel ID.

When configured to false, this command disables the selection of RSVP tunneling for next-hop resolution.
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-isis boolean
  Synopsis Use IS-IS SR tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter sr-isis boolean
  Tree sr-isis
 

Description

When configured to true, this command enables the selection of the Segment Routing (SR) tunnel type programmed by an IS-IS instance in the TTM for next-hop resolution of BGP routes and labeled routes.

This command allows BGP to use the segment-routing tunnel in the tunnel table submitted by the lowest preference IS-IS instance or, in case of a tie, the lowest numbered IS-IS instance.

When configured to false, the SR tunnel type programmed by an IS-IS instance in the TTM for next-hop resolution is not enabled for selection.
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-ospf boolean
  Synopsis Use OSPF SR tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter sr-ospf boolean
  Tree sr-ospf
 

Description

When configured to true, this command enables the selection of the Segment Routing (SR) tunnel type programmed by an OSPF instance in the TTM for next-hop resolution of BGP routes and labeled routes.

This command allows BGP to use the segment routing tunnel in the tunnel table submitted by the lowest preference OSPF instance or, in case of a tie, the lowest numbered OSPF instance.

When configured to false, the SR tunnel type programmed by an OSPF instance in the TTM for next-hop resolution is not enabled for selection.
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-ospf3 boolean
  Synopsis Use OSPFv3 SR tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter sr-ospf3 boolean
  Tree sr-ospf3
 

Description

When configured to true, this command enables the selection of the IPv6 Segment Routing (SR) tunnel type programmed by an OSPFv3 instance in the TTMv6 for next-hop resolution of BGP routes and labeled routes.

This command allows BGP to use the segment routing tunnel in the tunnel table submitted by the lowest preference OSPFv3 instance or, in case of a tie, the lowest numbered OSPFv3 instance.

When configured to false, the SR tunnel type programmed by an OSPFv3 instance in the TTM for next-hop resolution is not enabled for selection.
  Default false
  Introduced 16.0.R6
 

Platforms

All
sr-policy boolean
  Synopsis Use SR policies for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter sr-policy boolean
  Tree sr-policy
 

Description

When configured to true, this command enables the use of segment routing policies to resolve the BGP next hop of certain BGP routes (depending on the context).

The segment routing policies that are considered are statically configured in the local router or learned by BGP routes (AFI 1/SAFI 73). For a BGP route to be resolved by an SR policy, the highest numbered color extended community attached to BGP route must match the color of the SR policy. Next hop resolution of VPN-IP routes by SR policies is not supported.

When configured to false, segment routing policies are not enabled for next-hop resolution.
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-te boolean
  Synopsis Use SR-TE tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter sr-te boolean
  Tree sr-te
 

Description

When configured to true, this command enables the selection of the Segment Routing (SR) tunnel type programmed by a traffic engineered (TE) instance in the TTM for next-hop resolution.

In the case of multiple SR-TE tunnels with the same lowest metric, BGP selects the tunnel with the lowest tunnel ID.

When configured to false, the SR tunnel type programmed by a TE instance in the TTM for next-hop resolution is not enabled for selection.
  Default false
  Introduced 16.0.R1
 

Platforms

All
udp boolean
  Synopsis Use MPLS over UDP tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution labeled-routes transport-tunnel family keyword resolution-filter udp boolean
  Tree udp
  Default false
  Introduced 16.0.R1
 

Platforms

All
use-bgp-routes
  Synopsis Enter the use-bgp-routes context
  Context configure router string bgp next-hop-resolution labeled-routes use-bgp-routes
  Tree use-bgp-routes
  Introduced 21.2.R1
 

Platforms

All
label-ipv6-explicit-null boolean
  Synopsis Use BGP routes to resolve address family routes
  Context configure router string bgp next-hop-resolution labeled-routes use-bgp-routes label-ipv6-explicit-null boolean
  Tree label-ipv6-explicit-null
 

Description

When configured to true, a labeled IPv6 route with the explicit-null label can be resolved by other routes, and also by unlabeled IPv4 routes and unlabeled IPv6 routes that are resolved by static routes, interface routes, or tunnels. Up to four levels of recursive resolution are supported when the top route is a labeled IPv6 route with an explicit-null label. When disabled, a labeled IPv6 route cannot be resolved by other labeled IPv6 routes.

A labeled IPv6 route with a regular label (not explicit-null) is never resolved by other labeled IPv6 routes.
  Default false
  Introduced 21.2.R1
 

Platforms

All
policy reference
  Synopsis Policy that filters routes for BGP next-hop resolution
  Context configure router string bgp next-hop-resolution policy reference
  Tree policy
 

Reference

configure policy-options policy-statement string

  Introduced 16.0.R1
 

Platforms

All
shortcut-tunnel
  Synopsis Enter the shortcut-tunnel context
  Context configure router string bgp next-hop-resolution shortcut-tunnel
  Tree shortcut-tunnel
 

Description

Commands in this context configure the tunnel types that can be used to resolve unlabeled IPv4 and IPv6 BGP routes.
  Introduced 16.0.R1
 

Platforms

All
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword
  Tree family
  Introduced 16.0.R1
 

Platforms

All
[family-type] keyword
  Synopsis Address family type for shortcut tunnel selection
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword
  Options ipv4, ipv6
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
allow-flex-algo-fallback boolean
  Synopsis Enable flexible algorithm fallback
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword allow-flex-algo-fallback boolean
  Tree allow-flex-algo-fallback
 

Description

When configured to true, a BGP router with a Flex-Algorithm action configured (via the configure policy-options policy-statement entry action flex-algo command) can resolve to a tunnel with algorithm 0 if no target Flex-Algorithm tunnel is available.

When configured to false, the BGP router can resolve only to the intended Flex-Algorithm tunnel, which may cause traffic loss if no corresponding Flex-Algorithm tunnel is available.
  Default false
  Introduced 20.10.R1
 

Platforms

All
disallow-igp boolean
  Synopsis Do not perform route table lookup to resolve BGP route
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword disallow-igp boolean
  Tree disallow-igp
 

Description

When configured to true, no attempt is made to resolve the IPv4 or IPv6 BGP route using route table lookup if no resolving tunnel can be found in the tunnel table.

When configured to false, route table lookup can be performed if no resolving tunnel is found in the tunnel table.
  Default false
  Introduced 16.0.R1
 

Platforms

All
enforce-strict-tunnel-tagging boolean
  Synopsis Consider only LSPs with an admin-tag for next hop
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword enforce-strict-tunnel-tagging boolean
  Tree enforce-strict-tunnel-tagging
 

Description

When configured to true, the system only considers LSPs marked with an administrative tag for next-hop resolution. Untagged LSPs are not considered.

When configured to false, matching admin-tagged RSVP or SR-TE LSPs are used in preference to other LSP types, whether tagged or untagged. If no eligible RSVP or SR-TE LSP exists, the system falls back to using tagged LSPs that are not explicitly excluded by a route admin tag policy and untagged LSPs of other types.
  Default false
  Introduced 16.0.R1
 

Platforms

All
resolution keyword
  Synopsis Resolution mode for binding BGP routes to tunnel types
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution keyword
  Tree resolution
  Default none
  Options none, filter, any
  Introduced 16.0.R1
 

Platforms

All
resolution-filter
  Synopsis Enter the resolution-filter context
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter
  Tree resolution-filter
  Introduced 16.0.R1
 

Platforms

All
bgp boolean
  Synopsis Use BGP tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter bgp boolean
  Tree bgp
 

Description

When configured to true, this command enables the selection of BGP tunneling for next-hop resolution and specifies the IPv4 tunnels created by receiving BGP label-unicast IPv4 routes for /32 IPv4 prefixes.

When configured to false, BGP tunneling for next-hop resolution is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
ldp boolean
  Synopsis Use LDP tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter ldp boolean
  Tree ldp
 

Description

When configured to true, BGP selects the LDP FEC that is the longest prefix match to the BGP next-hop address.

When configured to false, LDP tunneling for next-hop resolution is not enabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
mpls-fwd-policy boolean
  Synopsis Use MPLS forwarding policy for next-hop resolution
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter mpls-fwd-policy boolean
  Tree mpls-fwd-policy
  Default false
  Introduced 16.0.R4
 

Platforms

All
rib-api boolean
  Synopsis Use RIB API gRPC service for next-hop resolution
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter rib-api boolean
  Tree rib-api
  Default false
  Introduced 16.0.R4
 

Platforms

All
rsvp boolean
  Synopsis Use RSVP tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter rsvp boolean
  Tree rsvp
 

Description

When configured to true, this command enables the selection of RSVP tunneling for next-hop resolution and specifies RSVP tunnels in a tunnel table to IPv4 destinations.

This option allows BGP to use the best metric RSVP LSP to the address of the BGP next hop. This address can correspond to the system interface or to another loopback interface of the remote BGP router. In the case of multiple RSVP LSPs with the same lowest metric, BGP selects the LSP with the lowest tunnel ID.

When configured to false, this command disables the selection of RSVP tunneling for next-hop resolution.
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-isis boolean
  Synopsis Use IS-IS SR tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter sr-isis boolean
  Tree sr-isis
 

Description

When configured to true, this command enables the selection of the Segment Routing (SR) tunnel type programmed by an IS-IS instance in the TTM for next-hop resolution of BGP routes and labeled routes.

This command allows BGP to use the segment-routing tunnel in the tunnel table submitted by the lowest preference IS-IS instance or, in case of a tie, the lowest numbered IS-IS instance.

When configured to false, the SR tunnel type programmed by an IS-IS instance in the TTM for next-hop resolution is not enabled for selection.
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-ospf boolean
  Synopsis Use OSPF SR tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter sr-ospf boolean
  Tree sr-ospf
 

Description

When configured to true, this command enables the selection of the Segment Routing (SR) tunnel type programmed by an OSPF instance in the TTM for next-hop resolution of BGP routes and labeled routes.

This command allows BGP to use the segment routing tunnel in the tunnel table submitted by the lowest preference OSPF instance or, in case of a tie, the lowest numbered OSPF instance.

When configured to false, the SR tunnel type programmed by an OSPF instance in the TTM for next-hop resolution is not enabled for selection.
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-ospf3 boolean
  Synopsis Use OSPFv3 SR tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter sr-ospf3 boolean
  Tree sr-ospf3
 

Description

When configured to true, this command enables the selection of the IPv6 Segment Routing (SR) tunnel type programmed by an OSPFv3 instance in the TTMv6 for next-hop resolution of BGP routes and labeled routes.

This command allows BGP to use the segment routing tunnel in the tunnel table submitted by the lowest preference OSPFv3 instance or, in case of a tie, the lowest numbered OSPFv3 instance.

When configured to false, the SR tunnel type programmed by an OSPFv3 instance in the TTM for next-hop resolution is not enabled for selection.
  Default false
  Introduced 16.0.R6
 

Platforms

All
sr-policy boolean
  Synopsis Use SR policies for next-hop resolution
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter sr-policy boolean
  Tree sr-policy
 

Description

When configured to true, this command enables the use of segment routing policies to resolve the BGP next hop of certain BGP routes (depending on the context).

The segment routing policies that are considered are statically configured in the local router or learned by BGP routes (AFI 1/SAFI 73). For a BGP route to be resolved by an SR policy, the highest numbered color extended community attached to BGP route must match the color of the SR policy.

When configured to false, segment routing policies are not enabled for next-hop resolution.
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-te boolean
  Synopsis Use SR-TE tunneling for next-hop resolution
  Context configure router string bgp next-hop-resolution shortcut-tunnel family keyword resolution-filter sr-te boolean
  Tree sr-te
 

Description

When configured to true, this command enables the selection of the Segment Routing (SR) tunnel type programmed by a traffic engineered (TE) instance in the TTM for next-hop resolution.

In the case of multiple SR-TE tunnels with the same lowest metric, BGP selects the tunnel with the lowest tunnel ID.

When configured to false, the SR tunnel type programmed by a TE instance in the TTM for next-hop resolution is not enabled for selection.
  Default false
  Introduced 16.0.R1
 

Platforms

All
use-bgp-routes boolean
  Synopsis Use BGP routes to resolve BGP next hops
  Context configure router string bgp next-hop-resolution use-bgp-routes boolean
  Tree use-bgp-routes
 

Description

This command enables the use of BGP routes to resolve BGP next hops. When this command is enabled, any unlabeled IPv4 or IPv6 BGP route received from a VPRN BGP peer becomes resolvable by up to four other BGP routes in order to resolve the route to a VPRN IP interface. A VPRN BGP route is not resolvable by another VPRN BGP route or by a BGP-VPN route.

This command also allows unlabeled IPv4 or IPv6 BGP routes leaked from the GRT with unresolved next hops (in the GRT) to be resolvable by BGP-VPN routes (of the VPRN).

  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-family-policy reference
  Synopsis Policy to filter routes for next-hop resolution
  Context configure router string bgp next-hop-resolution vpn-family-policy reference
  Tree vpn-family-policy
 

Reference

configure policy-options policy-statement string

  Introduced 20.5.R1
 

Platforms

All
weighted-ecmp boolean
  Synopsis Use weighted ECMP for next-hop tunnel selection for 6PE
  Context configure router string bgp next-hop-resolution weighted-ecmp boolean
  Tree weighted-ecmp
 

Description

When configured to true, this command enables weighted ECMP for next-hop tunnel selection for 6PE. When weighted ECMP is enabled, the RSVP-TE tunnel used to forward 6PE packets to the ECMP next hop that is chosen according to the outcome of the hash on the packet at the normalized load-balancing weight of the tunnel.

When configured to false, weighted ECMP is disabled for next-hop tunnel selection for 6PE.
  Default false
  Introduced 16.0.R1
 

Platforms

All
optimal-route-reflection
  Synopsis Enter the optimal-route-reflection context
  Context configure router string bgp optimal-route-reflection
  Tree optimal-route-reflection
  Introduced 16.0.R1
 

Platforms

All
location [location-id] number
  Synopsis Enter the location list instance
  Context configure router string bgp optimal-route-reflection location number
  Tree location
 

Description

Commands in this context configure the location ID for the route reflector. A BGP neighbor can be associated with a location if it is a route-reflector client.

Up to three IPv4 addresses and three IPv6 addresses can be specified per location.

If the TE DB is unable find a node in its topology database that matches a primary address of the location, it tries to find a node matching a secondary address. If this attempt also fails, the TE DB tries to find a node matching a tertiary address.

The IP addresses specified for a location should be topologically “close” to a set of clients that should all receive the same optimal path for that location.
  Introduced 16.0.R1
 

Platforms

All
[location-id] number
  Synopsis Optimal route reflection location ID
  Context configure router string bgp optimal-route-reflection location number
  Range 1 to 255
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
primary-ip-address string
  Synopsis Primary IPv4 address of the reference location for ORR
  Context configure router string bgp optimal-route-reflection location number primary-ip-address string
  Tree primary-ip-address
  Introduced 16.0.R1
 

Platforms

All
primary-ipv6-address string
  Synopsis Primary IPv6 address of the reference location for ORR
  Context configure router string bgp optimal-route-reflection location number primary-ipv6-address string
  Tree primary-ipv6-address
  Introduced 16.0.R4
 

Platforms

All
secondary-ip-address string
  Synopsis Secondary IPv4 address of reference location for ORR
  Context configure router string bgp optimal-route-reflection location number secondary-ip-address string
  Tree secondary-ip-address
  Introduced 16.0.R1
 

Platforms

All
secondary-ipv6-address string
  Synopsis Secondary IPv6 address of reference location for ORR
  Context configure router string bgp optimal-route-reflection location number secondary-ipv6-address string
  Tree secondary-ipv6-address
  Introduced 16.0.R4
 

Platforms

All
tertiary-ip-address string
  Synopsis Tertiary IPv4 address of the reference location for ORR
  Context configure router string bgp optimal-route-reflection location number tertiary-ip-address string
  Tree tertiary-ip-address
  Introduced 16.0.R1
 

Platforms

All
tertiary-ipv6-address string
  Synopsis Tertiary IPv6 address of the reference location for ORR
  Context configure router string bgp optimal-route-reflection location number tertiary-ipv6-address string
  Tree tertiary-ipv6-address
  Introduced 16.0.R4
 

Platforms

All
spf-wait
  Synopsis Enter the spf-wait context
  Context configure router string bgp optimal-route-reflection spf-wait
  Tree spf-wait
 

Description

Commands in this context specify the interval between consecutive SPF calculations performed by the TE DB in support of BGP optimal route reflection. The time components implement an exponential back-off algorithm.

.
  Introduced 16.0.R1
 

Platforms

All
initial-wait number
  Synopsis Initial SPF calculation delay after a topology change
  Context configure router string bgp optimal-route-reflection spf-wait initial-wait number
  Tree initial-wait
  Range 1 to 300
  Default 5
  Introduced 16.0.R1
 

Platforms

All
max-wait number
  Synopsis Maximum interval between consecutive SPF calculations
  Context configure router string bgp optimal-route-reflection spf-wait max-wait number
  Tree max-wait
  Range 1 to 600
  Default 60
  Introduced 16.0.R1
 

Platforms

All
second-wait number
  Synopsis Delay between first and second SPF calculation
  Context configure router string bgp optimal-route-reflection spf-wait second-wait number
  Tree second-wait
  Range 1 to 300
  Default 15
  Introduced 16.0.R1
 

Platforms

All
outbound-route-filtering
  Synopsis Enable the outbound-route-filtering context
  Context configure router string bgp outbound-route-filtering
  Tree outbound-route-filtering
 

Description

Commands in this context configure the send and receive capabilities for Outbound Route Filtering (ORF).

When unconfigured, the ORF capabilities are not enabled.
  Introduced 16.0.R1
 

Platforms

All
extended-community
  Synopsis Enable the extended-community context
  Context configure router string bgp outbound-route-filtering extended-community
  Tree extended-community
 

Description

Commands in this context configure the ORF send and receive capabilities based on Extended Communities.

When this context is unconfigured, the ORF capabilities for Extended Communities is not enabled.
  Introduced 16.0.R1
 

Platforms

All
accept-orf boolean
  Synopsis Negotiate with peer to accept BGP ORF filters
  Context configure router string bgp outbound-route-filtering extended-community accept-orf boolean
  Tree accept-orf
 

Description

When configured to true, the receive capability in the BGP ORF is negotiated with a peer and ORF filters can be accepted from peers.

When configured to false, the accept capability in the BGP ORF is removed and any existing ORF filters that are currently in place are cleared.
  Default false
  Introduced 16.0.R1
 

Platforms

All
send-orf
  Synopsis Enable the send-orf context
  Context configure router string bgp outbound-route-filtering extended-community send-orf
  Tree send-orf
 

Description

Commands in this context allow BGP to negotiate the send capability in the ORF negotiation with a peer. The send capability also causes the router to send a community filter, prefix filter, or AS path filter configured as an inbound filter on the BGP session to its peer as an ORF Action ADD.

When this context in unconfigured, ORF send capability is not enabled.
  Introduced 16.0.R1
 

Platforms

All
route-target [community-name] string
  Synopsis Add a list entry for route-target
  Context configure router string bgp outbound-route-filtering extended-community send-orf route-target string
  Tree route-target
  Introduced 16.0.R1
 

Platforms

All
[community-name] string
  Synopsis Route target community name
  Context configure router string bgp outbound-route-filtering extended-community send-orf route-target string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
override-tunnel-elc boolean
  Synopsis Enable entropy label capability on BGP tunnels
  Context configure router string bgp override-tunnel-elc boolean
  Tree override-tunnel-elc
 

Description

When configured to true, this command renders all far ends for BGP tunnels as entropy-label-capable, regardless of any received capability signaling. This ensures that the entropy label will be inserted on BGP tunnels in the absence of capability signaling support by the far end.

This is a system-wide configuration, since efficient entropy label operation requires that all LSRs in a network support entropy labels. This command should be used with care, particularly in inter-AS use cases, as entropy label capability may differ between domains.

When configured to false, this command disables all far ends for BGP tunnels as entropy-label-capable.
  Default false
  Introduced 16.0.R1
 

Platforms

All
path-mtu-discovery boolean
  Synopsis Enable Path MTU Discovery
  Context configure router string bgp path-mtu-discovery boolean
  Tree path-mtu-discovery
 

Description

When configured to true, Path MTU Discovery (PMTUD) is enabled for the associated TCP connections.

When set to true, PMTUD is activated toward an IPv4 BGP neighbor and the Don’t Fragment (DF) bit is set in the IP header of all IPv4 packets sent to the peer. If any device along the path toward the peer cannot forward the packet because the IP MTU of the interface is smaller than the IP packet size, this device drops the packet and sends an ICMP or ICMPv6 error message encoding the interface MTU. When the router receives the ICMP or ICMPv6 message, it lowers the TCP maximum segment size limit from the previous value so that the IP MTU constraint can be accommodated.

When PMTUD is configured to false and there is no TCP MSS configuration that can be associated with a BGP neighbor (in either the BGP configuration or the first hop IP interface configuration), the router advertises a value of only 1024 bytes as the TCP MSS option value, limiting received TCP segments to that size.
  Default false
  Introduced 16.0.R1
 

Platforms

All
peer-ip-tracking boolean
  Synopsis Enable BGP peer tracking
  Context configure router string bgp peer-ip-tracking boolean
  Tree peer-ip-tracking
  Default false
  Introduced 16.0.R1
 

Platforms

All
peer-tracking-policy reference
  Synopsis Policy for BGP peer tracking on router instance
  Context configure router string bgp peer-tracking-policy reference
  Tree peer-tracking-policy
 

Description

This command specifies the name of a policy statement to use with the BGP peer-tracking function on BGP sessions where peer tracking is enabled.

When unconfigured, the default peer-tracking policy allows any type of route to match the neighbor IP address except aggregate routes and LDP shortcut routes.

Peer tracking should be used with caution. The peer-tracking policy should only permit one of direct-interface or direct routes to be advertised to a BGP peer. Advertising both routes causes the best route to oscillate.
 

Reference

configure policy-options policy-statement string

  Introduced 16.0.R1
 

Platforms

All
preference number
  Synopsis Route preference for routes learned from all peers
  Context configure router string bgp preference number
  Tree preference
 

Description

This command configures the route preference for routes learned from the configured peers.

The lower the preference value, the higher the chance of the route being the active route. The router assigns BGP routes the highest default preference as compared to routes that are direct, static or learned via MPLS or OSPF.
  Range 1 to 255
  Default 170
  Introduced 16.0.R1
 

Platforms

All
purge-timer number
  Synopsis Maximum time before stale routes are purged
  Context configure router string bgp purge-timer number
  Tree purge-timer
 

Description

This command configures the maximum time before stale routes are purged. 

When a route refresh request is sent to a peer for VPN-IP routes received from that peer (in the RIB-IN), the routes are set to stale and the purge timer is started. If the routes are not updated (refreshed) before the purge timer expires, the routes are removed.
  Range 1 to 60
  Default 10
  Introduced 16.0.R1
 

Platforms

All
rapid-update
  Synopsis Enter the rapid-update context
  Context configure router string bgp rapid-update
  Tree rapid-update
 

Description

Commands in this context specify the address families that are configured to support the rapid update functionality.

The rapid update functionality overrides the remaining time on a peer's MRAI timer and immediately sends routes belonging the specified address families (and all other pending updates) to the peers receiving these routes.
  Introduced 16.0.R1
 

Platforms

All
evpn boolean
  Synopsis Include EVPN address family routes
  Context configure router string bgp rapid-update evpn boolean
  Tree evpn
  Default false
  Introduced 16.0.R1
 

Platforms

All
l2-vpn boolean
  Synopsis Include L2 VPN address family routes
  Context configure router string bgp rapid-update l2-vpn boolean
  Tree l2-vpn
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv4 boolean
  Synopsis Include labeled IPv4 address family routes
  Context configure router string bgp rapid-update label-ipv4 boolean
  Tree label-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
label-ipv6 boolean
  Synopsis Include labeled IPv6 address family routes
  Context configure router string bgp rapid-update label-ipv6 boolean
  Tree label-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv4 boolean
  Synopsis Include multicast VPN IPv4 address family routes
  Context configure router string bgp rapid-update mcast-vpn-ipv4 boolean
  Tree mcast-vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-vpn-ipv6 boolean
  Synopsis Include multicast VPN IPv6 address family routes
  Context configure router string bgp rapid-update mcast-vpn-ipv6 boolean
  Tree mcast-vpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
mdt-safi boolean
  Synopsis Include MDT SAFI address family routes
  Context configure router string bgp rapid-update mdt-safi boolean
  Tree mdt-safi
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv4 boolean
  Synopsis Include MVPN IPv4 address family routes
  Context configure router string bgp rapid-update mvpn-ipv4 boolean
  Tree mvpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn-ipv6 boolean
  Synopsis Include MVPN IPv6 address family routes
  Context configure router string bgp rapid-update mvpn-ipv6 boolean
  Tree mvpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv4 boolean
  Synopsis Include VPN IPv4 address family routes
  Context configure router string bgp rapid-update vpn-ipv4 boolean
  Tree vpn-ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-ipv6 boolean
  Synopsis Include VPN IPv6 address family routes
  Context configure router string bgp rapid-update vpn-ipv6 boolean
  Tree vpn-ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
rapid-withdrawal boolean
  Synopsis Send BGP withdrawal UPDATE messages immediately
  Context configure router string bgp rapid-withdrawal boolean
  Tree rapid-withdrawal
 

Description

When configured to true, UPDATE messages containing withdrawn NLRI are sent immediately to a peer without waiting for the MRAI timer to expire. UPDATE messages containing reachable NLRI continue to wait for the MRAI timer to expire, or for a rapid update trigger.

When configured to false, withdrawal processing continues with the normal behavior.
  Default false
  Introduced 16.0.R1
 

Platforms

All
remove-private
  Synopsis Enable the remove-private context
  Context configure router string bgp remove-private
  Tree remove-private
  Introduced 16.0.R1
 

Platforms

All
limited boolean
  Synopsis Remove private ASNs up to first public ASN encountered
  Context configure router string bgp remove-private limited boolean
  Tree limited
  Default false
  Introduced 16.0.R1
 

Platforms

All
replace boolean
  Synopsis Replace private ASN with global ASN before advertising
  Context configure router string bgp remove-private replace boolean
  Tree replace
  Default false
  Introduced 19.10.R1
 

Platforms

All
skip-peer-as boolean
  Synopsis Keep private ASN if AS-PATH contains eBGP peer's ASN
  Context configure router string bgp remove-private skip-peer-as boolean
  Tree skip-peer-as
  Default false
  Introduced 16.0.R1
 

Platforms

All
rib-management
  Synopsis Enter the rib-management context
  Context configure router string bgp rib-management
  Tree rib-management
  Introduced 16.0.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string bgp rib-management ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
leak-import
  Synopsis Enter the leak-import context
  Context configure router string bgp rib-management ipv4 leak-import
  Tree leak-import
 

Description

Commands in this context specify route policies that control the importation of leak-eligible routes from the BGP RIB of another routing instance into the unlabeled-IPv4 RIB of the base router. To leak a route from one routing instance to another, the origin and destination RIB types must be the same; for example, it is not possible to leak a route from an unlabeled-IPv4 RIB of a VPRN into the labeled-IPv4 RIB of the base router.
  Introduced 16.0.R1
 

Platforms

All
policy (policy-expr-string | string)
  Synopsis Leak import policy name
  Context configure router string bgp rib-management ipv4 leak-import policy (policy-expr-string | string)
  Tree policy
 

Description

This command specifies one or more leak import policies.

Policy names are limited to 64 characters except for the first policy. Only one object can be a policy logical expression consisting of policy names (enclosed in square brackets) and logical operators (AND, OR, NOT).
  String Length 1 to 255
  Max. Instances 15
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
route-table-import
  Synopsis Enter the route-table-import context
  Context configure router string bgp rib-management ipv4 route-table-import
  Tree route-table-import
  Introduced 16.0.R1
 

Platforms

All
policy-name reference
  Synopsis Name of policy that controls route importation into RIB
  Context configure router string bgp rib-management ipv4 route-table-import policy-name reference
  Tree policy-name
 

Description

This command specifies the name of a policy that controls the importation of active routes from the IP route table into one of the BGP RIBs.

When this command is configured, routes dropped or rejected by the policy are not installed in the associated RIB. Rejected routes cannot be advertised to BGP peers associated with the RIB, but they can still be used to resolve BGP next hops of routes in that RIB. If the active route for a prefix is rejected by the policy, the best BGP route for that prefix in the BGP RIB can be advertised to peers as though it is used.

Aggregate routes are always imported into each RIB, independent of the specified policy.

Route modifications specified in the actions of the policy are ignored and have no effect on the imported routes.

When unconfigured, or if the command refers to an empty policy, all non-BGP routes from the IP route table are imported into the applicable RIB.
 

Reference

configure policy-options policy-statement string

  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string bgp rib-management ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
leak-import
  Synopsis Enter the leak-import context
  Context configure router string bgp rib-management ipv6 leak-import
  Tree leak-import
 

Description

Commands in this context specify route policies that control the importation of leak-eligible routes from the BGP RIB of another routing instance into the unlabeled-IPv6 RIB of the base router. To leak a route from one routing instance to another, the origin and destination RIB types must be the same; for example, it is not possible to leak a route from an unlabeled-IPv4 RIB of a VPRN into the labeled-IPv4 RIB of the base router.
  Introduced 16.0.R1
 

Platforms

All
policy (policy-expr-string | string)
  Synopsis Leak import policy name
  Context configure router string bgp rib-management ipv6 leak-import policy (policy-expr-string | string)
  Tree policy
 

Description

This command specifies one or more leak import policies.

Policy names are limited to 64 characters except for the first policy. Only one object can be a policy logical expression consisting of policy names (enclosed in square brackets) and logical operators (AND, OR, NOT).
  String Length 1 to 255
  Max. Instances 15
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
route-table-import
  Synopsis Enter the route-table-import context
  Context configure router string bgp rib-management ipv6 route-table-import
  Tree route-table-import
 

Description

This command enables the context to specify the name of a route to control the importation of active routes from the IP route table into one of the BGP RIBs.

If this command is configured, then routes dropped or rejected by the configured policy are not installed in the associated RIB. Rejected routes cannot be advertised to BGP peers associated with the RIB, but they can still be used to resolve BGP next hops of routes in that RIB. If the active route for a prefix is rejected by this command then the best BGP route for that prefix in the BGP RIB can be advertised to peers as though it is used.

Aggregate routes are always imported into each RIB, independent of this command's policy.

Route modifications specified in the actions of this command's policy are ignored and have no effect on the imported routes.

If this command is not configured, or if the command refers to an empty policy, all non-BGP routes from the IP route table are imported into the applicable RIB.
  Introduced 16.0.R1
 

Platforms

All
policy-name reference
  Synopsis Name of policy that controls route importation into RIB
  Context configure router string bgp rib-management ipv6 route-table-import policy-name reference
  Tree policy-name
 

Description

This command specifies the name of a policy that controls the importation of active routes from the IP route table into one of the BGP RIBs.

When this command is configured, routes dropped or rejected by the policy are not installed in the associated RIB. Rejected routes cannot be advertised to BGP peers associated with the RIB, but they can still be used to resolve BGP next hops of routes in that RIB. If the active route for a prefix is rejected by the policy, the best BGP route for that prefix in the BGP RIB can be advertised to peers as though it is used.

Aggregate routes are always imported into each RIB, independent of the specified policy.

Route modifications specified in the actions of the policy are ignored and have no effect on the imported routes.

When unconfigured, or if the command refers to an empty policy, all non-BGP routes from the IP route table are imported into the applicable RIB.
 

Reference

configure policy-options policy-statement string

  Introduced 16.0.R1
 

Platforms

All
label-ipv4
  Synopsis Enter the label-ipv4 context
  Context configure router string bgp rib-management label-ipv4
  Tree label-ipv4
  Introduced 16.0.R1
 

Platforms

All
leak-import
  Synopsis Enter the leak-import context
  Context configure router string bgp rib-management label-ipv4 leak-import
  Tree leak-import
 

Description

Commands in this context specify route policies that control the importation of leak-eligible routes from the BGP RIB of another routing instance into the labeled-IPv4 RIB of the base router. To leak a route from one routing instance to another, the origin and destination RIB types must be the same; for example, it is not possible to leak a route from an unlabeled-IPv4 RIB of a VPRN into the labeled-IPv4 RIB of the base router.
  Introduced 16.0.R1
 

Platforms

All
policy (policy-expr-string | string)
  Synopsis Leak import policy name
  Context configure router string bgp rib-management label-ipv4 leak-import policy (policy-expr-string | string)
  Tree policy
 

Description

This command specifies one or more leak import policies.

Policy names are limited to 64 characters except for the first policy. Only one object can be a policy logical expression consisting of policy names (enclosed in square brackets) and logical operators (AND, OR, NOT).
  String Length 1 to 255
  Max. Instances 15
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
route-table-import
  Synopsis Enter the route-table-import context
  Context configure router string bgp rib-management label-ipv4 route-table-import
  Tree route-table-import
  Introduced 16.0.R1
 

Platforms

All
policy-name reference
  Synopsis Name of policy that controls route importation into RIB
  Context configure router string bgp rib-management label-ipv4 route-table-import policy-name reference
  Tree policy-name
 

Description

This command specifies the name of a policy that controls the importation of active routes from the IP route table into one of the BGP RIBs.

When this command is configured, routes dropped or rejected by the policy are not installed in the associated RIB. Rejected routes cannot be advertised to BGP peers associated with the RIB, but they can still be used to resolve BGP next hops of routes in that RIB. If the active route for a prefix is rejected by the policy, the best BGP route for that prefix in the BGP RIB can be advertised to peers as though it is used.

Aggregate routes are always imported into each RIB, independent of the specified policy.

Route modifications specified in the actions of the policy are ignored and have no effect on the imported routes.

When unconfigured, or if the command refers to an empty policy, all non-BGP routes from the IP route table are imported into the applicable RIB.
 

Reference

configure policy-options policy-statement string

  Introduced 16.0.R1
 

Platforms

All
label-ipv6
  Synopsis Enter the label-ipv6 context
  Context configure router string bgp rib-management label-ipv6
  Tree label-ipv6
  Introduced 16.0.R1
 

Platforms

All
route-table-import
  Synopsis Enter the route-table-import context
  Context configure router string bgp rib-management label-ipv6 route-table-import
  Tree route-table-import
  Introduced 16.0.R1
 

Platforms

All
policy-name reference
  Synopsis Name of policy that controls route importation into RIB
  Context configure router string bgp rib-management label-ipv6 route-table-import policy-name reference
  Tree policy-name
 

Description

This command specifies the name of a policy that controls the importation of active routes from the IP route table into one of the BGP RIBs.

When this command is configured, routes dropped or rejected by the policy are not installed in the associated RIB. Rejected routes cannot be advertised to BGP peers associated with the RIB, but they can still be used to resolve BGP next hops of routes in that RIB. If the active route for a prefix is rejected by the policy, the best BGP route for that prefix in the BGP RIB can be advertised to peers as though it is used.

Aggregate routes are always imported into each RIB, independent of the specified policy.

Route modifications specified in the actions of the policy are ignored and have no effect on the imported routes.

When unconfigured, or if the command refers to an empty policy, all non-BGP routes from the IP route table are imported into the applicable RIB.
 

Reference

configure policy-options policy-statement string

  Introduced 16.0.R1
 

Platforms

All
route-table-install boolean
  Synopsis Install all IPv4 and IPv6 BGP routes in FIB and RTM
  Context configure router string bgp route-table-install boolean
  Tree route-table-install
  Default true
  Introduced 16.0.R1
 

Platforms

All
route-target-list [community-name] string
  Synopsis Add a list entry for route-target-list
  Context configure router string bgp route-target-list string
  Tree route-target-list
 

Description

This command specifies a route target to be accepted from or advertised to peers.

This command is only applicable if the router is a route-reflector server.
  Introduced 16.0.R1
 

Platforms

All
[community-name] string
  Synopsis Route target community name
  Context configure router string bgp route-target-list string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
router-id string
  Synopsis Router ID for the BGP instance in the AS
  Context configure router string bgp router-id string
  Tree router-id
 

Description

This command specifies the router ID to be used with the BGP instance.

Changing the BGP router ID on an active BGP instance causes the BGP instance to restart with the new router ID.

When an SR OS is configured with an IPv6-only BOF and no IPv4 system interface address, explicitly-defined IPv4 router IDs are required for BGP as there is no mechanism to derive the router ID from an IPv6 system interface address.
  Introduced 16.0.R1
 

Platforms

All
rr-vpn-forwarding boolean
  Synopsis Allow route reflector to forward VPN-IP routes
  Context configure router string bgp rr-vpn-forwarding boolean
  Tree rr-vpn-forwarding
 

Description

When configured to true, the route reflector resolves VPN-IPv4 and VPN-IPv6 routes, sets itself as the next hop, and generates new labels for all the resolved routes.

During this process, all received VPN-IP routes, regardless of route target, are imported into the dummy VRF, where the BGP next hops are resolved. The routes are resolved to next-hop-self, and BGP allocates new VPRN service-label values for the routes, which are then advertised to peers.

The transport-tunnel command under the configure router bgp next-hop-resolution labeled-routes context determines what types of tunnels are eligible to resolve the next hops. If a received VPN-IP route from IBGP peer X is resolved and selected as the best path so that it can be re-advertised to an IBGP peer Y, and the BGP next-hop is modified toward peer Y (by using the next-hop-self command in Y’s group or neighbor context or by using a next-hop action in an export policy applied to Y), BGP allocates a new VPRN service label value for the route, signals that new label value to Y, and programs the IOM to do the corresponding label swap operation. The supported combinations of X and Y are outlined below:

  • from X (client) to Y (client)

  • from X (client) to Y (non-client)

  • from X (non-client) to Y (client)

When configured to false, the routes are re-advertised without signaling new VPRN labels, even if the BGP next hop is changed.

Nokia recommends setting this command to false for scaling and convergence reasons.
  Default false
  Introduced 16.0.R1
 

Platforms

All
segment-routing
  Synopsis Enter the segment-routing context
  Context configure router string bgp segment-routing
  Tree segment-routing
 

Description

Commands in this context configure options related to BGP segment routing (including prefix SID support).
  Introduced 19.10.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of segment routing
  Context configure router string bgp segment-routing admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 19.10.R1
 

Platforms

All
prefix-sid-range
  Synopsis Enable the prefix-sid-range context
  Context configure router string bgp segment-routing prefix-sid-range
  Tree prefix-sid-range
  Introduced 19.10.R1
 

Platforms

All
global
  Synopsis Allow label allocation from entire SRBG space
  Context configure router string bgp segment-routing prefix-sid-range global
  Tree global
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 19.10.R1
 

Platforms

All
max-index number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Last label value available in contiguous range
  Context configure router string bgp segment-routing prefix-sid-range max-index number
  Tree max-index
  Range 0 to 524287
  Default 1
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 19.10.R1
 

Platforms

All
start-label number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis First label value available in a contiguous range
  Context configure router string bgp segment-routing prefix-sid-range start-label number
  Tree start-label
  Range 0 to 524287
  Default 0
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 19.10.R1
 

Platforms

All
segment-routing-v6
  Synopsis Enable the segment-routing-v6 context
  Context configure router string bgp segment-routing-v6
  Tree segment-routing-v6
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string bgp segment-routing-v6 family keyword
  Tree family
 

Description

Commands in this context configure family-specific behavior for processing prefix SID attributes containing SRv6 TLVs.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[family-type] keyword
  Synopsis IP address type that SRv6 route attributes apply to
  Context configure router string bgp segment-routing-v6 family keyword
  Options ipv4, ipv6
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
add-srv6-tlvs
  Synopsis Enable the add-srv6-tlvs context
  Context configure router string bgp segment-routing-v6 family keyword add-srv6-tlvs
  Tree add-srv6-tlvs
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
locator-name reference
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis SRv6 locator name
  Context configure router string bgp segment-routing-v6 family keyword add-srv6-tlvs locator-name reference
  Tree locator-name
 

Reference

configure router string segment-routing segment-routing-v6 base-routing-instance locator reference

 

Notes

This element is mandatory.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
ignore-received-srv6-tlvs boolean
  Synopsis Ignore SRv6 TLVs for received routes
  Context configure router string bgp segment-routing-v6 family keyword ignore-received-srv6-tlvs boolean
  Tree ignore-received-srv6-tlvs
 

Description

When configured to true, if a route of the family is received with a prefix SID attribute carrying an SRv6 TLV, the SRv6 TLV is ignored and the route resolution is based on the BGP next-hop only.

When configured to false, if a route of the family is received with a prefix SID attribute carrying an SRv6 TLV, the SRv6 TLV is processed. Such a route is resolved only if its BGP next-hop is reachable and the locator prefix is reachable. The datapath programming and IGP cost to reach the next-hop (used by the BGP decision process) is based on the route to the locator prefix.
  Default true
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
resolution keyword
  Synopsis Resolution options for routes
  Context configure router string bgp segment-routing-v6 family keyword resolution keyword
  Tree resolution
  Default route-table
  Options route-table, tunnel-table, fallback-tunnel-to-route-table
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
source-address string
  Synopsis Source address used in SRv6 packet
  Context configure router string bgp segment-routing-v6 source-address string
  Tree source-address
 

Description

When configured, this command specifies the source IPv6 address used in the SA field of the outer IPv6 header of the SRv6 encapsulated packet.

When not configured, the source IPv6 address is inherited from the configuration of the global default address in the router "basesegment-routing segment-routing-v6 source-address context. 

A source IPv6 address must be configured in this context or in the base router context. 

The system does not check if the address entered is a valid local address.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
selective-label-ip-prioritization boolean
  Synopsis Enable BGP selective prioritization for labeled routes
  Context configure router string bgp selective-label-ip-prioritization boolean
  Tree selective-label-ip-prioritization
 

Description

When this command is set to true, every labeled IPv4 and IPv6 route that is received and potentially usable by a local service is automatically prioritized for fast control plane reconvergence. When the reachability of a BGP next-hop changes, the labeled IPv4 and IPv6 routes are updated into the route table first, along with other routes manually tagged as high priority by import policies. A /32 or /128 labeled unicast route (and associated BGP-LU tunnel) is determined to be potentially usable by a local service if one of the following conditions applies:

  • the route matches the far-end address of a user-provisioned SDP of a Layer 2 service and the SDP is configured to use BGP tunnels as transport

  • the route matches the BGP next-hop address of a BGP-EVPN or IP VPN route, and this VPN route is either imported into a local service or readvertised by the router acting as a next-hop-self route reflector or a model-B ASBR

When this command is set to false, selective-label IP prioritization for BGP is not used.
  Default false
  Introduced 21.10.R1
 

Platforms

All
selective-label-ipv4-install boolean
  Synopsis Enable selective download for BGP label-ipv4 routes
  Context configure router string bgp selective-label-ipv4-install boolean
  Tree selective-label-ipv4-install
  Default false
  Introduced 19.10.R1
 

Platforms

All
send-communities
  Synopsis Enter the send-communities context
  Context configure router string bgp send-communities
  Tree send-communities
  Introduced 16.0.R1
 

Platforms

All
extended boolean
  Synopsis Advertise the Extended Communities attribute to peers
  Context configure router string bgp send-communities extended boolean
  Tree extended
  Default true
  Introduced 16.0.R1
 

Platforms

All
large boolean
  Synopsis Advertise the Large Communities attribute to peers
  Context configure router string bgp send-communities large boolean
  Tree large
  Default true
  Introduced 16.0.R1
 

Platforms

All
standard boolean
  Synopsis Advertise the Communities attribute to peers
  Context configure router string bgp send-communities standard boolean
  Tree standard
  Default true
  Introduced 16.0.R1
 

Platforms

All
send-default
  Synopsis Enter the send-default context
  Context configure router string bgp send-default
  Tree send-default
  Introduced 19.7.R1
 

Platforms

All
export-policy reference
  Synopsis Export policy name
  Context configure router string bgp send-default export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Introduced 19.7.R1
 

Platforms

All
ipv4 boolean
  Synopsis Enable IPv4 family type
  Context configure router string bgp send-default ipv4 boolean
  Tree ipv4
  Default false
  Introduced 19.7.R1
 

Platforms

All
ipv6 boolean
  Synopsis Enable IPv6 family type
  Context configure router string bgp send-default ipv6 boolean
  Tree ipv6
  Default false
  Introduced 19.7.R1
 

Platforms

All
split-horizon boolean
  Synopsis Prevent routes being reflected back to best-route peer
  Context configure router string bgp split-horizon boolean
  Tree split-horizon
 

Description

When configured to true, this command enables the use of split-horizon.

This command prevents routes from being reflected back to a peer that sends the best route. It applies to routes of all address families and to any type of sending peer; confed-EBGP, EBGP and IBGP.

Enabling the split-horizon functionality may have a detrimental impact on peer and route scaling and should only be used when absolutely necessary.

When configured to false, the use of split-horizon is disabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-policy-import boolean
  Synopsis Import all segment routing policies into the BGP RIB
  Context configure router string bgp sr-policy-import boolean
  Tree sr-policy-import
 

Description

When configured to true, statically-configured non-local segment routing policies from the segment routing database are imported into the BGP RIB so that they can be advertised as originated routes toward BGP peers supporting segment routing policies (sr-policy-ipv4 IP family type).

When configured to false, the SR policies are not imported into the BGP RIB.
  Default false
  Introduced 16.0.R1
 

Platforms

All
subconfed-vpn-forwarding boolean
  Synopsis Allow subconfed route resolution, next hop and labels
  Context configure router string bgp subconfed-vpn-forwarding boolean
  Tree subconfed-vpn-forwarding
 

Description

When this is set to true, the base router BGP instance retains all received VPN-IPv4 and VPN-IPv6 routes, including those with route targets not matching any VRF import policy of any locally configured VPRN. In addition, when the base router BGP is configured to apply a next-hop-self command to a peer of any type (EBGP, IBGP, or confed-EBGP), VPN-IPv4 and VPN-IPv6 routes are advertised to the peer with a new BGP label, next hop, and label-swap forwarding entry. These behaviors described above are applied when the enable-inter-as-vpn or enable-rr-vpn-forwarding commands are enabled in the configure router bgp context, in the same BGP instance. This applies regardless of whether the base router has a confederation configuration.

When this command is set to false, subconfederation VPN forwarding is not used.
  Default false
  Introduced 21.10.R1
 

Platforms

All
tcp-mss number
  Synopsis TCP maximum segment size override
  Context configure router string bgp tcp-mss number
  Tree tcp-mss
 

Description

This command configures an override for the TCP maximum segment size to use with a specific peer or set of peers (depending on the scope of the command).

The configured value controls two properties of the TCP connection as follows:

TCP MSS option - The router advertises the TCP MSS option value in the TCP SYN packet it sends as part of the 3-way handshake. The advertised value may be lower than the configured value, depending on the IP MTU of the first hop IP interface. The peers must abide by this value when sending TCP segments to the local router.

TCP maximum segment size - The actual transmitted size may be lower than the configured value, depending on the TCP MSS option value signaled by the peers, the effect of path MTU discovery, or other factors.
  Range 384 to 9746
  Introduced 21.2.R1
 

Platforms

All
third-party-nexthop boolean
  Synopsis Apply third-party next-hop processing to EBGP peers
  Context configure router string bgp third-party-nexthop boolean
  Tree third-party-nexthop
 

Description

When configured to true, this command enables the router to send third-party next hop to EBGP peers in the same subnet as the source peer. The address family of the transport must match the address family of the route.

When an IPv4 or IPv6 route is received from one EBGP peer and advertised to another EBGP peer in the same IP subnet, the BGP next hop is left unchanged.

When configured to false, third-party next-hop processing is disabled and the next hop carries the IP address of the interface used to establish the TCP connection to the peer.
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-apply-export boolean
  Synopsis Apply base-instance BGP export policies to VPN routes
  Context configure router string bgp vpn-apply-export boolean
  Tree vpn-apply-export
 

Description

When configured to true, base-instance BGP export route policies are applied to VPN-IPv4/6, MVPN-IPv4/6, L2-VPN, MDT-SAFI, MCAST-VPN-IPv4, and EVPN routes.

When configured to false, the export policies are not applied.
  Default false
  Introduced 16.0.R1
 

Platforms

All
vpn-apply-import boolean
  Synopsis Apply base-instance import route policies to VPN routes
  Context configure router string bgp vpn-apply-import boolean
  Tree vpn-apply-import
 

Description

When configured to true, base-instance BGP import route policies are applied to VPN-IPv4/6, MVPN-IPv4/6, L2-VPN, MDT-SAFI, MCAST-VPN-IPv4, and EVPN routes.

When configured to false, the import policies are not applied.
  Default false
  Introduced 16.0.R1
 

Platforms

All

bier

  Synopsis Enable the bier context
  Context configure router string bier
  Tree bier
  Introduced 19.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BIER
  Context configure router string bier admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 19.5.R1
 

Platforms

All
bfd-liveness keyword
  Synopsis BIER next-hops with BFD enabled
  Context configure router string bier bfd-liveness keyword
  Tree bfd-liveness
  Options ipv4
  Max. Instances 1
  Introduced 21.7.R1
 

Platforms

All
fast-reroute boolean
  Synopsis Enable BIER Fast Reroute
  Context configure router string bier fast-reroute boolean
  Tree fast-reroute
  Default false
  Introduced 21.7.R1
 

Platforms

All
template [template-name] string
  Synopsis Enter the template list instance
  Context configure router string bier template string
  Tree template
 

Description

Commands in this context create a BIER template to be assigned to IGP.
  Introduced 19.5.R1
 

Platforms

All
[template-name] string
  Synopsis BIER template name
  Context configure router string bier template string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 19.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the BIER template
  Context configure router string bier template string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 19.5.R1
 

Platforms

All
sub-domain [start] number end number
  Synopsis Enter the sub-domain list instance
  Context configure router string bier template string sub-domain number end number
  Tree sub-domain
  Introduced 19.5.R1
 

Platforms

All
[start] number
  Synopsis Lower bound of sub-domain range
  Context configure router string bier template string sub-domain number end number
  Range 0 to 255
 

Notes

This element is part of a list key.
  Introduced 19.5.R1
 

Platforms

All
end number
  Synopsis Upper bound of sub-domain range
  Context configure router string bier template string sub-domain number end number
  Range 0 to 255
 

Notes

This element is part of a list key.
  Introduced 19.5.R1
 

Platforms

All
bfr-id number
  Synopsis BIER ID for the sub-domain
  Context configure router string bier template string sub-domain number end number bfr-id number
  Tree bfr-id
  Range 1 to 4096
  Introduced 19.5.R1
 

Platforms

All
multi-topology keyword
  Synopsis Multi-topology for the sub-domain
  Context configure router string bier template string sub-domain number end number multi-topology keyword
  Tree multi-topology
  Default ipv4-unicast
  Options ipv4-unicast, ipv6-unicast, ipv4-multicast, ipv6-multicast
  Introduced 19.5.R1
 

Platforms

All
prefix string
  Synopsis IP address used as BFR prefix
  Context configure router string bier template string sub-domain number end number prefix string
  Tree prefix
 

Description

This command specifies the IP address to be used as the BFR prefix. The prefix can be a loopback interface or system IP address.
  Default 0.0.0.0
  Introduced 19.5.R1
 

Platforms

All

class-forwarding boolean

  Synopsis Allow class-based forwarding over IGP shortcuts
  Context configure router string class-forwarding boolean
  Tree class-forwarding
 

Description

When configured to true, this command enables class-based forwarding (CBF) over IGP shortcuts.

Weighted ECMP, at the transport-tunnel level of BGP prefixes over IGP shortcuts, and the CBF feature on a per-BGP next-hop basis are mutually exclusive.

When configured to false, class-based forwarding (CBF) over IGP shortcuts is disabled.

  Default false
  Introduced 16.0.R1
 

Platforms

All

confederation

  Synopsis Enter the confederation context
  Context configure router string confederation
  Tree confederation
 

Description

Commands in this context configure members that are to be part of a confederation.

Creating confederation autonomous systems within as AS can be used to reduce the number of IBGP sessions required within an AS.
  Introduced 16.0.R1
 

Platforms

All
confed-as-num number
  Synopsis Confederation AS number
  Context configure router string confederation confed-as-num number
  Tree confed-as-num
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
members [as-number] number
  Synopsis Add a list entry for members
  Context configure router string confederation members number
  Tree members
  Max. Instances 256
  Introduced 16.0.R1
 

Platforms

All
[as-number] number
  Synopsis Confederation member AS number
  Context configure router string confederation members number
  Range 1 to 4294967295
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All

description string

  Synopsis Text description
  Context configure router string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All

dhcp-server

  Synopsis Enter the dhcp-server context
  Context configure router string dhcp-server
  Tree dhcp-server
  Introduced 16.0.R1
 

Platforms

All
dhcpv4 [name] string
  Synopsis Enter the dhcpv4 list instance
  Context configure router string dhcp-server dhcpv4 string
  Tree dhcpv4
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[name] string
  Synopsis DHCP server name
  Context configure router string dhcp-server dhcpv4 string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the DHCP server
  Context configure router string dhcp-server dhcpv4 string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string dhcp-server dhcpv4 string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
failover
  Synopsis Enter the failover context
  Context configure router string dhcp-server dhcpv4 string failover
  Tree failover
 

Description

Commands in this context define DHCP failover where two DHCP servers manage the same pool of addresses, enabling them to share the load to assign leases for pool and provide backup for each in the event of network outages.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the failover mechanism
  Context configure router string dhcp-server dhcpv4 string failover admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ignore-mclt-on-takeover boolean
  Synopsis Ignore maximum client lead during takeover from partner
  Context configure router string dhcp-server dhcpv4 string failover ignore-mclt-on-takeover boolean
  Tree ignore-mclt-on-takeover
 

Description

When configured to true, the remote IP address range can be taken over immediately when the intercommunication link enters the PARTNER-DOWN state, without having to wait for the MCLT to expire.

When configured to false, the DHCP lease time for new clients is restricted to the MCLT during a failure. For existing clients, the lease time is gradually reduced over time to the MCLT by consecutive DHCP renewals.

  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-client-lead-time number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum time that DHCP server can extend client's lease
  Context configure router string dhcp-server dhcpv4 string failover maximum-client-lead-time number
  Tree maximum-client-lead-time
 

Description

This command configures the maximum client lead time (MCLT), which is the maximum time that a DHCP server can extend the client's lease time beyond the lease time currently known by the DHCP partner node. In dual-homed environments, the initial lease time for all DHCP clients is restricted to the MCLT by default. Consecutive DHCP renewals can extend the lease time beyond the MCLT.
  Range 600 to 86399
  Default 600
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
partner-down-delay number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Delay to prevent lease duplication during link failure
  Context configure router string dhcp-server dhcpv4 string failover partner-down-delay number
  Tree partner-down-delay
 

Description

This command configures the interval before a failed intercommunication link transitions from the COMM-INT state to the PARTNER-DOWN state. This delay prevents IP lease duplication during link failure by not allowing new IP addresses to be assigned from the remote IP address range. This timer is intended to provide the operator with enough time to remedy the failed situation and avoid duplication of IP addresses and prefixes during the failure.
  Range 0 to 86399
  Default 86399
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer [address] reference
  Synopsis Enter the peer list instance
  Context configure router string dhcp-server dhcpv4 string failover peer reference
  Tree peer
 

Description

Commands in this context define the peer-related parameters for DHCP failover.

DHCP leases can be synchronized at the level of the DHCP server or pool. The pair of synchronizing servers or pools is identified by a tag. The synchronization information is carried over the Multi-Chassis Synchronization (MCS) link between the two peers. The MCS link is a logical IP or MPLS link.

MCS runs over TCP port 45067, using either data traffic or keepalives to detect failure on the communication link between the two nodes. In the absence of any MCS data traffic for more than 0.5 seconds, MCS sends its own keepalive to the peer. If a reply is not received within 3 seconds, MCS declares its operational state as down and the DB sync state as out-of-sync. MCS consequently notifies its clients, including the DHCP server. It can take up to 3 seconds before the DHCP client realizes that the inter-chassis link has failed.

The link failure does not necessarily imply the same failed state for the access links. It is possible, although unlikely, that both access links are operational while the inter-chassis communication link is broken. In this case, the two redundant nodes can become isolated from each other in the network. For this reason, it is important that the MCS link be highly redundant.

  Max. Instances 1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[address] reference
  Synopsis IP address of the failover peer
  Context configure router string dhcp-server dhcpv4 string failover peer reference
 

Reference

configure redundancy multi-chassis peer (ipv4-address-no-zone | ipv6-address-no-zone)

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
sync-tag string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Tag that identifies synchronizing server or pool pairs
  Context configure router string dhcp-server dhcpv4 string failover peer reference sync-tag string
  Tree sync-tag
  String Length 1 to 32
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
startup-wait-time number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Time between initialization and assuming active role
  Context configure router string dhcp-server dhcpv4 string failover startup-wait-time number
  Tree startup-wait-time
 

Description

This command configures a delay that avoids transient issues during the initialization process. During startup wait time, each failover peer waits after the initialization process before assuming the active role for the prefix designated as local or remote.
  Range 60 to 3600
  Default 120
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
force-renews boolean
  Synopsis Send FORCERENEW messages to force renewals of leases
  Context configure router string dhcp-server dhcpv4 string force-renews boolean
  Tree force-renews
 

Description

When configured to true, FORCERENEW messages are enabled for DHCP.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
lease-hold
  Synopsis Enter the lease-hold context
  Context configure router string dhcp-server dhcpv4 string lease-hold
  Tree lease-hold
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
additional-scenarios
  Synopsis Enter the additional-scenarios context
  Context configure router string dhcp-server dhcpv4 string lease-hold additional-scenarios
  Tree additional-scenarios
 

Description

Commands in this context configure additional types of leases or triggers that cause the system to hold up leases.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
internal-lease-ipsec boolean
  Synopsis Apply the lease hold timer to local IPsec clients
  Context configure router string dhcp-server dhcpv4 string lease-hold additional-scenarios internal-lease-ipsec boolean
  Tree internal-lease-ipsec
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
solicited-release boolean
  Synopsis Apply lease hold timer for solicited releases
  Context configure router string dhcp-server dhcpv4 string lease-hold additional-scenarios solicited-release boolean
  Tree solicited-release
 

Description

This command enables the server to hold up a lease even for a solicited release, for example, when the server receives a normal DHCP release message.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
time number
  Synopsis Lease hold time
  Context configure router string dhcp-server dhcpv4 string lease-hold time number
  Tree time
  Range 1 to 631152000
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pool [pool-name] string
  Synopsis Enter the pool list instance
  Context configure router string dhcp-server dhcpv4 string pool string
  Tree pool
 

Description

Commands in this context configure a DHCP address pool on the router.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[pool-name] string
  Synopsis DHCP server pool name
  Context configure router string dhcp-server dhcpv4 string pool string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string dhcp-server dhcpv4 string pool string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
failover
  Synopsis Enter the failover context
  Context configure router string dhcp-server dhcpv4 string pool string failover
  Tree failover
 

Description

Commands in this context define DHCP failover where two DHCP servers manage the same pool of addresses, enabling them to share the load to assign leases for pool and provide backup for each in the event of network outages.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the failover mechanism
  Context configure router string dhcp-server dhcpv4 string pool string failover admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ignore-mclt-on-takeover boolean
  Synopsis Ignore maximum client lead during takeover from partner
  Context configure router string dhcp-server dhcpv4 string pool string failover ignore-mclt-on-takeover boolean
  Tree ignore-mclt-on-takeover
 

Description

When configured to true, the remote IP address range can be taken over immediately when the intercommunication link enters the PARTNER-DOWN state, without having to wait for the MCLT to expire.

When configured to false, the DHCP lease time for new clients is restricted to the MCLT during a failure. For existing clients, the lease time is gradually reduced over time to the MCLT by consecutive DHCP renewals.

  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-client-lead-time number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum time that DHCP server can extend client's lease
  Context configure router string dhcp-server dhcpv4 string pool string failover maximum-client-lead-time number
  Tree maximum-client-lead-time
 

Description

This command configures the maximum client lead time (MCLT), which is the maximum time that a DHCP server can extend the client's lease time beyond the lease time currently known by the DHCP partner node. In dual-homed environments, the initial lease time for all DHCP clients is restricted to the MCLT by default. Consecutive DHCP renewals can extend the lease time beyond the MCLT.
  Range 600 to 86399
  Default 600
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
partner-down-delay number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Delay to prevent lease duplication during link failure
  Context configure router string dhcp-server dhcpv4 string pool string failover partner-down-delay number
  Tree partner-down-delay
 

Description

This command configures the interval before a failed intercommunication link transitions from the COMM-INT state to the PARTNER-DOWN state. This delay prevents IP lease duplication during link failure by not allowing new IP addresses to be assigned from the remote IP address range. This timer is intended to provide the operator with enough time to remedy the failed situation and avoid duplication of IP addresses and prefixes during the failure.
  Range 0 to 86399
  Default 86399
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer [address] reference
  Synopsis Enter the peer list instance
  Context configure router string dhcp-server dhcpv4 string pool string failover peer reference
  Tree peer
 

Description

Commands in this context configure peer-related parameters for DHCP failover.

DHCP leases can be synchronized at the level of the DHCP server or pool. The pair of synchronizing servers or pools is identified by a tag. The synchronization information is carried over the Multi-Chassis Synchronization (MCS) link between the two peers. The MCS link is a logical IP or MPLS link.

MCS runs over TCP port 45067, using either data traffic or keepalives to detect failure on the communication link between the two nodes. In the absence of any MCS data traffic for more than 0.5 seconds, MCS sends its own keepalive to the peer. If a reply is not received within 3 seconds, MCS declares its operational state as down and the DB sync state as out-of-sync. MCS consequently notifies its clients, including the DHCP server. It can take up to 3 seconds before the DHCP client realizes that the inter-chassis link has failed.

The link failure does not necessarily imply the same failed state for the access links. It is possible, although unlikely, that both access links are operational while the inter-chassis communication link is broken. In this case, the two redundant nodes can become isolated from each other in the network. For this reason, it is important that the MCS link be highly redundant.
  Max. Instances 1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[address] reference
  Synopsis IP address of the failover peer
  Context configure router string dhcp-server dhcpv4 string pool string failover peer reference
 

Reference

configure redundancy multi-chassis peer (ipv4-address-no-zone | ipv6-address-no-zone)

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
sync-tag string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Tag that identifies synchronizing server or pool pairs
  Context configure router string dhcp-server dhcpv4 string pool string failover peer reference sync-tag string
  Tree sync-tag
  String Length 1 to 32
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
startup-wait-time number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Time between initialization and assuming active role
  Context configure router string dhcp-server dhcpv4 string pool string failover startup-wait-time number
  Tree startup-wait-time
 

Description

This command configures a delay that avoids transient issues during the initialization process. During startup wait time, each failover peer waits after the initialization process before assuming the active role for the prefix designated as local or remote.
  Range 60 to 3600
  Default 120
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
max-lease-time number
  Synopsis Maximum lease time
  Context configure router string dhcp-server dhcpv4 string pool string max-lease-time number
  Tree max-lease-time
  Range 10 to 315446399
  Default 864000
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
min-lease-time number
  Synopsis Minimum lease time
  Context configure router string dhcp-server dhcpv4 string pool string min-lease-time number
  Tree min-lease-time
  Range 10 to 315446399
  Default 600
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
minimum-free
  Synopsis Enter the minimum-free context
  Context configure router string dhcp-server dhcpv4 string pool string minimum-free
  Tree minimum-free
 

Description

Commands in this context specify the minimum number of free addresses in this pool.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
absolute number
  Synopsis Minimum number of free addresses in this pool or subnet
  Context configure router string dhcp-server dhcpv4 string pool string minimum-free absolute number
  Tree absolute
  Range 0 to 255
  Default 1
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: absolute or percent.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
event-when-depleted boolean
  Synopsis Generate notification when addresses are depleted
  Context configure router string dhcp-server dhcpv4 string pool string minimum-free event-when-depleted boolean
  Tree event-when-depleted
 

Description

When configured to true, a system-generated event is generated when all available addresses in the pool or subnet of a local DHCP server are depleted.

When configured to false, no action is taken when all available addresses in the pool or subnet of a local DHCP server are depleted.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
percent number
  Synopsis Minimum free addresses as a percentage
  Context configure router string dhcp-server dhcpv4 string pool string minimum-free percent number
  Tree percent
  Range 0 to 100
  Default 1
 

Notes

The following elements are part of a choice: absolute or percent.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
nak-non-matching-subnet boolean
  Synopsis Send NAK if no match for request address pool range
  Context configure router string dhcp-server dhcpv4 string pool string nak-non-matching-subnet boolean
  Tree nak-non-matching-subnet
 

Description

When configured to true, a NAK response when the local DHCPv4 server receives a DHCP request with option 50 (the client is trying to request a previously allocated message). If the address-allocation algorithm uses a pool that does not contain the requested address, the system returns the DHCP NAK.

When configured to false or unconfigured, the system drops the DHCP packet.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
offer-time number
  Synopsis Time interval during which a DHCP offer remains valid
  Context configure router string dhcp-server dhcpv4 string pool string offer-time number
  Tree offer-time
  Range 10 to 600
  Default 60
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
options
  Synopsis Enter the options context
  Context configure router string dhcp-server dhcpv4 string pool string options
  Tree options
 

Description

Commands in this context define DHCPv4 pool options.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
option [number] (number | keyword)
  Synopsis Enter the option list instance
  Context configure router string dhcp-server dhcpv4 string pool string options option (number | keyword)
  Tree option
 

Description

This command configures DHCP options at the pool level. The pool options can be overruled by the value of the same option in the local user database.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[number] (number | keyword)
  Synopsis DHCP option to send identification strings to client
  Context configure router string dhcp-server dhcpv4 string pool string options option (number | keyword)
  Range 1 to 254
  Options subnet-mask, default-router, dns-server, domain-name, netbios-name-server, netbios-node-type, lease-time, lease-renew-time, lease-rebind-time
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ascii-string string
  Synopsis DHCP option specified as an ASCII string
  Context configure router string dhcp-server dhcpv4 string pool string options option (number | keyword) ascii-string string
  Tree ascii-string
  String Length 1 to 127
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
duration number
  Synopsis DHCP option specified as time duration
  Context configure router string dhcp-server dhcpv4 string pool string options option (number | keyword) duration number
  Tree duration
  Range 10 to 315446399
  Units seconds
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
empty
  Synopsis Remove DHCP option from configuration
  Context configure router string dhcp-server dhcpv4 string pool string options option (number | keyword) empty
  Tree empty
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
hex-string string
  Synopsis DHCP option specified as hexadecimal string
  Context configure router string dhcp-server dhcpv4 string pool string options option (number | keyword) hex-string string
  Tree hex-string
  String Length 1 to 256
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ipv4-address string
  Synopsis DHCP option specified as a list of IPv4 addresses
  Context configure router string dhcp-server dhcpv4 string pool string options option (number | keyword) ipv4-address string
  Tree ipv4-address
  Max. Instances 4
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
netbios-node-type keyword
  Synopsis DHCP option specified as a NetBIOS node type
  Context configure router string dhcp-server dhcpv4 string pool string options option (number | keyword) netbios-node-type keyword
  Tree netbios-node-type
  Options b-node, p-node, m-node, h-node
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
subnet [ipv4-prefix] string
  Synopsis Enter the subnet list instance
  Context configure router string dhcp-server dhcpv4 string pool string subnet string
  Tree subnet
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[ipv4-prefix] string
  Synopsis IPv4 prefix for the subnet
  Context configure router string dhcp-server dhcpv4 string pool string subnet string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
address-range [start] string end string
  Synopsis Enter the address-range list instance
  Context configure router string dhcp-server dhcpv4 string pool string subnet string address-range string end string
  Tree address-range
 

Description

This command configures the range of IP addresses to be served from the pool subnet. The range includes all the IP addresses between the specified start and end addresses, other than specifically excluded addresses. The start and end addresses must be unique within the subnet.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[start] string
  Synopsis Lower bound of the IP address range
  Context configure router string dhcp-server dhcpv4 string pool string subnet string address-range string end string
 

Description

This command specifies the start of a range of IP addresses that are excluded from the pool of IP addresses in this subnet.
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
end string
  Synopsis Upper bound of the IP address range
  Context configure router string dhcp-server dhcpv4 string pool string subnet string address-range string end string
 

Description

This command specifies the end of a range of IP addresses that are excluded from the pool of IP addresses in this subnet.
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
failover-control-type keyword
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Failover control type for this range
  Context configure router string dhcp-server dhcpv4 string pool string subnet string address-range string end string failover-control-type keyword
  Tree failover-control-type
  Default local
  Options local, remote, access-driven
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
drain boolean
  Synopsis Prevent new lease assignment from this subnet
  Context configure router string dhcp-server dhcpv4 string pool string subnet string drain boolean
  Tree drain
 

Description

When configured to true, new leases cannot be assigned and existing leases are kept up until they are released.

When configured to false, the subnet is active and new leases can be assigned.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
exclude-addresses [start] string end string
  Synopsis Add a list entry for exclude-addresses
  Context configure router string dhcp-server dhcpv4 string pool string subnet string exclude-addresses string end string
  Tree exclude-addresses
 

Description

This command configures an IP address to be excluded from the pool of IP addresses in the subnet.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[start] string
  Synopsis Lower bound of the IP address range
  Context configure router string dhcp-server dhcpv4 string pool string subnet string exclude-addresses string end string
 

Description

This command specifies the start of a range of IP addresses that are excluded from the pool of IP addresses in this subnet.
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
end string
  Synopsis Upper bound of the IP address range
  Context configure router string dhcp-server dhcpv4 string pool string subnet string exclude-addresses string end string
 

Description

This command specifies the end of a range of IP addresses that are excluded from the pool of IP addresses in this subnet.
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-declined number
  Synopsis Maximum number of declined addresses allowed
  Context configure router string dhcp-server dhcpv4 string pool string subnet string maximum-declined number
  Tree maximum-declined
  Max. Range 0 to 4294967295
  Default 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
minimum-free
  Synopsis Enter the minimum-free context
  Context configure router string dhcp-server dhcpv4 string pool string subnet string minimum-free
  Tree minimum-free
 

Description

Commands in this context specify the minimum number of free addresses in this pool.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
absolute number
  Synopsis Minimum number of free addresses in this pool or subnet
  Context configure router string dhcp-server dhcpv4 string pool string subnet string minimum-free absolute number
  Tree absolute
  Range 0 to 255
  Default 1
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: absolute or percent.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
event-when-depleted boolean
  Synopsis Generate notification when addresses are depleted
  Context configure router string dhcp-server dhcpv4 string pool string subnet string minimum-free event-when-depleted boolean
  Tree event-when-depleted
 

Description

When configured to true, a system-generated event is generated when all available addresses in the pool or subnet of a local DHCP server are depleted.

When configured to false, no action is taken when all available addresses in the pool or subnet of a local DHCP server are depleted.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
percent number
  Synopsis Minimum free addresses as a percentage
  Context configure router string dhcp-server dhcpv4 string pool string subnet string minimum-free percent number
  Tree percent
  Range 0 to 100
  Default 1
 

Notes

The following elements are part of a choice: absolute or percent.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
options
  Synopsis Enter the options context
  Context configure router string dhcp-server dhcpv4 string pool string subnet string options
  Tree options
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
option [number] (number | keyword)
  Synopsis Enter the option list instance
  Context configure router string dhcp-server dhcpv4 string pool string subnet string options option (number | keyword)
  Tree option
 

Description

This command configures DHCP options at the pool subnet level. The options can be overruled by the value of the same option in the local user database.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[number] (number | keyword)
  Synopsis DHCP option to send identification strings to client
  Context configure router string dhcp-server dhcpv4 string pool string subnet string options option (number | keyword)
  Range 1 to 254
  Options subnet-mask, default-router, dns-server, domain-name, netbios-name-server, netbios-node-type, lease-time, lease-renew-time, lease-rebind-time
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ascii-string string
  Synopsis DHCP option specified as an ASCII string
  Context configure router string dhcp-server dhcpv4 string pool string subnet string options option (number | keyword) ascii-string string
  Tree ascii-string
  String Length 1 to 127
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
duration number
  Synopsis DHCP option specified as time
  Context configure router string dhcp-server dhcpv4 string pool string subnet string options option (number | keyword) duration number
  Tree duration
  Range 10 to 315446399
  Units seconds
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
empty
  Synopsis Empty DHCP option
  Context configure router string dhcp-server dhcpv4 string pool string subnet string options option (number | keyword) empty
  Tree empty
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
hex-string string
  Synopsis DHCP option specified as hexadecimal string
  Context configure router string dhcp-server dhcpv4 string pool string subnet string options option (number | keyword) hex-string string
  Tree hex-string
  String Length 1 to 256
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ipv4-address string
  Synopsis DHCP option specified as a list of IPv4 addresses
  Context configure router string dhcp-server dhcpv4 string pool string subnet string options option (number | keyword) ipv4-address string
  Tree ipv4-address
  Max. Instances 4
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
netbios-node-type keyword
  Synopsis DHCP option specified as a NetBIOS node type
  Context configure router string dhcp-server dhcpv4 string pool string subnet string options option (number | keyword) netbios-node-type keyword
  Tree netbios-node-type
  Options b-node, p-node, m-node, h-node
 

Notes

The following elements are part of a mandatory choice: ascii-string, duration, empty, hex-string, ipv4-address, or netbios-node-type.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pool-selection
  Synopsis Enter the pool-selection context
  Context configure router string dhcp-server dhcpv4 string pool-selection
  Tree pool-selection
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
use-gi-address
  Synopsis Enable the use-gi-address context
  Context configure router string dhcp-server dhcpv4 string pool-selection use-gi-address
  Tree use-gi-address
 

Description

Commands in this context configure gateway interface (GI) address matching. When configured, the pool can be used for address matching even if a subnet is not found. If the local user database name is not used, addresses are provided only by GI. If a user must be blocked from getting an address, the server maps to a local user database and configures the user with no address.

A pool can include multiple subnets. Since the GI is shared by multiple subnets in a subscriber interface, the pool can provide IP addresses from any of the subnets included when the GI is matched to one of its subnets. This allows a pool to be created that represents a sub-net.

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
scope keyword
  Synopsis GI address-matching scope
  Context configure router string dhcp-server dhcpv4 string pool-selection use-gi-address scope keyword
  Tree scope
  Default subnet
  Options subnet, pool
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
use-pool-from-client
  Synopsis Enable the use-pool-from-client context
  Context configure router string dhcp-server dhcpv4 string pool-selection use-pool-from-client
  Tree use-pool-from-client
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
delimiter string
  Synopsis Delimiter to combine primary and secondary pool names
  Context configure router string dhcp-server dhcpv4 string pool-selection use-pool-from-client delimiter string
  Tree delimiter
 

Description

This command configures a single ASCII character that separates the pool names in DHCP vendor-specific option 82, which identifies the address pool to be used for this client.
  String Length 1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
user-db reference
  Synopsis Local user database for authentication
  Context configure router string dhcp-server dhcpv4 string user-db reference
  Tree user-db
 

Reference

configure subscriber-mgmt local-user-db string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
user-identification keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis User identification method for the DHCP server
  Context configure router string dhcp-server dhcpv4 string user-identification keyword
  Tree user-identification
  Options mac-circuit-id, duid, interface-id, interface-id-link-local, client-id, mac, circuit-id, remote-id
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
dhcpv6 [name] string
  Synopsis Enter the dhcpv6 list instance
  Context configure router string dhcp-server dhcpv6 string
  Tree dhcpv6
 

Description

Commands in this context configure DHCPv6 parameters.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[name] string
  Synopsis DHCP server name
  Context configure router string dhcp-server dhcpv6 string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the DHCP server
  Context configure router string dhcp-server dhcpv6 string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
auto-provisioned boolean
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Auto-provision the pools of this server
  Context configure router string dhcp-server dhcpv6 string auto-provisioned boolean
  Tree auto-provisioned
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
defaults
  Synopsis Enter the defaults context
  Context configure router string dhcp-server dhcpv6 string defaults
  Tree defaults
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
options
  Synopsis Enter the options context
  Context configure router string dhcp-server dhcpv6 string defaults options
  Tree options
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
option [number] (number | keyword)
  Synopsis Enter the option list instance
  Context configure router string dhcp-server dhcpv6 string defaults options option (number | keyword)
  Tree option
 

Description

This command configures DHCP options at the pool level. The pool options defined here can be overruled by the value of the same option in the local user database.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[number] (number | keyword)
  Synopsis DHCP option to send as identification string
  Context configure router string dhcp-server dhcpv6 string defaults options option (number | keyword)
  Range 1 to 65535
  Options dns-server, domain-name
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ascii-string string
  Synopsis DHCP option specified as an ASCII string
  Context configure router string dhcp-server dhcpv6 string defaults options option (number | keyword) ascii-string string
  Tree ascii-string
  String Length 1 to 127
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
domain-string string
  Synopsis DHCP option specified as a domain name
  Context configure router string dhcp-server dhcpv6 string defaults options option (number | keyword) domain-string string
  Tree domain-string
  String Length 1 to 127
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
duration number
  Synopsis DHCP option specified as time
  Context configure router string dhcp-server dhcpv6 string defaults options option (number | keyword) duration number
  Tree duration
  Range 10 to 315446399
  Units seconds
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
empty
  Synopsis Empty DHCP option
  Context configure router string dhcp-server dhcpv6 string defaults options option (number | keyword) empty
  Tree empty
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
hex-string string
  Synopsis DHCP option specified as hexadecimal string
  Context configure router string dhcp-server dhcpv6 string defaults options option (number | keyword) hex-string string
  Tree hex-string
  String Length 1 to 256
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ipv6-address string
  Synopsis DHCP option specified as a list of IPv6 addresses
  Context configure router string dhcp-server dhcpv6 string defaults options option (number | keyword) ipv6-address string
  Tree ipv6-address
  Max. Instances 4
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
preferred-lifetime number
  Synopsis Time this lease remains preferred
  Context configure router string dhcp-server dhcpv6 string defaults preferred-lifetime number
  Tree preferred-lifetime
 

Description

This command configures the preferred lifetime of the IPv6 lease address or prefix. When the preferred lifetime expires, any derived addresses are deprecated. The preferred lifetime must be less than or equal to the valid lifetime. 

Each address or prefix assigned to the client has associated preferred and valid lifetimes specified by the address assignment authority (such as the DHCP server, RADIUS, or ESM). To request an extension of the lifetimes assigned to an address, the client sends a renew message to the addressing authority. The authority sends a reply message to the client with the new lifetimes, allowing the client to continue to use the address/prefix without interruption. The lifetimes are transmitted from the addressing authority to the client in the identity association (IA) option at the top level of the message (not the address or prefix level).
  Range 300 to 315446399
  Default 3600
  Units seconds
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
rebind-time number
  Synopsis Rebind time for the lease
  Context configure router string dhcp-server dhcpv6 string defaults rebind-time number
  Tree rebind-time
 

Description

This command configures the rebind time, known as T2, at which the client contacts the addressing authority to extend the lifetimes of its leases.

The IP addressing authority (such as the DHCP server, RADIUS, or ESM) controls the time for extending lifetimes on assigned addresses/prefixes through the T1 and T2 parameters assigned to an identity association (IA). At renew time, T1, the client initiates a renew or reply message exchange to extend the lifetimes of any addresses in the IA. The client includes an IA option with all addresses or prefixes currently assigned to the IA in its renew message.

Recommended values for T1 and T2 are 0.5 and 0.8 times the shortest preferred lifetime of the addresses or prefixes in the IA that the addressing authority is willing to extend, respectively. The configured rebind timer value should always be less than or equal to the rebind timer. The T1 and T2 values are carried in the IPV6 address option in the IA.
  Range 0 to 1209600
  Default 2880
  Units seconds
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
renew-time number
  Synopsis Renew time for the lease
  Context configure router string dhcp-server dhcpv6 string defaults renew-time number
  Tree renew-time
 

Description

This command configures the renew time, known as T1, at which the client makes a transition to the lease-renewal state.

The IP addressing authority (such as the DHCP server, RADIUS, or ESM) controls the time for extending lifetimes on assigned addresses/prefixes through the T1 and T2 parameters assigned to an identity association (IA). At renew time, T1, the client initiates a renew/reply message exchange to extend the lifetimes of any addresses in the IA. The client includes an IA option with all addresses/prefixes currently assigned to the IA in its renew message.

Recommended values for T1 and T2 are 0.5 and 0.8 times the shortest preferred lifetime of the addresses or prefixes in the IA that the addressing authority is willing to extend, respectively. The configured renew timer value should always be shorter than or equal to the rebind timer. The T1 and T2 values are carried in the IPV6 address option in the IA.
  Range 0 to 604800
  Default 1800
  Units seconds
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
valid-lifetime number
  Synopsis Time for the lease to remain valid
  Context configure router string dhcp-server dhcpv6 string defaults valid-lifetime number
  Tree valid-lifetime
 

Description

This command configures a valid lifetime for a DHCPv6 lease address or prefix. The valid lifetime is the length of time an address and prefix remains in the valid state. The valid lifetime must be greater than or equal to the preferred lifetime. When the valid lifetime expires, the address and prefix becomes invalid and must not be used in communications. RFC 2461 recommends a default value of 30 days.

Each address and prefix assigned to the client has associated preferred and valid lifetimes specified by the address assignment authority (such as the DHCP server, RADIUS, or ESM). To request an extension of the lifetimes assigned to an address, the client sends a renew message to the addressing authority. The authority sends a reply message to the client with the new lifetimes, allowing the client to continue to use the address and prefix without interruption. The lifetimes are transmitted from the addressing authority to the client in the identity association (IA) option at the top level of the message (not the address or prefix level).
  Range 300 to 315446399
  Default 86400
  Units seconds
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string dhcp-server dhcpv6 string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
failover
  Synopsis Enter the failover context
  Context configure router string dhcp-server dhcpv6 string failover
  Tree failover
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the failover mechanism
  Context configure router string dhcp-server dhcpv6 string failover admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ignore-mclt-on-takeover boolean
  Synopsis Ignore maximum client lead during takeover from partner
  Context configure router string dhcp-server dhcpv6 string failover ignore-mclt-on-takeover boolean
  Tree ignore-mclt-on-takeover
 

Description

When configured to true, the remote IP address range can be taken over immediately when the intercommunication link enters the PARTNER-DOWN state, without having to wait for the MCLT to expire.

When configured to false, the DHCP lease time for new clients is restricted to the MCLT during a failure. For existing clients, the lease time is gradually reduced over time to the MCLT by consecutive DHCP renewals.

  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-client-lead-time number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum time that DHCP server can extend client's lease
  Context configure router string dhcp-server dhcpv6 string failover maximum-client-lead-time number
  Tree maximum-client-lead-time
 

Description

This command configures the maximum client lead time (MCLT), which is the maximum time that a DHCP server can extend the client's lease time beyond the lease time currently known by the DHCP partner node. In dual-homed environments, the initial lease time for all DHCP clients is restricted to the MCLT by default. Consecutive DHCP renewals can extend the lease time beyond the MCLT.
  Range 600 to 86399
  Default 600
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
partner-down-delay number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Delay to prevent lease duplication during link failure
  Context configure router string dhcp-server dhcpv6 string failover partner-down-delay number
  Tree partner-down-delay
 

Description

This command configures the interval before a failed intercommunication link transitions from the COMM-INT state to the PARTNER-DOWN state. This delay prevents IP lease duplication during link failure by not allowing new IP addresses to be assigned from the remote IP address range. This timer is intended to provide the operator with enough time to remedy the failed situation and avoid duplication of IP addresses and prefixes during the failure.
  Range 0 to 86399
  Default 86399
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer [address] reference
  Synopsis Enter the peer list instance
  Context configure router string dhcp-server dhcpv6 string failover peer reference
  Tree peer
  Max. Instances 1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[address] reference
  Synopsis IP address of the failover peer
  Context configure router string dhcp-server dhcpv6 string failover peer reference
 

Reference

configure redundancy multi-chassis peer (ipv4-address-no-zone | ipv6-address-no-zone)

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
sync-tag string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Tag that identifies synchronizing server or pool pairs
  Context configure router string dhcp-server dhcpv6 string failover peer reference sync-tag string
  Tree sync-tag
  String Length 1 to 32
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
startup-wait-time number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Time between initialization and assuming active role
  Context configure router string dhcp-server dhcpv6 string failover startup-wait-time number
  Tree startup-wait-time
 

Description

This command configures a delay that avoids transient issues during the initialization process. During startup wait time, each failover peer waits after the initialization process before assuming the active role for the prefix designated as local or remote.
  Range 60 to 3600
  Default 120
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ignore-rapid-commit boolean
  Synopsis Ignore Rapid Commit option
  Context configure router string dhcp-server dhcpv6 string ignore-rapid-commit boolean
  Tree ignore-rapid-commit
 

Description

When configured to true, the server ignores the Rapid Commit option sent by the client and uses the regular message exchange.   
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
interface-id-mapping boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Map hosts within interface-to-prefix combinations
  Context configure router string dhcp-server dhcpv6 string interface-id-mapping boolean
  Tree interface-id-mapping
 

Description

When configured to true, this command specifies an interface-mapping method that uses a combination of unique /64 prefixes and interface IDs. A /64 prefix is allocated to each interface ID, and all clients with the same interface ID are assigned an address from the prefix. This method is used for bridging clients in the same local loop and SAP, so that sharing the prefix allows communication to stay local. For SLAAC-based assignment, downstream neighbor discovery is automatically enabled to resolve the assigned address.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
lease-hold
  Synopsis Enter the lease-hold context
  Context configure router string dhcp-server dhcpv6 string lease-hold
  Tree lease-hold
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
additional-scenarios
  Synopsis Enter the additional-scenarios context
  Context configure router string dhcp-server dhcpv6 string lease-hold additional-scenarios
  Tree additional-scenarios
 

Description

Commands in this context configure additional types of leases or triggers that cause the system to hold up leases.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
internal-lease-ipsec boolean
  Synopsis Apply the lease hold timer to local IPsec clients
  Context configure router string dhcp-server dhcpv6 string lease-hold additional-scenarios internal-lease-ipsec boolean
  Tree internal-lease-ipsec
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
solicited-release boolean
  Synopsis Apply lease hold timer for solicited releases
  Context configure router string dhcp-server dhcpv6 string lease-hold additional-scenarios solicited-release boolean
  Tree solicited-release
 

Description

This command enables the server to hold up a lease even for a solicited release, for example, when the server receives a normal DHCP release message.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
time number
  Synopsis Lease hold time
  Context configure router string dhcp-server dhcpv6 string lease-hold time number
  Tree time
  Range 1 to 631152000
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
lease-query boolean
  Synopsis Handle and reply to lease query messages
  Context configure router string dhcp-server dhcpv6 string lease-query boolean
  Tree lease-query
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pool [pool-name] string
  Synopsis Enter the pool list instance
  Context configure router string dhcp-server dhcpv6 string pool string
  Tree pool
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[pool-name] string
  Synopsis DHCP server pool name
  Context configure router string dhcp-server dhcpv6 string pool string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
delegated-prefix
  Synopsis Enter the delegated-prefix context
  Context configure router string dhcp-server dhcpv6 string pool string delegated-prefix
  Tree delegated-prefix
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
length number
  Synopsis Prefix length for pool if unspecified by client
  Context configure router string dhcp-server dhcpv6 string pool string delegated-prefix length number
  Tree length
  Range 48 to 127
  Default 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum number
  Synopsis Maximum delegated prefix length for this pool
  Context configure router string dhcp-server dhcpv6 string pool string delegated-prefix maximum number
  Tree maximum
  Range 48 to 127
  Default 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
minimum number
  Synopsis Minimum delegated prefix length for this pool
  Context configure router string dhcp-server dhcpv6 string pool string delegated-prefix minimum number
  Tree minimum
  Range 48 to 127
  Default 48
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string dhcp-server dhcpv6 string pool string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
exclude-prefix [ipv6-prefix] string
  Synopsis Add a list entry for exclude-prefix
  Context configure router string dhcp-server dhcpv6 string pool string exclude-prefix string
  Tree exclude-prefix
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[ipv6-prefix] string
  Synopsis IPv6 prefix to be excluded from available pool prefixes
  Context configure router string dhcp-server dhcpv6 string pool string exclude-prefix string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
failover
  Synopsis Enter the failover context
  Context configure router string dhcp-server dhcpv6 string pool string failover
  Tree failover
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the failover mechanism
  Context configure router string dhcp-server dhcpv6 string pool string failover admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ignore-mclt-on-takeover boolean
  Synopsis Ignore maximum client lead during takeover from partner
  Context configure router string dhcp-server dhcpv6 string pool string failover ignore-mclt-on-takeover boolean
  Tree ignore-mclt-on-takeover
 

Description

When configured to true, the remote IP address range can be taken over immediately when the intercommunication link enters the PARTNER-DOWN state, without having to wait for the MCLT to expire.

When configured to false, the DHCP lease time for new clients is restricted to the MCLT during a failure. For existing clients, the lease time is gradually reduced over time to the MCLT by consecutive DHCP renewals.

  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-client-lead-time number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum time that DHCP server can extend client's lease
  Context configure router string dhcp-server dhcpv6 string pool string failover maximum-client-lead-time number
  Tree maximum-client-lead-time
 

Description

This command configures the maximum client lead time (MCLT), which is the maximum time that a DHCP server can extend the client's lease time beyond the lease time currently known by the DHCP partner node. In dual-homed environments, the initial lease time for all DHCP clients is restricted to the MCLT by default. Consecutive DHCP renewals can extend the lease time beyond the MCLT.
  Range 600 to 86399
  Default 600
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
partner-down-delay number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Delay to prevent lease duplication during link failure
  Context configure router string dhcp-server dhcpv6 string pool string failover partner-down-delay number
  Tree partner-down-delay
 

Description

This command configures the interval before a failed intercommunication link transitions from the COMM-INT state to the PARTNER-DOWN state. This delay prevents IP lease duplication during link failure by not allowing new IP addresses to be assigned from the remote IP address range. This timer is intended to provide the operator with enough time to remedy the failed situation and avoid duplication of IP addresses and prefixes during the failure.
  Range 0 to 86399
  Default 86399
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer [address] reference
  Synopsis Enter the peer list instance
  Context configure router string dhcp-server dhcpv6 string pool string failover peer reference
  Tree peer
  Max. Instances 1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[address] reference
  Synopsis IP address of the failover peer
  Context configure router string dhcp-server dhcpv6 string pool string failover peer reference
 

Reference

configure redundancy multi-chassis peer (ipv4-address-no-zone | ipv6-address-no-zone)

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
sync-tag string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Tag that identifies synchronizing server or pool pairs
  Context configure router string dhcp-server dhcpv6 string pool string failover peer reference sync-tag string
  Tree sync-tag
  String Length 1 to 32
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
startup-wait-time number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Time between initialization and assuming active role
  Context configure router string dhcp-server dhcpv6 string pool string failover startup-wait-time number
  Tree startup-wait-time
 

Description

This command configures a delay that avoids transient issues during the initialization process. During startup wait time, each failover peer waits after the initialization process before assuming the active role for the prefix designated as local or remote.
  Range 60 to 3600
  Default 120
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
options
  Synopsis Enter the options context
  Context configure router string dhcp-server dhcpv6 string pool string options
  Tree options
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
option [number] (number | keyword)
  Synopsis Enter the option list instance
  Context configure router string dhcp-server dhcpv6 string pool string options option (number | keyword)
  Tree option
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[number] (number | keyword)
  Synopsis DHCP option to send as identification string
  Context configure router string dhcp-server dhcpv6 string pool string options option (number | keyword)
  Range 1 to 65535
  Options dns-server, domain-name
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ascii-string string
  Synopsis DHCP option specified as an ASCII string
  Context configure router string dhcp-server dhcpv6 string pool string options option (number | keyword) ascii-string string
  Tree ascii-string
  String Length 1 to 127
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
domain-string string
  Synopsis DHCP option specified as a domain name
  Context configure router string dhcp-server dhcpv6 string pool string options option (number | keyword) domain-string string
  Tree domain-string
  String Length 1 to 127
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
duration number
  Synopsis DHCP option specified as time
  Context configure router string dhcp-server dhcpv6 string pool string options option (number | keyword) duration number
  Tree duration
  Range 10 to 315446399
  Units seconds
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
empty
  Synopsis Empty DHCP option
  Context configure router string dhcp-server dhcpv6 string pool string options option (number | keyword) empty
  Tree empty
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
hex-string string
  Synopsis DHCP option specified as hexadecimal string
  Context configure router string dhcp-server dhcpv6 string pool string options option (number | keyword) hex-string string
  Tree hex-string
  String Length 1 to 256
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ipv6-address string
  Synopsis DHCP option specified as a list of IPv6 addresses
  Context configure router string dhcp-server dhcpv6 string pool string options option (number | keyword) ipv6-address string
  Tree ipv6-address
  Max. Instances 4
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
prefix [ipv6-prefix] string
  Synopsis Enter the prefix list instance
  Context configure router string dhcp-server dhcpv6 string pool string prefix string
  Tree prefix
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[ipv6-prefix] string
  Synopsis IPv6 prefix to be excluded from available pool prefixes
  Context configure router string dhcp-server dhcpv6 string pool string prefix string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
drain boolean
  Synopsis No new leases can be assigned
  Context configure router string dhcp-server dhcpv6 string pool string prefix string drain boolean
  Tree drain
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
failover-control-type keyword
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Failover control type for this range
  Context configure router string dhcp-server dhcpv6 string pool string prefix string failover-control-type keyword
  Tree failover-control-type
  Default local
  Options local, remote, access-driven
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
options
  Synopsis Enter the options context
  Context configure router string dhcp-server dhcpv6 string pool string prefix string options
  Tree options
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
option [number] (number | keyword)
  Synopsis Enter the option list instance
  Context configure router string dhcp-server dhcpv6 string pool string prefix string options option (number | keyword)
  Tree option
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[number] (number | keyword)
  Synopsis DHCP option to send as identification string
  Context configure router string dhcp-server dhcpv6 string pool string prefix string options option (number | keyword)
  Range 1 to 65535
  Options dns-server, domain-name
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ascii-string string
  Synopsis DHCP option specified as an ASCII string
  Context configure router string dhcp-server dhcpv6 string pool string prefix string options option (number | keyword) ascii-string string
  Tree ascii-string
  String Length 1 to 127
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
domain-string string
  Synopsis DHCP option specified as a domain name
  Context configure router string dhcp-server dhcpv6 string pool string prefix string options option (number | keyword) domain-string string
  Tree domain-string
  String Length 1 to 127
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
duration number
  Synopsis DHCP option specified as time
  Context configure router string dhcp-server dhcpv6 string pool string prefix string options option (number | keyword) duration number
  Tree duration
  Range 10 to 315446399
  Units seconds
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
empty
  Synopsis Empty DHCP option
  Context configure router string dhcp-server dhcpv6 string pool string prefix string options option (number | keyword) empty
  Tree empty
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
hex-string string
  Synopsis DHCP option specified as hexadecimal string
  Context configure router string dhcp-server dhcpv6 string pool string prefix string options option (number | keyword) hex-string string
  Tree hex-string
  String Length 1 to 256
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ipv6-address string
  Synopsis DHCP option specified as a list of IPv6 addresses
  Context configure router string dhcp-server dhcpv6 string pool string prefix string options option (number | keyword) ipv6-address string
  Tree ipv6-address
  Max. Instances 4
 

Notes

The following elements are part of a mandatory choice: ascii-string, domain-string, duration, empty, hex-string, or ipv6-address.

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
preferred-lifetime number
  Synopsis Time this lease remains preferred
  Context configure router string dhcp-server dhcpv6 string pool string prefix string preferred-lifetime number
  Tree preferred-lifetime
 

Description

This command configures the preferred lifetime of the IPv6 lease address or prefix. When the preferred lifetime expires, any derived addresses are deprecated. The preferred lifetime must be less than or equal to the valid lifetime. 

Each address or prefix assigned to the client has associated preferred and valid lifetimes specified by the address assignment authority (such as the DHCP server, RADIUS, or ESM). To request an extension of the lifetimes assigned to an address, the client sends a renew message to the addressing authority. The authority sends a reply message to the client with the new lifetimes, allowing the client to continue to use the address/prefix without interruption. The lifetimes are transmitted from the addressing authority to the client in the identity association (IA) option at the top level of the message (not the address or prefix level).
  Range 300 to 315446399
  Default 3600
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
prefix-length-threshold [prefix-length] number
  Synopsis Enter the prefix-length-threshold list instance
  Context configure router string dhcp-server dhcpv6 string pool string prefix string prefix-length-threshold number
  Tree prefix-length-threshold
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[prefix-length] number
  Synopsis Delegated prefix length for pool thresholds
  Context configure router string dhcp-server dhcpv6 string pool string prefix string prefix-length-threshold number
  Range 1 to 128
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
absolute number
  Synopsis Minimum number of free prefixes for this prefix length
  Context configure router string dhcp-server dhcpv6 string pool string prefix string prefix-length-threshold number absolute number
  Tree absolute
  Range 1 to 4294967295
 

Notes

The following elements are part of a choice: absolute or percent.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
event-when-depleted boolean
  Synopsis Generate a notification when this pool is depleted
  Context configure router string dhcp-server dhcpv6 string pool string prefix string prefix-length-threshold number event-when-depleted boolean
  Tree event-when-depleted
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
percent number
  Synopsis Minimum percentage of free prefixes for prefix length
  Context configure router string dhcp-server dhcpv6 string pool string prefix string prefix-length-threshold number percent number
  Tree percent
  Range 1 to 100
 

Notes

The following elements are part of a choice: absolute or percent.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
prefix-type
  Synopsis Enter the prefix-type context
  Context configure router string dhcp-server dhcpv6 string pool string prefix string prefix-type
  Tree prefix-type
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pd boolean
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Allocate IA-PD prefixes from this prefix pool
  Context configure router string dhcp-server dhcpv6 string pool string prefix string prefix-type pd boolean
  Tree pd
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
wan-host boolean
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Allocate IA-NA or SLAAC prefixes from this prefix pool
  Context configure router string dhcp-server dhcpv6 string pool string prefix string prefix-type wan-host boolean
  Tree wan-host
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
rebind-time number
  Synopsis Rebind time for the lease
  Context configure router string dhcp-server dhcpv6 string pool string prefix string rebind-time number
  Tree rebind-time
 

Description

This command configures the rebind time, known as T2, at which the client contacts the addressing authority to extend the lifetimes of its leases.

The IP addressing authority (such as the DHCP server, RADIUS, or ESM) controls the time for extending lifetimes on assigned addresses/prefixes through the T1 and T2 parameters assigned to an identity association (IA). At renew time, T1, the client initiates a renew or reply message exchange to extend the lifetimes of any addresses in the IA. The client includes an IA option with all addresses or prefixes currently assigned to the IA in its renew message.

Recommended values for T1 and T2 are 0.5 and 0.8 times the shortest preferred lifetime of the addresses or prefixes in the IA that the addressing authority is willing to extend, respectively. The configured rebind timer value should always be less than or equal to the rebind timer. The T1 and T2 values are carried in the IPV6 address option in the IA.
  Range 0 to 1209600
  Default 2880
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
renew-time number
  Synopsis Renew time for the lease
  Context configure router string dhcp-server dhcpv6 string pool string prefix string renew-time number
  Tree renew-time
 

Description

This command configures the renew time, known as T1, at which the client makes a transition to the lease-renewal state.

The IP addressing authority (such as the DHCP server, RADIUS, or ESM) controls the time for extending lifetimes on assigned addresses/prefixes through the T1 and T2 parameters assigned to an identity association (IA). At renew time, T1, the client initiates a renew/reply message exchange to extend the lifetimes of any addresses in the IA. The client includes an IA option with all addresses/prefixes currently assigned to the IA in its renew message.

Recommended values for T1 and T2 are 0.5 and 0.8 times the shortest preferred lifetime of the addresses or prefixes in the IA that the addressing authority is willing to extend, respectively. The configured renew timer value should always be shorter than or equal to the rebind timer. The T1 and T2 values are carried in the IPV6 address option in the IA.
  Range 0 to 604800
  Default 1800
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
valid-lifetime number
  Synopsis Time for the lease to remain valid
  Context configure router string dhcp-server dhcpv6 string pool string prefix string valid-lifetime number
  Tree valid-lifetime
 

Description

This command configures a valid lifetime for a DHCPv6 lease address or prefix. The valid lifetime is the length of time an address and prefix remains in the valid state. The valid lifetime must be greater than or equal to the preferred lifetime. When the valid lifetime expires, the address and prefix becomes invalid and must not be used in communications. RFC 2461 recommends a default value of 30 days.

Each address and prefix assigned to the client has associated preferred and valid lifetimes specified by the address assignment authority (such as the DHCP server, RADIUS, or ESM). To request an extension of the lifetimes assigned to an address, the client sends a renew message to the addressing authority. The authority sends a reply message to the client with the new lifetimes, allowing the client to continue to use the address and prefix without interruption. The lifetimes are transmitted from the addressing authority to the client in the identity association (IA) option at the top level of the message (not the address or prefix level).
  Range 300 to 315446399
  Default 86400
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
prefix-length-threshold [prefix-length] number
  Synopsis Enter the prefix-length-threshold list instance
  Context configure router string dhcp-server dhcpv6 string pool string prefix-length-threshold number
  Tree prefix-length-threshold
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[prefix-length] number
  Synopsis Delegated prefix length for pool thresholds
  Context configure router string dhcp-server dhcpv6 string pool string prefix-length-threshold number
  Range 1 to 128
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
event-when-depleted boolean
  Synopsis Generate a notification when this pool is depleted
  Context configure router string dhcp-server dhcpv6 string pool string prefix-length-threshold number event-when-depleted boolean
  Tree event-when-depleted
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
minimum-free-percent number
  Synopsis Percentage of free prefixes for this prefix length
  Context configure router string dhcp-server dhcpv6 string pool string prefix-length-threshold number minimum-free-percent number
  Tree minimum-free-percent
  Range 0 to 100
  Default 0
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pool-selection
  Synopsis Enter the pool-selection context
  Context configure router string dhcp-server dhcpv6 string pool-selection
  Tree pool-selection
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
use-link-address
  Synopsis Enable the use-link-address context
  Context configure router string dhcp-server dhcpv6 string pool-selection use-link-address
  Tree use-link-address
 

Description

This command configures the local pool selection for DHCPv6 address or prefix assignment to use the link address. When configured, the selected pool contains a prefix covering the link address.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
scope keyword
  Synopsis Scope of the IP address selection
  Context configure router string dhcp-server dhcpv6 string pool-selection use-link-address scope keyword
  Tree scope
  Default subnet
  Options subnet, pool
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
use-pool-from-client
  Synopsis Enable the use-pool-from-client context
  Context configure router string dhcp-server dhcpv6 string pool-selection use-pool-from-client
  Tree use-pool-from-client
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
delimiter string
  Synopsis Delimiter to combine primary and secondary pool names
  Context configure router string dhcp-server dhcpv6 string pool-selection use-pool-from-client delimiter string
  Tree delimiter
 

Description

This command configures a single ASCII character that separates the pool names in DHCP vendor-specific option 82, which identifies the address pool to be used for this client.
  String Length 1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
server-id
  Synopsis Enter the server-id context
  Context configure router string dhcp-server dhcpv6 string server-id
  Tree server-id
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
duid-enterprise
  Synopsis Enter the duid-enterprise context
  Context configure router string dhcp-server dhcpv6 string server-id duid-enterprise
  Tree duid-enterprise
 

Notes

The following elements are part of a choice: duid-enterprise or duid-link-local.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ascii-string string
  Synopsis DUID enterprise server ID specified as an ASCII string
  Context configure router string dhcp-server dhcpv6 string server-id duid-enterprise ascii-string string
  Tree ascii-string
  String Length 1 to 58
 

Notes

The following elements are part of a choice: ascii-string or hex-string.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
hex-string string
  Synopsis DUID enterprise server ID specified as a hex string
  Context configure router string dhcp-server dhcpv6 string server-id duid-enterprise hex-string string
  Tree hex-string
  String Length 1 to 118
 

Notes

The following elements are part of a choice: ascii-string or hex-string.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
duid-link-local
  Synopsis Derive DUID server ID from a system link-layer address
  Context configure router string dhcp-server dhcpv6 string server-id duid-link-local
  Tree duid-link-local
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: duid-enterprise or duid-link-local.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
user-identification keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis User identification method for the DHCP server
  Context configure router string dhcp-server dhcpv6 string user-identification keyword
  Tree user-identification
  Options mac-circuit-id, duid, interface-id, interface-id-link-local, client-id, mac, circuit-id, remote-id
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR

dns

  Synopsis Enter the dns context
  Context configure router string dns
  Tree dns
  Introduced 20.2.R1
 

Platforms

All
redirect-vprn
  Synopsis Enter the redirect-vprn context
  Context configure router string dns redirect-vprn
  Tree redirect-vprn
 

Description

Commands in this context configure DNS resolution of all packets through the VPRN DNS server.

The VPRN DNS server must be configured before using the commands in this context. If the VPRN DNS server is not configured, all packet resolution fails.
  Introduced 20.2.R1
 

Platforms

All
service [service-name] reference
  Synopsis Enter the service list instance
  Context configure router string dns redirect-vprn service reference
  Tree service
  Max. Instances 1
  Introduced 20.2.R1
 

Platforms

All
[service-name] reference
  Synopsis Administrative service name
  Context configure router string dns redirect-vprn service reference
 

Reference

configure service vprn string

 

Notes

This element is part of a list key.
  Introduced 20.2.R1
 

Platforms

All
preference number
  Synopsis Service preference
  Context configure router string dns redirect-vprn service reference preference number
  Tree preference
  Range 0 to 255
  Introduced 20.2.R1
 

Platforms

All

ecmp number

  Synopsis Maximum equal-cost routes for routing table instance
  Context configure router string ecmp number
  Tree ecmp
 

Description

This command configures ECMP and defines the number of routes for path sharing. For example, the value 2 means that two equal-cost routes are used for cost sharing.

ECMP can be used only for routes learned with the same preference and the same protocol.

When more ECMP routes are available at the best preference than the number specified with this command, the lowest next-hop IP-address algorithm is used to select the routes.

If this command is configured to 1, ECMP path sharing is disabled.
  Range 1 to 64
  Default 1
  Introduced 16.0.R1
 

Platforms

All

entropy-label boolean

  Synopsis Use entropy label
  Context configure router string entropy-label boolean
  Tree entropy-label
 

Description

When configured to true, this command enables the use of entropy labels.

The entropy label and indicator (EL/ELI) are inserted on relevant packets. Applicable packets are those for which at least one LSP in the stack at the far end has advertised the entropy-label capability. These LSPs are in LDP or RSVP tunnels used by an IGP or BGP shortcut. If the tunnel is of type RSVP, the entropy-label capability must also be enabled under the configure router mpls or configure router mpls lsp context.

This command also results in other traffic that is forwarded over an LDP or RSVP LSP for which this router is the LER, and for which there is no explicit service endpoint on this router, to have the EL/ELI enabled, subject to the LSP far-end advertising entropy-label-capability. An example of such traffic includes packets arriving on a stitched LDP LSP forwarded over an RSVP LSP.

The entropy label and the hash label features are mutually exclusive. The entropy label cannot be configured on a spoke SDP or service where the hash label feature has already been configured.

When configured to false, this command disables the use of entropy labels.
  Default false
  Introduced 16.0.R1
 

Platforms

All

fib-priority keyword

  Synopsis FIB priority for VPRN BGP routes
  Context configure router string fib-priority keyword
  Tree fib-priority
  Default standard
  Options standard, high
  Introduced 16.0.R1
 

Platforms

All

fib-telemetry boolean

  Synopsis Collect extra state information
  Context configure router string fib-telemetry boolean
  Tree fib-telemetry
  Default false
  Introduced 16.0.R4
 

Platforms

All

firewall

  Synopsis Enter the firewall context
  Context configure router string firewall
  Tree firewall
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
domain [name] string
  Synopsis Enter the domain list instance
  Context configure router string firewall domain string
  Tree domain
  Max. Instances 1024
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
[name] string
  Synopsis Firewall domain name
  Context configure router string firewall domain string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the firewall domain
  Context configure router string firewall domain string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
dhcpv6-server
  Synopsis Enter the dhcpv6-server context
  Context configure router string firewall domain string dhcpv6-server
  Tree dhcpv6-server
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
name string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis DHCPv6 server name
  Context configure router string firewall domain string dhcpv6-server name string
  Tree name
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
router-instance string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Router name
  Context configure router string firewall domain string dhcpv6-server router-instance string
  Tree router-instance
  Introduced 16.0.R4
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-group reference
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis NAT group for this domain
  Context configure router string firewall domain string nat-group reference
  Tree nat-group
 

Reference

configure isa nat-group number

 

Notes

The following elements are part of a mandatory choice: nat-group or wlan-gw-group.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
prefix [ip-prefix] string
  Synopsis Enter the prefix list instance
  Context configure router string firewall domain string prefix string
  Tree prefix
  Max. Instances 4096
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
[ip-prefix] string
  Synopsis IP prefix and prefix length for the domain firewall
  Context configure router string firewall domain string prefix string
 

Description

This command configures a prefix for which firewall functionality applies within the domain. Prefixes cannot be shared or duplicated across multiple domains in the same routing context. A domain can contain multiple prefixes.
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string firewall domain string prefix string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
wlan-gw-group reference
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis WLAN GW group used for NAT
  Context configure router string firewall domain string wlan-gw-group reference
  Tree wlan-gw-group
 

Reference

configure isa wlan-gw-group number

 

Notes

The following elements are part of a mandatory choice: nat-group or wlan-gw-group.
  Introduced 16.0.R4
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR

flowspec

  Synopsis Enter the flowspec context
  Context configure router string flowspec
  Tree flowspec
  Introduced 16.0.R1
 

Platforms

All
filter-cam-type keyword
  Synopsis Filter policy type for FlowSpec embedding
  Context configure router string flowspec filter-cam-type keyword
  Tree filter-cam-type
 

Description

This command specifies the filter type that is required to embed FlowSpec entries. The filter type defines the match criteria that are available in the filter policy.
  Default normal
  Options normal, packet-length
  Introduced 20.7.R1
 

Platforms

All
ip-filter-max-size number
  Synopsis Maximum number of flowspec rule entries in IPv4 filter
  Context configure router string flowspec ip-filter-max-size number
  Tree ip-filter-max-size
 

Description

This command configures the maximum number of IPv4 flowspec routes, or rules, that can be entered in the auto-created embedded filter, fSpec-X. Flowspec filter entries embedded in a filter policy in this routing instance will use filter entries from the range between the embedding offset and (offset + ip-filter-max-size – 1).

The sum of the maximum-size value and the highest offset in any IPv4 filter that embeds IPv4 flowspec rules from this routing instance (excluding filters that embed at offset 262143) must not exceed 262143.

The maximum size can be adjusted up or down at any time. If the current number of IPv4 flowspec rules is greater than the new maximum, the extra rules are removed immediately but retained in the BGP RIB. If the limit is increased, new rules are programmed only as they are received in new BGP updates.
  Range 0 to 262143
  Default 512
  Introduced 16.0.R1
 

Platforms

All
ipv6-filter-max-size number
  Synopsis Maximum number of flowspec rule entries in IPv6 filter
  Context configure router string flowspec ipv6-filter-max-size number
  Tree ipv6-filter-max-size
 

Description

This command configures the maximum number of IPv6 flowspec routes or rules that can be embedded into an ingress IPv6 filter policy for a specified routing instance. Flowspec filter entries embedded in a filter policy in this routing instance will use filter entries from the range between the embedding offset and (offset + ip-filter-max-size – 1).

The sum of the maximum-size value and the highest offset in any IPv6 filter that embeds IPv6 flowspec rules from this routing instance (excluding filters that embed at offset 262143) must not exceed 262143.

The maximum size can be adjusted up or down at any time. If the current number of IPv6 flowspec rules is greater than the new maximum, the extra rules are removed immediately but retained in the BGP RIB. If the limit is increased, new rules are programmed only as they are received in new BGP updates.
  Range 0 to 262143
  Default 512
  Introduced 16.0.R1
 

Platforms

All

gtm

  Synopsis Enter the gtm context
  Context configure router string gtm
  Tree gtm
  Introduced 19.5.R1
 

Platforms

All
mvpn boolean
  Synopsis Enable the configuration of MVPN-related parameters
  Context configure router string gtm mvpn boolean
  Tree mvpn
  Default false
  Introduced 19.5.R1
 

Platforms

All
provider-tunnel
  Synopsis Enter the provider-tunnel context
  Context configure router string gtm provider-tunnel
  Tree provider-tunnel
  Introduced 19.5.R1
 

Platforms

All
inclusive
  Synopsis Enter the inclusive context
  Context configure router string gtm provider-tunnel inclusive
  Tree inclusive
  Introduced 19.5.R1
 

Platforms

All
rsvp
  Synopsis Enable the rsvp context
  Context configure router string gtm provider-tunnel inclusive rsvp
  Tree rsvp
  Introduced 19.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of P2MP RSVP as provider tunnel
  Context configure router string gtm provider-tunnel inclusive rsvp admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 19.5.R1
 

Platforms

All
lsp-template reference
  Synopsis LSP template name
  Context configure router string gtm provider-tunnel inclusive rsvp lsp-template reference
  Tree lsp-template
 

Reference

configure router string mpls lsp-template string

  Introduced 19.5.R1
 

Platforms

All
selective
  Synopsis Enter the selective context
  Context configure router string gtm provider-tunnel selective
  Tree selective
  Introduced 19.5.R1
 

Platforms

All
data-delay-interval number
  Synopsis Delay before a PBR switches traffic to selective tunnel
  Context configure router string gtm provider-tunnel selective data-delay-interval number
  Tree data-delay-interval
  Range 3 to 180
  Default 3
  Introduced 19.5.R1
 

Platforms

All
data-threshold
  Synopsis Enter the data-threshold context
  Context configure router string gtm provider-tunnel selective data-threshold
  Tree data-threshold
  Introduced 19.5.R1
 

Platforms

All
group-prefix [ip-group-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the group-prefix list instance
  Context configure router string gtm provider-tunnel selective data-threshold group-prefix (ipv4-prefix | ipv6-prefix)
  Tree group-prefix
  Introduced 19.5.R1
 

Platforms

All
[ip-group-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Multicast group-prefix
  Context configure router string gtm provider-tunnel selective data-threshold group-prefix (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 19.5.R1
 

Platforms

All
pe-threshold-add number
  Synopsis Number of receiver PBRs to create S-PMSI
  Context configure router string gtm provider-tunnel selective data-threshold group-prefix (ipv4-prefix | ipv6-prefix) pe-threshold-add number
  Tree pe-threshold-add
  Range 1 to 65535
  Default 65535
  Introduced 19.5.R1
 

Platforms

All
pe-threshold-delete number
  Synopsis Number of receiver PBRs to delete S-PMSI
  Context configure router string gtm provider-tunnel selective data-threshold group-prefix (ipv4-prefix | ipv6-prefix) pe-threshold-delete number
  Tree pe-threshold-delete
  Range 2 to 65535
  Default 65535
  Introduced 19.5.R1
 

Platforms

All
threshold number
  Synopsis Threshold for a group prefix
  Context configure router string gtm provider-tunnel selective data-threshold group-prefix (ipv4-prefix | ipv6-prefix) threshold number
  Tree threshold
  Range 1 to 4294967294
  Units kilobps
 

Notes

This element is mandatory.
  Introduced 19.5.R1
 

Platforms

All
maximum-p2mp-spmsi number
  Synopsis Maximum number of RSVP P2MP or LDP P2MP S-PMSI tunnels
  Context configure router string gtm provider-tunnel selective maximum-p2mp-spmsi number
  Tree maximum-p2mp-spmsi
  Range 1 to 4000
  Default 10
  Introduced 19.5.R1
 

Platforms

All
rsvp
  Synopsis Enable the rsvp context
  Context configure router string gtm provider-tunnel selective rsvp
  Tree rsvp
  Introduced 19.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of P2MP RSVP as provider tunnel
  Context configure router string gtm provider-tunnel selective rsvp admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 19.5.R1
 

Platforms

All
lsp-template reference
  Synopsis LSP template name
  Context configure router string gtm provider-tunnel selective rsvp lsp-template reference
  Tree lsp-template
 

Reference

configure router string mpls lsp-template string

  Introduced 19.5.R1
 

Platforms

All

gtp

  Synopsis Enter the gtp context
  Context configure router string gtp
  Tree gtp
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
s11
  Synopsis Enter the s11 context
  Context configure router string gtp s11
  Tree s11
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
interface [interface-name] reference
  Synopsis Enter the interface list instance
  Context configure router string gtp s11 interface reference
  Tree interface
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
[interface-name] reference
  Synopsis Name for the S11 interface
  Context configure router string gtp s11 interface reference
 

Reference

configure router string interface string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
apn-policy reference
  Synopsis Access point name policy for the S11 interface
  Context configure router string gtp s11 interface reference apn-policy reference
  Tree apn-policy
 

Reference

configure subscriber-mgmt gtp apn-policy string

  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
peer-profile-map
  Synopsis Enter the peer-profile-map context
  Context configure router string gtp s11 peer-profile-map
  Tree peer-profile-map
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
prefix [peer-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the prefix list instance
  Context configure router string gtp s11 peer-profile-map prefix (ipv4-prefix | ipv6-prefix)
  Tree prefix
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
[peer-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis IP prefix and prefix length for the subnet
  Context configure router string gtp s11 peer-profile-map prefix (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
peer-profile reference
  Synopsis GTP peer profile associated with the address prefix
  Context configure router string gtp s11 peer-profile-map prefix (ipv4-prefix | ipv6-prefix) peer-profile reference
  Tree peer-profile
 

Reference

configure subscriber-mgmt gtp peer-profile string

 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
upf-data-endpoint
  Synopsis Enable the upf-data-endpoint context
  Context configure router string gtp upf-data-endpoint
  Tree upf-data-endpoint
 

Description

Commands in this context configure a GTP - User Plane (GTP-U) endpoint used by BNG CUPS FWA sessions.
  Introduced 21.2.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
fpe reference
  Synopsis FPE used to encapsulate and decapsulate GTP-U traffic
  Context configure router string gtp upf-data-endpoint fpe reference
  Tree fpe
 

Reference

configure fwd-path-ext fpe number

 

Notes

This element is mandatory.
  Introduced 21.5.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
interface reference
  Synopsis Interface on which the GTP-U packets terminate
  Context configure router string gtp upf-data-endpoint interface reference
  Tree interface
 

Reference

configure router string interface string

 

Notes

This element is mandatory.
  Introduced 21.2.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
uplink
  Synopsis Enable the uplink context
  Context configure router string gtp uplink
  Tree uplink
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
apn string
  Synopsis Network identifier part of the APN for the uplink
  Context configure router string gtp uplink apn string
  Tree apn
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
pdn-type keyword
  Synopsis Default PDN to be signaled in GTP
  Context configure router string gtp uplink pdn-type keyword
  Tree pdn-type
  Default ipv4
  Options ipv4, ipv6, ipv4v6
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
peer-profile-map
  Synopsis Enter the peer-profile-map context
  Context configure router string gtp uplink peer-profile-map
  Tree peer-profile-map
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
prefix [peer-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the prefix list instance
  Context configure router string gtp uplink peer-profile-map prefix (ipv4-prefix | ipv6-prefix)
  Tree prefix
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
[peer-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis IP prefix and prefix length for the subnet
  Context configure router string gtp uplink peer-profile-map prefix (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
peer-profile reference
  Synopsis GTP peer profile associated with the address prefix
  Context configure router string gtp uplink peer-profile-map prefix (ipv4-prefix | ipv6-prefix) peer-profile reference
  Tree peer-profile
 

Reference

configure subscriber-mgmt gtp peer-profile string

 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR

icmp-tunneling boolean

  Synopsis Allow tunneling of ICMP reply packets over MPLS LSPs
  Context configure router string icmp-tunneling boolean
  Tree icmp-tunneling
  Default false
  Introduced 16.0.R1
 

Platforms

All

igmp

  Synopsis Enable the igmp context
  Context configure router string igmp
  Tree igmp
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of IGMP
  Context configure router string igmp admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
forwarding-group-interface forwarding-service string group-interface-name reference
  Synopsis Enter the forwarding-group-interface list instance
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference
  Tree forwarding-group-interface
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
forwarding-service string
  Synopsis Forwarding service for the subscriber interface
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
group-interface-name reference
  Synopsis Group interface name
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference
 

Reference

configure service vprn string subscriber-interface string group-interface string

 

Notes

This element is part of a list key.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of IGMP
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
import-policy reference
  Synopsis Import policy that filters IGMP packets
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference import-policy reference
  Tree import-policy
 

Description

This command configures the IGMP import policy, or filter, for an interface subscriber or a group interface. An IGMP filter is also known as a black or white list, and it is defined as a router policy option.

When redirection is applied, only the import policy from the subscriber is in effect. The import policy under the group interface is applicable only for IGMP states received directly on the SAP (AN in IGMP proxy mode).
 

Reference

configure policy-options policy-statement string

  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-group-sources number
  Synopsis Maximum number of group sources for this interface
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference maximum-number-group-sources number
  Tree maximum-number-group-sources
 

Description

This command configures the maximum number of group sources for which IGMP or MLD can have local receiver information based on received IGMP or MLD reports on this interface. When this configuration is changed dynamically to a lower value than the currently accepted number of group sources, the group sources that are already accepted are not deleted. Only new group sources are not allowed.
  Range 1 to 32000
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-groups number
  Synopsis Maximum number of groups for this interface
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference maximum-number-groups number
  Tree maximum-number-groups
  Range 1 to 16000
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-sources number
  Synopsis Maximum number of sources that are allowed per group
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference maximum-number-sources number
  Tree maximum-number-sources
  Range 1 to 1000
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
mcac
  Synopsis Enter the mcac context
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference mcac
  Tree mcac
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
bandwidth
  Synopsis Enter the bandwidth context
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference mcac bandwidth
  Tree bandwidth
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
mandatory (number | keyword)
  Synopsis Pre-reserved bandwidth for all mandatory channels
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference mcac bandwidth mandatory (number | keyword)
  Tree mandatory
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
total (number | keyword)
  Synopsis Maximum allowed bandwidth
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference mcac bandwidth total (number | keyword)
  Tree total
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
interface-policy reference
  Synopsis Name of multicast CAC interface policy
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference mcac interface-policy reference
  Tree interface-policy
 

Reference

configure mcac interface-policy string

  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
policy reference
  Synopsis Multicast CAC policy name
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference mcac policy reference
  Tree policy
 

Description

This command configures the name of the global channel bandwidth definition policy that is used for (H)MCAC and HQoS adjustment.

Within the scope of HQoS adjustment, the channel definition policy under the group interface is used if redirection is unconfigured. In this case, the HQoS adjustment can be applied to IPoE subscribers in per-SAP replication mode.

If redirection is configured, the channel bandwidth definition policy applied under the Layer 3 redirected interface is in effect.

Hierarchical MCAC (HMCAC) is supported on two levels simultaneously:

  • subscriber level and redirected interface when redirection is configured

  • subscriber level and group-interface level when redirection is unconfigured

In HMCAC, the subscriber is checked against its bandwidth limits first, then against the bandwidth limits of the redirected or group interface. If redirection is configured but the policy is referenced only under the group interface, no admission control is executed (HMCAC or MCAC).
 

Reference

configure mcac policy string

  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-interval number
  Synopsis Time between two consecutive host-query messages
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference query-interval number
  Tree query-interval
  Range 2 to 1024
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-last-member-interval number
  Synopsis Time between group-specific query messages
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference query-last-member-interval number
  Tree query-last-member-interval
  Range 1 to 1023
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-response-interval number
  Synopsis Time to wait for a response to the host-query messages
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference query-response-interval number
  Tree query-response-interval
  Range 1 to 1023
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-source-address string
  Synopsis Source address for IGMP queries
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference query-source-address string
  Tree query-source-address
 

Description

This command configures the query source IP address for the group interface. This IP address overrides the source IP address configured at the router level.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
router-alert-check boolean
  Synopsis Enable router alert checking for IGMP or MLD messages
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference router-alert-check boolean
  Tree router-alert-check
  Default true
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
sub-hosts-only boolean
  Synopsis Allow IGMP traffic from known hosts only
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference sub-hosts-only boolean
  Tree sub-hosts-only
  Default true
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
subnet-check boolean
  Synopsis Allow subnet checking
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference subnet-check boolean
  Tree subnet-check
  Default true
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
version keyword
  Synopsis IGMP protocol version
  Context configure router string igmp forwarding-group-interface forwarding-service string group-interface-name reference version keyword
  Tree version
  Default 3
  Options 1, 2, 3
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
group-if-query-source-address string
  Synopsis Default query-source address for all group interfaces
  Context configure router string igmp group-if-query-source-address string
  Tree group-if-query-source-address
  Introduced 16.0.R1
 

Platforms

All
group-interface [group-interface-name] reference
  Synopsis Enter the group-interface list instance
  Context configure router string igmp group-interface reference
  Tree group-interface
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[group-interface-name] reference
  Synopsis Group interface name
  Context configure router string igmp group-interface reference
 

Reference

configure service ies string subscriber-interface string group-interface string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of IGMP
  Context configure router string igmp group-interface reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
import-policy reference
  Synopsis Import policy that filters IGMP packets
  Context configure router string igmp group-interface reference import-policy reference
  Tree import-policy
 

Description

This command configures the IGMP import policy, or filter, for an interface subscriber or a group interface. An IGMP filter is also known as a black or white list, and it is defined as a router policy option.

When redirection is applied, only the import policy from the subscriber is in effect. The import policy under the group interface is applicable only for IGMP states received directly on the SAP (AN in IGMP proxy mode).
 

Reference

configure policy-options policy-statement string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-group-sources number
  Synopsis Maximum number of group sources for this interface
  Context configure router string igmp group-interface reference maximum-number-group-sources number
  Tree maximum-number-group-sources
 

Description

This command configures the maximum number of group sources for which IGMP or MLD can have local receiver information based on received IGMP or MLD reports on this interface. When this configuration is changed dynamically to a lower value than the currently accepted number of group sources, the group sources that are already accepted are not deleted. Only new group sources are not allowed.
  Range 1 to 32000
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-groups number
  Synopsis Maximum number of groups for this interface
  Context configure router string igmp group-interface reference maximum-number-groups number
  Tree maximum-number-groups
  Range 1 to 16000
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-sources number
  Synopsis Maximum number of sources that are allowed per group
  Context configure router string igmp group-interface reference maximum-number-sources number
  Tree maximum-number-sources
  Range 1 to 1000
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
mcac
  Synopsis Enter the mcac context
  Context configure router string igmp group-interface reference mcac
  Tree mcac
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
bandwidth
  Synopsis Enter the bandwidth context
  Context configure router string igmp group-interface reference mcac bandwidth
  Tree bandwidth
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
mandatory (number | keyword)
  Synopsis Pre-reserved bandwidth for all mandatory channels
  Context configure router string igmp group-interface reference mcac bandwidth mandatory (number | keyword)
  Tree mandatory
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
total (number | keyword)
  Synopsis Maximum allowed bandwidth
  Context configure router string igmp group-interface reference mcac bandwidth total (number | keyword)
  Tree total
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
interface-policy reference
  Synopsis Name of multicast CAC interface policy
  Context configure router string igmp group-interface reference mcac interface-policy reference
  Tree interface-policy
 

Reference

configure mcac interface-policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
policy reference
  Synopsis Multicast CAC policy name
  Context configure router string igmp group-interface reference mcac policy reference
  Tree policy
 

Description

This command configures the name of the global channel bandwidth definition policy that is used for (H)MCAC and HQoS adjustment.

Within the scope of HQoS adjustment, the channel definition policy under the group interface is used if redirection is unconfigured. In this case, the HQoS adjustment can be applied to IPoE subscribers in per-SAP replication mode.

If redirection is configured, the channel bandwidth definition policy applied under the Layer 3 redirected interface is in effect.

Hierarchical MCAC (HMCAC) is supported on two levels simultaneously:

  • subscriber level and redirected interface when redirection is configured

  • subscriber level and group-interface level when redirection is unconfigured

In HMCAC, the subscriber is checked against its bandwidth limits first, then against the bandwidth limits of the redirected or group interface. If redirection is configured but the policy is referenced only under the group interface, no admission control is executed (HMCAC or MCAC).
 

Reference

configure mcac policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-interval number
  Synopsis Time between two consecutive host-query messages
  Context configure router string igmp group-interface reference query-interval number
  Tree query-interval
  Range 2 to 1024
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-last-member-interval number
  Synopsis Time between group-specific query messages
  Context configure router string igmp group-interface reference query-last-member-interval number
  Tree query-last-member-interval
  Range 1 to 1023
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-response-interval number
  Synopsis Time to wait for a response to the host-query messages
  Context configure router string igmp group-interface reference query-response-interval number
  Tree query-response-interval
  Range 1 to 1023
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-source-address string
  Synopsis Source address for IGMP queries
  Context configure router string igmp group-interface reference query-source-address string
  Tree query-source-address
 

Description

This command configures the query source IP address for the group interface. This IP address overrides the source IP address configured at the router level.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
router-alert-check boolean
  Synopsis Enable router alert checking for IGMP or MLD messages
  Context configure router string igmp group-interface reference router-alert-check boolean
  Tree router-alert-check
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
sub-hosts-only boolean
  Synopsis Allow IGMP traffic from known hosts only
  Context configure router string igmp group-interface reference sub-hosts-only boolean
  Tree sub-hosts-only
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
subnet-check boolean
  Synopsis Allow subnet checking
  Context configure router string igmp group-interface reference subnet-check boolean
  Tree subnet-check
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
version keyword
  Synopsis IGMP protocol version
  Context configure router string igmp group-interface reference version keyword
  Tree version
  Default 3
  Options 1, 2, 3
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
interface [ip-interface-name] string
  Synopsis Enter the interface list instance
  Context configure router string igmp interface string
  Tree interface
  Introduced 16.0.R1
 

Platforms

All
[ip-interface-name] string
  Synopsis IP interface name
  Context configure router string igmp interface string
 

Description

This command configures the interface name, which must be unique within the group of defined IP interfaces for the context. If the IP interface name does not exist or does not have an IP address configured, an error message is returned. If the IP interface exists in a different area, it is moved to this area.

An interface name cannot be in the form of an IP address.
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of IGMP
  Context configure router string igmp interface string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
import-policy reference
  Synopsis Import policy that filters IGMP packets
  Context configure router string igmp interface string import-policy reference
  Tree import-policy
 

Description

This command configures the IGMP import policy, or filter, for an interface subscriber or a group interface. An IGMP filter is also known as a black or white list, and it is defined as a router policy option.

When redirection is applied, only the import policy from the subscriber is in effect. The import policy under the group interface is applicable only for IGMP states received directly on the SAP (AN in IGMP proxy mode).
 

Reference

configure policy-options policy-statement string

  Introduced 16.0.R1
 

Platforms

All
maximum-number-group-sources number
  Synopsis Maximum number of group sources for this interface
  Context configure router string igmp interface string maximum-number-group-sources number
  Tree maximum-number-group-sources
 

Description

This command configures the maximum number of group sources for which IGMP or MLD can have local receiver information based on received IGMP or MLD reports on this interface. When this configuration is changed dynamically to a lower value than the currently accepted number of group sources, the group sources that are already accepted are not deleted. Only new group sources are not allowed.
  Range 1 to 32000
  Introduced 16.0.R1
 

Platforms

All
maximum-number-groups number
  Synopsis Maximum number of groups for this interface
  Context configure router string igmp interface string maximum-number-groups number
  Tree maximum-number-groups
  Range 1 to 16000
  Introduced 16.0.R1
 

Platforms

All
maximum-number-sources number
  Synopsis Maximum number of sources that are allowed per group
  Context configure router string igmp interface string maximum-number-sources number
  Tree maximum-number-sources
  Range 1 to 1000
  Introduced 16.0.R1
 

Platforms

All
mcac
  Synopsis Enter the mcac context
  Context configure router string igmp interface string mcac
  Tree mcac
  Introduced 16.0.R1
 

Platforms

All
bandwidth
  Synopsis Enter the bandwidth context
  Context configure router string igmp interface string mcac bandwidth
  Tree bandwidth
  Introduced 16.0.R1
 

Platforms

All
mandatory (number | keyword)
  Synopsis Pre-reserved bandwidth for all mandatory channels
  Context configure router string igmp interface string mcac bandwidth mandatory (number | keyword)
  Tree mandatory
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 16.0.R1
 

Platforms

All
total (number | keyword)
  Synopsis Maximum allowed bandwidth
  Context configure router string igmp interface string mcac bandwidth total (number | keyword)
  Tree total
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 16.0.R1
 

Platforms

All
interface-policy reference
  Synopsis Name of multicast CAC interface policy
  Context configure router string igmp interface string mcac interface-policy reference
  Tree interface-policy
 

Reference

configure mcac interface-policy string

  Introduced 16.0.R1
 

Platforms

All
mc-constraints
  Synopsis Enter the mc-constraints context
  Context configure router string igmp interface string mcac mc-constraints
  Tree mc-constraints
  Introduced 16.0.R1
 

Platforms

All
level [level-id] number
  Synopsis Enter the level list instance
  Context configure router string igmp interface string mcac mc-constraints level number
  Tree level
 

Description

Commands in this context configure the amount of bandwidth available within a given bundle for MC traffic for a specified level.
  Introduced 16.0.R1
 

Platforms

All
[level-id] number
  Synopsis Bandwidth level ID for an MCAC constraint
  Context configure router string igmp interface string mcac mc-constraints level number
  Range 1 to 8
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
bandwidth number
  Synopsis Bandwidth available for this level
  Context configure router string igmp interface string mcac mc-constraints level number bandwidth number
  Tree bandwidth
  Range 0 to 2147483647
  Units kilobps
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
number-down [number-lag-port-down] number
  Synopsis Enter the number-down list instance
  Context configure router string igmp interface string mcac mc-constraints number-down number
  Tree number-down
 

Description

Commands in this context configure the number of ports down along with level for the MCAC policy on the interface.
  Introduced 16.0.R1
 

Platforms

All
[number-lag-port-down] number
  Synopsis Number of ports that are down in this LAG link
  Context configure router string igmp interface string mcac mc-constraints number-down number
  Range 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
level number
  Synopsis Level ID to associate with number of down LAG ports
  Context configure router string igmp interface string mcac mc-constraints number-down number level number
  Tree level
 

Description

This command specifies the bandwidth for a given level. Level 1 has the highest priority and level 8 has the lowest priority.
  Range 1 to 8
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
use-lag-port-weight boolean
  Synopsis Use LAG port weight in calculating MCAC constraints
  Context configure router string igmp interface string mcac mc-constraints use-lag-port-weight boolean
  Tree use-lag-port-weight
 

Description

When configured to true, port weight is used when determining available bandwidth per level when LAG ports go down or come up. This command is required for proper operation on mixed port-speed LAGs and can also be used for unmixed port-speed LAGs.
  Default false
  Introduced 16.0.R1
 

Platforms

All
policy reference
  Synopsis Multicast CAC policy name
  Context configure router string igmp interface string mcac policy reference
  Tree policy
 

Description

This command configures the name of the global channel bandwidth definition policy that is used for (H)MCAC and HQoS adjustment.

Within the scope of HQoS adjustment, the channel definition policy under the group interface is used if redirection is unconfigured. In this case, the HQoS adjustment can be applied to IPoE subscribers in per-SAP replication mode.

If redirection is configured, the channel bandwidth definition policy applied under the Layer 3 redirected interface is in effect.

Hierarchical MCAC (HMCAC) is supported on two levels simultaneously:

  • subscriber level and redirected interface when redirection is configured

  • subscriber level and group-interface level when redirection is unconfigured

In HMCAC, the subscriber is checked against its bandwidth limits first, then against the bandwidth limits of the redirected or group interface. If redirection is configured but the policy is referenced only under the group interface, no admission control is executed (HMCAC or MCAC).
 

Reference

configure mcac policy string

  Introduced 16.0.R1
 

Platforms

All
query-interval number
  Synopsis Time between two consecutive host-query messages
  Context configure router string igmp interface string query-interval number
  Tree query-interval
  Range 2 to 1024
  Introduced 16.0.R1
 

Platforms

All
query-last-member-interval number
  Synopsis Time between group-specific query messages
  Context configure router string igmp interface string query-last-member-interval number
  Tree query-last-member-interval
  Range 1 to 1023
  Introduced 16.0.R1
 

Platforms

All
query-response-interval number
  Synopsis Time to wait for a response to the host-query messages
  Context configure router string igmp interface string query-response-interval number
  Tree query-response-interval
  Range 1 to 1023
  Introduced 16.0.R1
 

Platforms

All
redundant-mcast boolean
  Synopsis Use interface as a redundant-pair member for multicast
  Context configure router string igmp interface string redundant-mcast boolean
  Tree redundant-mcast
  Default false
  Introduced 16.0.R1
 

Platforms

All
router-alert-check boolean
  Synopsis Enable router alert checking for IGMP or MLD messages
  Context configure router string igmp interface string router-alert-check boolean
  Tree router-alert-check
  Default true
  Introduced 16.0.R1
 

Platforms

All
ssm-translate
  Synopsis Enter the ssm-translate context
  Context configure router string igmp interface string ssm-translate
  Tree ssm-translate
 

Description

Commands in this context configure a group range that is translated to SSM (S,G) entries. If a static entry needs to be created, it is translated from an IGMPv1 or v2 request to an SSM join message.
  Introduced 16.0.R1
 

Platforms

All
group-range start string end string
  Synopsis Enter the group-range list instance
  Context configure router string igmp interface string ssm-translate group-range start string end string
  Tree group-range
 

Description

Commands in this context configure the range of IP addresses that is translated to SSM (S,G) entries.
  Introduced 16.0.R1
 

Platforms

All
start string
  Synopsis Lower bound of the IP address group range
  Context configure router string igmp interface string ssm-translate group-range start string end string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
end string
  Synopsis Upper bound of the IP address group range
  Context configure router string igmp interface string ssm-translate group-range start string end string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
source [source-address] string
  Synopsis Add a list entry for source
  Context configure router string igmp interface string ssm-translate group-range start string end string source string
  Tree source
  Min. Instances 1
  Introduced 16.0.R1
 

Platforms

All
[source-address] string
  Synopsis Source IP address of multicast channel sending data
  Context configure router string igmp interface string ssm-translate group-range start string end string source string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
static
  Synopsis Enter the static context
  Context configure router string igmp interface string static
  Tree static
 

Description

Commands in this context configure the testing of multicast forwarding on an interface without a receiver host.

  Introduced 16.0.R1
 

Platforms

All
group [group-address] string
  Synopsis Enter the group list instance
  Context configure router string igmp interface string static group string
  Tree group
 

Description

Commands in this context configure a static multicast group as either a starg (*,G), or one or more SSM (S,G) records. IGMP static group memberships are used to test multicast forwarding without a receiver host.

When a static IGMP group is configured, data is forwarded to an interface without receiving membership reports from host members.

When the group entries are configured on point-to-point links that connect routers to a rendezvous point (RP), the static IGMP group entries do not generate join messages toward the RP.
  Introduced 16.0.R1
 

Platforms

All
[group-address] string
  Synopsis Group address of static IGMP multicast channel
  Context configure router string igmp interface string static group string
 

Description

This command configures an address that receives data on an interface. The IP address must be unique for each static group.
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
source [source-address] string
  Synopsis Add a list entry for source
  Context configure router string igmp interface string static group string source string
  Tree source
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R1
 

Platforms

All
[source-address] string
  Synopsis Source IP address of multicast channel sending data
  Context configure router string igmp interface string static group string source string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
starg
  Synopsis Add a starg (*,G) address entry for the group range
  Context configure router string igmp interface string static group string starg
  Tree starg
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R2
 

Platforms

All
group-range start string end string step string
  Synopsis Enter the group-range list instance
  Context configure router string igmp interface string static group-range start string end string step string
  Tree group-range
 

Description

Commands in this context configure the ranges of IP addresses for the static groups.
  Introduced 16.0.R1
 

Platforms

All
start string
  Synopsis IP address for the start of the static group range
  Context configure router string igmp interface string static group-range start string end string step string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
end string
  Synopsis IP address for the end of the static group range
  Context configure router string igmp interface string static group-range start string end string step string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
step string
  Synopsis Step interval in the group-range address
  Context configure router string igmp interface string static group-range start string end string step string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
source [source-address] string
  Synopsis Add a list entry for source
  Context configure router string igmp interface string static group-range start string end string step string source string
  Tree source
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R1
 

Platforms

All
[source-address] string
  Synopsis Source IP address of multicast channel sending data
  Context configure router string igmp interface string static group-range start string end string step string source string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
starg
  Synopsis Add a starg (*,G) address entry for the group range
  Context configure router string igmp interface string static group-range start string end string step string starg
  Tree starg
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R2
 

Platforms

All
subnet-check boolean
  Synopsis Allow subnet checking
  Context configure router string igmp interface string subnet-check boolean
  Tree subnet-check
  Default true
  Introduced 16.0.R1
 

Platforms

All
version keyword
  Synopsis IGMP protocol version
  Context configure router string igmp interface string version keyword
  Tree version
  Default 3
  Options 1, 2, 3
  Introduced 16.0.R1
 

Platforms

All
query-interval number
  Synopsis Time between two consecutive host-query messages
  Context configure router string igmp query-interval number
  Tree query-interval
 

Description

This command configures the timing of the host-query messages that solicit group membership information. The messages are sent to the all-systems multicast group address, 224.0.0.1.
  Range 2 to 1024
  Default 125
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
query-last-member-interval number
  Synopsis Time between group-specific query messages
  Context configure router string igmp query-last-member-interval number
  Tree query-last-member-interval
 

Description

This command configures the timing of the query-message interval, defining the interval for leave-group messages among others. The lower the interval that is configured, the faster the detection of the loss of the last member of a group.
  Range 1 to 1023
  Default 1
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
query-response-interval number
  Synopsis Time to wait for a response to the host-query messages
  Context configure router string igmp query-response-interval number
  Tree query-response-interval
  Range 1 to 1023
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
robust-count number
  Synopsis Number of retries after expected message loss
  Context configure router string igmp robust-count number
  Tree robust-count
 

Description

This command configures the level of expected packet loss on a subnet. If a subnet anticipates losses, the robust-count can be increased.
  Range 2 to 10
  Default 2
  Introduced 16.0.R1
 

Platforms

All
ssm-translate
  Synopsis Enter the ssm-translate context
  Context configure router string igmp ssm-translate
  Tree ssm-translate
 

Description

Commands in this context configure a group range that is translated to SSM (S,G) entries. If a static entry needs to be created, it is translated from an IGMPv1 or v2 request to an SSM join message.
  Introduced 16.0.R1
 

Platforms

All
group-range start string end string
  Synopsis Enter the group-range list instance
  Context configure router string igmp ssm-translate group-range start string end string
  Tree group-range
 

Description

Commands in this context configure the range of IP addresses that is translated to SSM (S,G) entries.
  Introduced 16.0.R1
 

Platforms

All
start string
  Synopsis Lower bound of the IP address group range
  Context configure router string igmp ssm-translate group-range start string end string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
end string
  Synopsis Upper bound of the IP address group range
  Context configure router string igmp ssm-translate group-range start string end string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
source [source-address] string
  Synopsis Add a list entry for source
  Context configure router string igmp ssm-translate group-range start string end string source string
  Tree source
  Min. Instances 1
  Introduced 16.0.R1
 

Platforms

All
[source-address] string
  Synopsis Source IP address of multicast channel sending data
  Context configure router string igmp ssm-translate group-range start string end string source string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
tunnel-interface
  Synopsis Enter the tunnel-interface context
  Context configure router string igmp tunnel-interface
  Tree tunnel-interface
  Introduced 16.0.R1
 

Platforms

All
ldp-p2mp-root [p2mp-id] reference sender-address reference
  Synopsis Enter the ldp-p2mp-root list instance
  Context configure router string igmp tunnel-interface ldp-p2mp-root reference sender-address reference
  Tree ldp-p2mp-root
 

Description

Commands in this context configure the LDP parameters for the IGMP P2MP LSP tunnel.
  Introduced 16.0.R1
 

Platforms

All
[p2mp-id] reference
  Synopsis RSVP P2MP LSP ID
  Context configure router string igmp tunnel-interface ldp-p2mp-root reference sender-address reference
 

Reference

configure router string tunnel-interface ldp-p2mp-root number sender-address string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
sender-address reference
  Synopsis System address of the ingress LER for the P2MP RSVP LSP
  Context configure router string igmp tunnel-interface ldp-p2mp-root reference sender-address reference
 

Reference

configure router string tunnel-interface ldp-p2mp-root number sender-address string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of IGMP
  Context configure router string igmp tunnel-interface ldp-p2mp-root reference sender-address reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
static
  Synopsis Enter the static context
  Context configure router string igmp tunnel-interface ldp-p2mp-root reference sender-address reference static
  Tree static
 

Description

Commands in this context configure static multicast receiver hosts on a tunnel interface associated with an RSVP P2MP LSP.

When a static IGMP group is configured, data is forwarded to an interface without receiving membership reports from host members.

  Introduced 16.0.R1
 

Platforms

All
group [group-address] string
  Synopsis Enter the group list instance
  Context configure router string igmp tunnel-interface ldp-p2mp-root reference sender-address reference static group string
  Tree group
 

Description

Commands in this context configure a static multicast group as either a starg (*,G), or one or more SSM (S,G) records.

Static multicast group joins can be assigned to a tunnel interface associated with an RSVP P2MP LSP.

A given <*,G> or <S,G> can only be associated with a single tunnel interface.

A multicast packet which is received on an interface and which succeeds the RPF check for the source address will be replicated and forwarded to all OIFs which correspond to the branches of the P2MP LSP. The packet is sent on each OIF with the label stack indicated in the NHLFE of this OIF. The packets will also be replicated and forwarded natively on all OIFs which have received IGMP or PIM joins for this <S,G>.

The multicast packet can be received over a PIM or IGMP interface which can be an IES interface, a spoke SDP terminated IES interface, or a network interface.
  Introduced 16.0.R1
 

Platforms

All
[group-address] string
  Synopsis Group address of static IGMP multicast channel
  Context configure router string igmp tunnel-interface ldp-p2mp-root reference sender-address reference static group string
 

Description

This command configures an address that receives data on an interface. The IP address must be unique for each static group.
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
source [source-address] string
  Synopsis Add a list entry for source
  Context configure router string igmp tunnel-interface ldp-p2mp-root reference sender-address reference static group string source string
  Tree source
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R1
 

Platforms

All
[source-address] string
  Synopsis Source IP address of multicast channel sending data
  Context configure router string igmp tunnel-interface ldp-p2mp-root reference sender-address reference static group string source string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
starg
  Synopsis Add a starg (*,G) address entry for the group range
  Context configure router string igmp tunnel-interface ldp-p2mp-root reference sender-address reference static group string starg
  Tree starg
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R2
 

Platforms

All
rsvp-p2mp-root [lsp-name] reference
  Synopsis Enter the rsvp-p2mp-root list instance
  Context configure router string igmp tunnel-interface rsvp-p2mp-root reference
  Tree rsvp-p2mp-root
 

Description

Commands in this context configure the RSVP parameters for the IGMP P2MP LSP tunnel.
  Introduced 16.0.R1
 

Platforms

All
[lsp-name] reference
  Synopsis LSP name for the RSVP P2MP LSP
  Context configure router string igmp tunnel-interface rsvp-p2mp-root reference
 

Reference

configure router string tunnel-interface rsvp-p2mp-root string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of IGMP
  Context configure router string igmp tunnel-interface rsvp-p2mp-root reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
static
  Synopsis Enter the static context
  Context configure router string igmp tunnel-interface rsvp-p2mp-root reference static
  Tree static
 

Description

Commands in this context configure static multicast receiver hosts on a tunnel interface associated with an RSVP P2MP LSP.

When a static IGMP group is configured, data is forwarded to an interface without receiving membership reports from host members.
  Introduced 16.0.R1
 

Platforms

All
group [group-address] string
  Synopsis Enter the group list instance
  Context configure router string igmp tunnel-interface rsvp-p2mp-root reference static group string
  Tree group
  Introduced 16.0.R1
 

Platforms

All
[group-address] string
  Synopsis Group address of static IGMP multicast channel
  Context configure router string igmp tunnel-interface rsvp-p2mp-root reference static group string
 

Description

This command configures an address that receives data on an interface. The IP address must be unique for each static group.
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
source [source-address] string
  Synopsis Add a list entry for source
  Context configure router string igmp tunnel-interface rsvp-p2mp-root reference static group string source string
  Tree source
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R1
 

Platforms

All
[source-address] string
  Synopsis Source IP address of multicast channel sending data
  Context configure router string igmp tunnel-interface rsvp-p2mp-root reference static group string source string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
starg
  Synopsis Add a starg (*,G) address entry for the group range
  Context configure router string igmp tunnel-interface rsvp-p2mp-root reference static group string starg
  Tree starg
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R2
 

Platforms

All

interface [interface-name] string

  Synopsis Enter the interface list instance
  Context configure router string interface string
  Tree interface
 

Description

Commands in this context create a logical IP routing or unnumbered MPLS-TP interface. An IP address, port, or system can then be associated with the IP interface.
  Introduced 16.0.R1
 

Platforms

All
[interface-name] string
  Synopsis Router interface name
  Context configure router string interface string
 

Description

This command specifies the name of the router interface. When a user enters a new name, the system creates a new logical interface and the context changes to that interface for more command processing.

When an existing interface name is entered, the user enters the router interface context for editing and configuration.

Nokia recommends using names that are meaningful and unique to remove ambiguity when displaying the state associated with IP interfaces either via show commands or model-driven interfaces.

See "Router configuration overview" in the 7450 ESS, 7750 SR, 7950 XRS, and VSR Router Configuration Guide for more information about the interface name.
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the interface
  Context configure router string interface string admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
cflowd-parameters
  Synopsis Enter the cflowd-parameters context
  Context configure router string interface string cflowd-parameters
  Tree cflowd-parameters
 

Description

Commands in this context configure cflowd parameters for the associated IP interfaces.
  Introduced 16.0.R1
 

Platforms

All
sampling [sampling-type] keyword
  Synopsis Enter the sampling list instance
  Context configure router string interface string cflowd-parameters sampling keyword
  Tree sampling
 

Description

Commands in this context configure cflowd sampling behavior, which configures the collection of traffic flow samples for analysis for this IP interface. 
  Introduced 16.0.R1
 

Platforms

All
[sampling-type] keyword
  Synopsis Traffic sampling type
  Context configure router string interface string cflowd-parameters sampling keyword
 

Description

This command configures the type of traffic to be sampled on the associated IP interface.
  Options unicast, multicast, both
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
direction keyword
  Synopsis Direction of traffic for cflowd sampling
  Context configure router string interface string cflowd-parameters sampling keyword direction keyword
  Tree direction
 

Description

This command configures the direction in which sampling occurs on the associated IP interfaces.
  Default ingress-only
  Options ingress-only, egress-only, both
  Introduced 16.0.R1
 

Platforms

All
sample-profile (keyword | number)
  Synopsis Sample profile ID
  Context configure router string interface string cflowd-parameters sampling keyword sample-profile (keyword | number)
  Tree sample-profile
 

Description

This command defines the sampling rate profile associated with this interface.
  Max. Range 0 to 4294967295
  Options 1
  Introduced 19.5.R1
 

Platforms

All
type keyword
  Synopsis Type of cflowd analysis
  Context configure router string interface string cflowd-parameters sampling keyword type keyword
  Tree type
 

Description

This command configures the cflowd sampling type on the associated IP interface.
  Options acl, interface
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
cpu-protection reference
  Synopsis CPU protection policy ID for the interface
  Context configure router string interface string cpu-protection reference
  Tree cpu-protection
 

Description

This command assigns an existing CPU protection policy to the associated interface. For these interface types, the per-source rate limit is not applicable.

If no CPU-protection policy is assigned to an interface, the default policy is used to limit the overall rate.
 

Reference

configure system security cpu-protection policy number

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR-7/12/12e, 7750 SR-7s, 7750 SR-14s, 7950 XRS
description string
  Synopsis Text description
  Context configure router string interface string description string
  Tree description
  String Length 1 to 255
  Introduced 16.0.R1
 

Platforms

All
dist-cpu-protection reference
  Synopsis DCP policy name for interface
  Context configure router string interface string dist-cpu-protection reference
  Tree dist-cpu-protection
 

Description

This command configures a Distributed CPU Protection (DCP) policy for the associated IP interface or SAP. The operator can only assign a valid created DCP policy to a SAP or network interface (this rule does not apply to templates such as an MSAP policy).

If the operator does not assign a DCP policy to a router interface, the system uses the default network DCP policy.

See "Distributed CPU protection" in the 7450 ESS, 7750 SR, 7950 XRS, and VSR System Management Guide for more information.
 

Reference

configure system security dist-cpu-protection policy string

  Introduced 16.0.R1
 

Platforms

All
egress
  Synopsis Enter the egress context
  Context configure router string interface string egress
  Tree egress
 

Description

Commands in this context configure egress network filter policies for the IP interface. The system does not filter unless an operator defines a filter.
  Introduced 16.0.R1
 

Platforms

All
filter
  Synopsis Enter the filter context
  Context configure router string interface string egress filter
  Tree filter
 

Description

Commands in this context configure the names of the egress IPv4 and IPv6 network filter policies for the interface. Filter policies control packet forwarding and dropping based on IP match criteria.
  Introduced 16.0.R1
 

Platforms

All
ip reference
  Synopsis IPv4 filter policy name
  Context configure router string interface string egress filter ip reference
  Tree ip
 

Reference

configure filter ip-filter string

  Introduced 16.0.R1
 

Platforms

All
ipv6 reference
  Synopsis IPv6 filter policy name
  Context configure router string interface string egress filter ipv6 reference
  Tree ipv6
 

Reference

configure filter ipv6-filter string

  Introduced 16.0.R1
 

Platforms

All
eth-cfm
  Synopsis Enter the eth-cfm context
  Context configure router string interface string eth-cfm
  Tree eth-cfm
 

Description

Commands in this context configure the Ethernet CFM parameters for the associated IP interface.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
mep md-admin-name reference ma-admin-name reference mep-id number
  Synopsis Enter the mep list instance
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number
  Tree mep
 

Description

Commands in this context configure an 802.1ag Maintenance Endpoint (MEP) instance.
  Max. Instances 1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
md-admin-name reference
  Synopsis Maintenance Domain (MD) name
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number
 

Reference

configure eth-cfm domain string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ma-admin-name reference
  Synopsis Maintenance Association (MA) name
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number
 

Reference

configure eth-cfm domain string association string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
mep-id number
  Synopsis Maintenance Endpoint (MEP) ID
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number
  Range 1 to 8191
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
admin-state keyword
  Synopsis Administrative state of the MEP
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
alarm-notification
  Synopsis Enter the alarm-notification context
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number alarm-notification
  Tree alarm-notification
 

Description

Commands in this context configure the Fault Notification Generator (FNG) time values to raise an alarm or reset the CCM defect alarm. 

Use these timers for network management processes. The timers are not tied into delaying the notification to the fault management system on the network element and do not affect fault propagation mechanisms.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
fng-alarm-time number
  Synopsis Time that must expire before an FNG alarm is raised
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number alarm-notification fng-alarm-time number
  Tree fng-alarm-time
  Range 250 | 500 | 1000
  Units centiseconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
fng-reset-time number
  Synopsis Time that must expire before an FNG alarm is reset
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number alarm-notification fng-reset-time number
  Tree fng-reset-time
  Range 250 | 500 | 1000
  Units centiseconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ccm boolean
  Synopsis Generate CCM messages
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number ccm boolean
  Tree ccm
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ccm-ltm-priority number
  Synopsis Priority of CCM and LTM messages transmitted by the MEP
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number ccm-ltm-priority number
  Tree ccm-ltm-priority
  Range 0 to 7
  Default 7
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ccm-padding-size number
  Synopsis Number of octets of padding to insert in CCM packets
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number ccm-padding-size number
  Tree ccm-padding-size
 

Description

This command sets the byte size of the optional Data TLV to be included in the ETH-CC PDU.

This command increases the size of the ETH-CC PDU by the configured value. The base size of the ETH-CC PDU, including the Interface Status TLV and Port Status TLV, is 83 bytes not including the Layer 2 encapsulation. CCM padding is not supported when the CCM interval (configured through configure eth-cfm domain association ccm-interval) is less than 1 second.
  Range 3 to 1500
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ccm-tlv-ignore keyword
  Synopsis TLV to ignore on reception
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number ccm-tlv-ignore keyword
  Tree ccm-tlv-ignore
 

Description

This command configures the receiving MEP to ignore the specified TLVs in the CCM PDU. The ignored TLVs are reported as absent and have no impact on the MEP state machine.

When unconfigured, the MEP processes all the recognized TLVs.
  Options interface-status, port-status
  Max. Instances 2
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
collect-lmm-fc-stats
  Synopsis Enter the collect-lmm-fc-stats context
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number collect-lmm-fc-stats
  Tree collect-lmm-fc-stats
 

Description

Commands in this context configure per forwarding class (FC) LMM information collection.

The commands fc-in-profile and fc in this context are mutually exclusive. The commands apply to either profile-aware or profile-unaware FCs respectively. 

This command and the collect-lmm-stats command are mutually exclusive when there is entity resource contention.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
fc keyword
  Synopsis Forwarding class name for profile-unaware counter
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number collect-lmm-fc-stats fc keyword
  Tree fc
 

Description

This command configures individual counters for the specified FCs without regard for profile. The system includes all countable packets that match a configured FC, regardless of profile, in this counter.

An FC specified as part of this command and for this specific context cannot be specified as a profile-aware FC using the fc-in-profile command under the collect-lmm-fc-stats context. 

When this command is reentered, a differential is performed. Omitted FCs stop counting, newly added FCs start counting, and unchanged FCs continue to count.
  Options be, l2, af, l1, h2, ef, h1, nc
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
fc-in-profile keyword
  Synopsis Forwarding class name for profile-aware counter
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number collect-lmm-fc-stats fc-in-profile keyword
  Tree fc-in-profile
 

Description

This command configures individual counters for the specified FCs with regard to profile. The system includes all countable packets that match a configured FC and that are deemed to be in-profile in this counter.

An FC specified as part of this command and for this specific context cannot be specified as a profile-unaware FC using the fc command under the collect-lmm-fc-stats context.

When this command is reentered, a differential is performed. Omitted FCs stop counting, newly added FCs start counting, and unchanged FCs continue to count.
  Options be, l2, af, l1, h2, ef, h1, nc
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
collect-lmm-stats boolean
  Synopsis Collect statistics for loss measurement message tests
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number collect-lmm-stats boolean
  Tree collect-lmm-stats
 

Description

When configured to true, the router instantiates the statistical counter to transmit and receive packets for the LAG facility MEP bindings.

The show eth-cfm collect-lmm-stats command displays entities that have been enabled to collect transit and receive counters.

When configured to false, the router does not instantiate the counter and the LMM PDU associated with the MEP does not populate the counters in the packet.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
description string
  Synopsis Text description
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
eth-test
  Synopsis Enable the eth-test context
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number eth-test
  Tree eth-test
 

Description

Commands in this context configure information used by the Ethernet Test (ETH-TST) packet. The commands must be configured on both the sender and the receiver nodes. The test packets are used with the oam eth-cfm eth-test command.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
bit-error-threshold number
  Synopsis Lowest priority defect allowed to generate fault alarm
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number eth-test bit-error-threshold number
  Tree bit-error-threshold
  Range 0 to 11840
  Default 1
  Units bit errors
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
test-pattern
  Synopsis Enter the test-pattern context
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number eth-test test-pattern
  Tree test-pattern
 

Description

Commands in this context specify the test pattern for the ETH-TST frames. The pattern does not have to be the same on the sender and the receiver.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
crc-tlv boolean
  Synopsis Generate a CRC checksum
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number eth-test test-pattern crc-tlv boolean
  Tree crc-tlv
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
pattern keyword
  Synopsis Test pattern for Ethernet Test frames
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number eth-test test-pattern pattern keyword
  Tree pattern
 

Description

This command specifies the test pattern of the Ethernet Test (ETH-TST) frames. This does not have to be configured the same on the sender and the receiver.
  Default all-zeros
  Options all-zeros, all-ones
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
facility-fault boolean
  Synopsis Allow the facility MEP to generate a network action
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number facility-fault boolean
  Tree facility-fault
 

Description

When configured to true, the system facility MEP responds to a fault with a network-actionable function instead of just reporting the defect condition.

When configured to false, the system monitors transmissions and reports fault conditions.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
grace
  Synopsis Enter the grace context
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number grace
  Tree grace
 

Description

Commands in this context configure the Nokia ETH-CFM Grace function and the ITU-T Y.1731 Ethernet Expected Default (ETH-ED) function.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
eth-ed
  Synopsis Enter the eth-ed context
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number grace eth-ed
  Tree eth-ed
 

Description

Commands in this context configure the ITU-T Y.1731 ETH-ED function.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
max-rx-defect-window number
  Synopsis Maximum received ETH-ED expected defect window duration
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number grace eth-ed max-rx-defect-window number
  Tree max-rx-defect-window
  Range 1 to 86400
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
priority number
  Synopsis Transmission priority for ETH-ED PDUs
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number grace eth-ed priority number
  Tree priority
  Range 0 to 7
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
rx-eth-ed boolean
  Synopsis Receive and process ETH-ED ITU-T Y.1731 PDUs on the MEP
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number grace eth-ed rx-eth-ed boolean
  Tree rx-eth-ed
 

Description

This command enables the reception and processing of the ITU-T Y.1731 ETH-ED PDU on the MEP.
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
tx-eth-ed boolean
  Synopsis Transmit ETH-ED PDUs from the MEP
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number grace eth-ed tx-eth-ed boolean
  Tree tx-eth-ed
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
eth-vsm-grace
  Synopsis Enter the eth-vsm-grace context
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number grace eth-vsm-grace
  Tree eth-vsm-grace
 

Description

Commands in this context configure the Nokia ETH-CFM Grace function.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
rx-eth-vsm-grace boolean
  Synopsis Receive and process Nokia ETH-CFM Grace PDU on the MEP
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number grace eth-vsm-grace rx-eth-vsm-grace boolean
  Tree rx-eth-vsm-grace
 

Description

When configured to true, the router enables the Nokia Grace function, which is a vendor-specific PDU that informs MEP peers that the local node may be entering a period of expected defect.

When configured to false, the router disables the Nokia Grace function.
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
tx-eth-vsm-grace boolean
  Synopsis Transmit ETH-ED PDUs from the MEP
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number grace eth-vsm-grace tx-eth-vsm-grace boolean
  Tree tx-eth-vsm-grace
 

Description

When configured to true, the router can transmit the Nokia ETH-CFM Grace PDU from the MEP when a system soft reset notification is received for one or more cards.

The Nokia Grace function is a vendor-specific PDU that informs MEP peers that the local node may be entering a period of expected defect.

The operator must configure the configure system eth-cfm grace command to instruct the system that the node is capable of transmitting expected-defect windows to peers. The system can only transmit one form of ETH-CFM grace (Nokia ETH-CFM Grace or ITU-T Y.1731 ETH-ED).

When configured to false, the router disables the transmission of the Nokia ETH-CFM Grace PDU from the MEP.
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
lbm-svc-act-responder boolean
  Synopsis Process service activation streams in ETH-CFM LBM
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number lbm-svc-act-responder boolean
  Tree lbm-svc-act-responder
 

Description

When configured to true, the router enables the MEP to process service activation streams encapsulated in ETH-CFM LBM frames that are directed to it.

When configured to false, this command reverts to MEP LBM standard processing.

There is interaction between this command and the tools perform service id loopback eth command. Nokia recommends that either the lbm-svc act-responder or the tools perform service id loopback eth command be used within a service. If both commands must be configured, and the target reflection point is the MAC Swap Loopback function, the inbound stream of data must not include ETH-CFM traffic that is equal to or lower than the domain level of any configured MEP that would otherwise extract and process the ETH-CFM message.

See "Promiscuous ETH-LBM mode of operation" in the 7450 ESS, 7750 SR, 7950 XRS, and VSR Services Overview Guide for more information.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
low-priority-defect keyword
  Synopsis Lowest priority defect for fault alarm generation
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number low-priority-defect keyword
  Tree low-priority-defect
 

Description

This command specifies the lowest priority defect that generates a fault alarm and also configures the fault state of the MEP that causes a network reaction.
  Default mac-rem-err-xcon
  Options all-def, mac-rem-err-xcon, rem-err-xcon, err-xcon, xcon, no-xcon
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
mac-address string
  Synopsis MAC address of the MEP
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number mac-address string
  Tree mac-address
 

Description

This command specifies the MAC address of the MEP.

When unconfigured, the MAC address of the port (if the MEP is on a SAP) or the MAC address of a bridge (if the MEP is on a spoke) is used.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
one-way-delay-threshold number
  Synopsis Threshold time limit for the one-way delay test
  Context configure router string interface string eth-cfm mep md-admin-name reference ma-admin-name reference mep-id number one-way-delay-threshold number
  Tree one-way-delay-threshold
  Range 0 to 600
  Default 3
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
flavor keyword
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Network interface flavor
  Context configure router string interface string flavor keyword
  Tree flavor
  Default regular
  Options regular, control-tunnel, pdn, unnumbered-mpls-tp, gmpls-loopback
  Introduced 16.0.R1
 

Platforms

All
gre-termination boolean
  Synopsis Terminate GRE packets on primary subnet of interface
  Context configure router string interface string gre-termination boolean
  Tree gre-termination
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
hold-time
  Synopsis Enter the hold-time context
  Context configure router string interface string hold-time
  Tree hold-time
 

Description

Commands in this context configure the interface-level up and down hold timers for the associated IP interface.
  Introduced 16.0.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string interface string hold-time ipv4
  Tree ipv4
 

Description

Commands in this context configure the interface-level IPv4 hold timers for the associated IP interface.
  Introduced 16.0.R1
 

Platforms

All
down
  Synopsis Enter the down context
  Context configure router string interface string hold-time ipv4 down
  Tree down
 

Description

Commands in this context configure the down hold timer, which specifies the delay before activating the associated interface. The delay is invoked whenever the system attempts to bring the associated IP interface up, unless an operator configures the init-only command. 
  Introduced 16.0.R1
 

Platforms

All
init-only boolean
  Synopsis Apply delay only at interface configuration or reboot
  Context configure router string interface string hold-time ipv4 down init-only boolean
  Tree init-only
 

Description

This command applies a delay only when the IP interface is first configured or after a system reboot.
  Default false
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Down hold time for the IP interface
  Context configure router string interface string hold-time ipv4 down seconds number
  Tree seconds
  Range 1 to 1200
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
up
  Synopsis Enter the up context
  Context configure router string interface string hold-time ipv4 up
  Tree up
 

Description

Commands in this context configure the up hold timer, which specifies the delay before deactivation of the associated interface. The delay is invoked whenever the system attempts to bring the associated IP interface down.
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Up hold time for the IP interface
  Context configure router string interface string hold-time ipv4 up seconds number
  Tree seconds
  Range 1 to 1200
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string interface string hold-time ipv6
  Tree ipv6
 

Description

Commands in this context configure the interface-level IPv6 hold timers for the associated IP interface.
  Introduced 16.0.R1
 

Platforms

All
down
  Synopsis Enter the down context
  Context configure router string interface string hold-time ipv6 down
  Tree down
 

Description

Commands in this context configure the down hold timer, which specifies the delay before activation of the associated interface. The delay is invoked whenever the system attempts to bring the associated IP interface up, unless an operator configures the init-only command. 
  Introduced 16.0.R1
 

Platforms

All
init-only boolean
  Synopsis Apply delay only at interface configuration or reboot
  Context configure router string interface string hold-time ipv6 down init-only boolean
  Tree init-only
 

Description

This command applies the delay only when when the IP interface is first configured or after a system reboot.
  Default false
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Down hold time for the IP interface
  Context configure router string interface string hold-time ipv6 down seconds number
  Tree seconds
  Range 1 to 1200
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
up
  Synopsis Enter the up context
  Context configure router string interface string hold-time ipv6 up
  Tree up
 

Description

Commands in this context configure the up hold timer, which specifies the delay before deactivation of the associated interface. The delay is invoked whenever the system attempts to bring the associated IP interface down.
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Up hold time for the IP interface
  Context configure router string interface string hold-time ipv6 up seconds number
  Tree seconds
  Range 1 to 1200
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
if-attribute
  Synopsis Enter the if-attribute context
  Context configure router string interface string if-attribute
  Tree if-attribute
 

Description

Commands in this context configure attributes of the IP interface.
  Introduced 16.0.R1
 

Platforms

All
admin-group reference
  Synopsis Administrative group name for the interface
  Context configure router string interface string if-attribute admin-group reference
  Tree admin-group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Introduced 16.0.R1
 

Platforms

All
delay
  Synopsis Enter the delay context
  Context configure router string interface string if-attribute delay
  Tree delay
  Introduced 20.7.R1
 

Platforms

All
delay-selection keyword
  Synopsis Delay source advertised by IGP for the interface
  Context configure router string interface string if-attribute delay delay-selection keyword
  Tree delay-selection
  Default static-preferred
  Options static, dynamic, static-preferred, dynamic-preferred
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
dynamic
  Synopsis Enter the dynamic context
  Context configure router string interface string if-attribute delay dynamic
  Tree dynamic
 

Description

Commands in this context configure dynamic link delay measurement options for the interface.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
measurement-template reference
  Synopsis Link delay measurement template for the interface
  Context configure router string interface string if-attribute delay dynamic measurement-template reference
  Tree measurement-template
 

Reference

configure test-oam link-measurement measurement-template string

  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
twamp-light
  Synopsis Enter the twamp-light context
  Context configure router string interface string if-attribute delay dynamic twamp-light
  Tree twamp-light
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string interface string if-attribute delay dynamic twamp-light ipv4
  Tree ipv4
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
admin-state keyword
  Synopsis Administrative state of IPv4 TWAMP Light packets
  Context configure router string interface string if-attribute delay dynamic twamp-light ipv4 admin-state keyword
  Tree admin-state
 

Description

This command specifies the administrative state of the IPv4 encapsulated TWAMP Light measurement packets.
  Default disable
  Options enable, disable
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
destination string
  Synopsis TWAMP Light measurement packet destination IPv4 address
  Context configure router string interface string if-attribute delay dynamic twamp-light ipv4 destination string
  Tree destination
 

Description

This command specifies the unicast destination address to be associated with the IPv4 TWAMP Light measurement packet.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
source string
  Synopsis TWAMP Light measurement packets source IPv4 address
  Context configure router string interface string if-attribute delay dynamic twamp-light ipv4 source string
  Tree source
 

Description

This command specifies the unicast source address to be associated with the IPv4 TWAMP Light measurement packet.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string interface string if-attribute delay dynamic twamp-light ipv6
  Tree ipv6
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
admin-state keyword
  Synopsis Administrative state of IPv6 TWAMP Light packets
  Context configure router string interface string if-attribute delay dynamic twamp-light ipv6 admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
destination string
  Synopsis TWAMP Light measurement packet destination IPv6 address
  Context configure router string interface string if-attribute delay dynamic twamp-light ipv6 destination string
  Tree destination
 

Description

This command specifies the unicast destination address to be associated with the IPv6 TWAMP Light measurement packet. Globally routable and Link Local addressing is supported.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
source string
  Synopsis TWAMP Light measurement packets source IPv6 address
  Context configure router string interface string if-attribute delay dynamic twamp-light ipv6 source string
  Tree source
 

Description

This command specifies the unicast source address to be associated with the IPv6 TWAMP Light measurement packet. Globally routable and Link Local addressing is supported.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
static number
  Synopsis Unidirectional link delay static information
  Context configure router string interface string if-attribute delay static number
  Tree static
 

Description

This command configures the unidirectional link delay. By default there is no configured delay, and the link delay metric TLV is pruned in the IGP. 
  Range 1 to 16777214
  Units microseconds
  Introduced 20.7.R1
 

Platforms

All
srlg-group [name] reference
  Synopsis Add a list entry for srlg-group
  Context configure router string interface string if-attribute srlg-group reference
  Tree srlg-group
 

Description

Commands in this context add a list entry for a Shared Risk Link Group (SRLG) that can be associated with an IP or MPLS interface to tag IP or MPLS interfaces that share a specific outcome with the same identifier. For example, an SRLG group identifier could represent all links that use separate fibers but are carried in the same fiber conduit. 

The name and identifier of each SRLG group must be configured locally on each router before the user configures the SRLG membership of an interface. A maximum of 1024 SRLGs can be configured per system. The user can apply SRLGs to an IES, VPRN, network IP, or MPLS interface. A maximum of 64 SRLGs can be applied to an interface.

See "Shared Risk Link Groups" in the 7450 ESS, 7750 SR, 7950 XRS, and VSR MPLS Guide for more information about SRLGs.
  Introduced 16.0.R1
 

Platforms

All
[name] reference
  Synopsis SRLG name
  Context configure router string interface string if-attribute srlg-group reference
 

Reference

configure routing-options if-attribute srlg-group string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
ingress
  Synopsis Enter the ingress context
  Context configure router string interface string ingress
  Tree ingress
 

Description

Commands in this context configure ingress network filter policies for the IP interface. If an ingress filter is not defined, the system performs no filtering.
  Introduced 16.0.R1
 

Platforms

All
destination-class-lookup boolean
  Synopsis Enable BGP destination class lookup
  Context configure router string interface string ingress destination-class-lookup boolean
  Tree destination-class-lookup
 

Description

When configured to true, the router performs a destination class lookup. This command is supported on FP3-based cards and later and is used in combination with the destination-class match criterion for an IP filter policy to filter egress traffic based on BGP destination classes.

When configured to false, destination class lookup is not enabled.
  Default false
  Introduced 20.7.R1
 

Platforms

All
filter
  Synopsis Enter the filter context
  Context configure router string interface string ingress filter
  Tree filter
 

Description

Commands in this context associate an IP filter policy with an IP interface. Filter policies control packet forwarding and dropping based on IP match criteria.
  Introduced 16.0.R1
 

Platforms

All
ip reference
  Synopsis IPv4 filter policy name
  Context configure router string interface string ingress filter ip reference
  Tree ip
 

Reference

configure filter ip-filter string

  Introduced 16.0.R1
 

Platforms

All
ipv6 reference
  Synopsis IPv6 filter policy name
  Context configure router string interface string ingress filter ipv6 reference
  Tree ipv6
 

Reference

configure filter ipv6-filter string

  Introduced 16.0.R1
 

Platforms

All
policy-accounting reference
  Synopsis Policy accounting template applied to the interface
  Context configure router string interface string ingress policy-accounting reference
  Tree policy-accounting
 

Reference

configure routing-options policy-accounting policy-acct-template string

  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS
ingress-stats boolean
  Synopsis Collect ingress statistics
  Context configure router string interface string ingress-stats boolean
  Tree ingress-stats
 

Description

When configured to true, the router configures the collection of IPv4 and IPv6 offered packets and octets. This only applies to IP statistics, not to uRPF statistics.

Octet statistics for IPv4 and IPv6 bytes at IP interfaces include the Layer 2 frame overhead.

When configured to false, the router does not collect the statistics.
  Default false
  Introduced 16.0.R1
 

Platforms

All
ip-mtu number
  Synopsis Interface IP MTU
  Context configure router string interface string ip-mtu number
  Tree ip-mtu
 

Description

This command configures the IP maximum transmit unit (packet) for the associated router IP interface.

The operational IP MTU used for the interface is based on the configured IP MTU and the port MTU of the port bound to this interface; that is, the operational MTU is set to the lesser of the values configured by this command and the port MTU value less the Ethernet header size.

If the interface supports IPv6 packets, this command must be set to at least 1280, in accordance with RFC 2460 Internet Protocol, Version 6 (IPv6) Specification.
  Range 512 to 9786
  Units bytes
  Introduced 16.0.R1
 

Platforms

All
ip-tunnel
  Synopsis Enter the ip-tunnel context
  Context configure router string interface string ip-tunnel
  Tree ip-tunnel
 

Description

Commands in this context configure the IP or GRE tunnel on a control-channel loopback interface. The local-end tunnel IP address is configured using the interface primary IP address.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
remote-ip string
  Synopsis IP address of the remote end of the IP tunnel
  Context configure router string interface string ip-tunnel remote-ip string
  Tree remote-ip
 

Description

This command configures the destination address of the outer IP header in the IP or GRE encapsulation.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ipsec
  Synopsis Enable the ipsec context
  Context configure router string interface string ipsec
  Tree ipsec
 

Description

Commands in this context configure an IPsec secured interface.
  Introduced 22.7.R1
 

Platforms

VSR
admin-state keyword
  Synopsis Administrative state of IPsec secured interface
  Context configure router string interface string ipsec admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 22.7.R1
 

Platforms

VSR
ip-exception reference
  Synopsis IP exception filter
  Context configure router string interface string ipsec ip-exception reference
  Tree ip-exception
 

Description

This command configures the IP exception filter for the secured interface. All ingress traffic matching the specified filter bypasses IPsec processing.
 

Reference

configure filter ip-exception string

  Introduced 22.7.R1
 

Platforms

VSR
ipsec-tunnel [name] string
  Synopsis Enter the ipsec-tunnel list instance
  Context configure router string interface string ipsec ipsec-tunnel string
  Tree ipsec-tunnel
 

Description

Commands in this context configure IPsec tunnels used to secure traffic forwarded over the interface.
  Introduced 22.7.R1
 

Platforms

VSR
[name] string
  Synopsis IPsec tunnel name
  Context configure router string interface string ipsec ipsec-tunnel string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 22.7.R1
 

Platforms

VSR
admin-state keyword
  Synopsis Administrative state of the IPsec tunnel
  Context configure router string interface string ipsec ipsec-tunnel string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 22.7.R1
 

Platforms

VSR
bfd
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the bfd context
  Context configure router string interface string ipsec ipsec-tunnel string bfd
  Tree bfd
  Introduced 22.7.R1
 

Platforms

VSR
bfd-designate boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Designate IPsec tunnel to carry BFD traffic
  Context configure router string interface string ipsec ipsec-tunnel string bfd bfd-designate boolean
  Tree bfd-designate
  Default false
  Introduced 22.7.R1
 

Platforms

VSR
bfd-liveness
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the bfd-liveness context
  Context configure router string interface string ipsec ipsec-tunnel string bfd bfd-liveness
  Tree bfd-liveness
 

Description

Commands in this context configure a BFD session to provide a heart-beat mechanism for a specified IPsec tunnel. There can be only one BFD session assigned to any given IPsec tunnel, but there can be multiple IPsec tunnels using the same BFD session.

BFD controls the state of the association tunnel. If the BFD session goes down, the system brings down the associated non-designated IPsec tunnel.
  Introduced 22.7.R1
 

Platforms

VSR
dest-ip string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Destination address used for the BFD session
  Context configure router string interface string ipsec ipsec-tunnel string bfd bfd-liveness dest-ip string
  Tree dest-ip
 

Notes

This element is mandatory.
  Introduced 22.7.R1
 

Platforms

VSR
interface string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Name of the interface used by the BFD session
  Context configure router string interface string ipsec ipsec-tunnel string bfd bfd-liveness interface string
  Tree interface
  String Length 1 to 32
 

Notes

This element is mandatory.
  Introduced 22.7.R1
 

Platforms

VSR
service-name string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Administrative service name
  Context configure router string interface string ipsec ipsec-tunnel string bfd bfd-liveness service-name string
  Tree service-name
 

Description

This command configures the name of the service where BFD traffic is forwarded to.
  String Length 1 to 64
 

Notes

This element is mandatory.
  Introduced 22.7.R1
 

Platforms

VSR
clear-df-bit boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Reset the DF bit to 0 in all payload IP packets
  Context configure router string interface string ipsec ipsec-tunnel string clear-df-bit boolean
  Tree clear-df-bit
 

Description

When configured to true, the DF bit is set to 0 in all payload IP packets associated with the IPsec tunnel, before any potential fragmentation occurs.
  Default false
  Introduced 22.7.R1
 

Platforms

VSR
copy-traffic-class-upon-decapsulation boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable traffic class copy upon decapsulation
  Context configure router string interface string ipsec ipsec-tunnel string copy-traffic-class-upon-decapsulation boolean
  Tree copy-traffic-class-upon-decapsulation
 

Description

When configured to true, the system copies the traffic class from the outer tunnel IP packet header to the payload IP packet header in the decapsulating direction (public to private).
  Default false
  Introduced 22.7.R1
 

Platforms

VSR
description string
  Synopsis Text description
  Context configure router string interface string ipsec ipsec-tunnel string description string
  Tree description
  String Length 1 to 80
  Introduced 22.7.R1
 

Platforms

VSR
encapsulated-ip-mtu number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum size of the encapsulated tunnel packet
  Context configure router string interface string ipsec ipsec-tunnel string encapsulated-ip-mtu number
  Tree encapsulated-ip-mtu
 

Description

This command specifies the maximum size of the encapsulated tunnel packet to the IPsec tunnel, the IP tunnel, or the dynamic tunnels terminated on the IPsec Gateway. If the encapsulated IPv4 or IPv6 tunnel packet exceeds this value, the system fragments the packet.

  Range 512 to 9000
  Units bytes
  Introduced 22.7.R1
 

Platforms

VSR
icmp-generation
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the icmp-generation context
  Context configure router string interface string ipsec ipsec-tunnel string icmp-generation
  Tree icmp-generation
 

Description

Commands in this context configure settings for ICMPv4 message generation.
  Introduced 22.7.R1
 

Platforms

VSR
frag-required
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the frag-required context
  Context configure router string interface string ipsec ipsec-tunnel string icmp-generation frag-required
  Tree frag-required
 

Description

Commands in this context configure the attributes for sending generated ICMP Destination Unreachable "fragmentation needed and DF set" messages (type 3, code 4) back to the source, if the received size of the IPv4 packet on the private side exceeds the private MTU size.
  Introduced 22.7.R1
 

Platforms

VSR
admin-state keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Administrative state of sending ICMP messages
  Context configure router string interface string ipsec ipsec-tunnel string icmp-generation frag-required admin-state keyword
  Tree admin-state
 

Description

This command configures the administrative state of sending ICMP Destination Unreachable "fragmentation needed, DF set" messages (type 3, code 4) messages to the source if the received size of the IPv4 packet on the private side exceeds the private MTU size.
  Default enable
  Options enable, disable
  Introduced 22.7.R1
 

Platforms

VSR
interval number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Interval for sending ICMP messages
  Context configure router string interface string ipsec ipsec-tunnel string icmp-generation frag-required interval number
  Tree interval
 

Description

This command configures the interval for sending ICMP Destination Unreachable "fragmentation needed, DF set" messages (type 3, code 4).
  Range 1 to 60
  Default 10
  Units seconds
  Introduced 22.7.R1
 

Platforms

VSR
message-count number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum number of ICMP messages that can be sent
  Context configure router string interface string ipsec ipsec-tunnel string icmp-generation frag-required message-count number
  Tree message-count
 

Description

This command configures the maximum number of ICMP Destination Unreachable "fragmentation needed, DF set" messages (type 3, code 4) that can be sent during the configured interval.
  Range 10 to 1000
  Default 100
  Introduced 22.7.R1
 

Platforms

VSR
icmp6-generation
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the icmp6-generation context
  Context configure router string interface string ipsec ipsec-tunnel string icmp6-generation
  Tree icmp6-generation
 

Description

Commands in this context configure settings for ICMPv6 message generation.
  Introduced 22.7.R1
 

Platforms

VSR
packet-too-big
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the packet-too-big context
  Context configure router string interface string ipsec ipsec-tunnel string icmp6-generation packet-too-big
  Tree packet-too-big
 

Description

Commands in this context configure the parameters to send ICMPv6 PTB (Packet Too Big) messages on the private side.

The system sends PTB messages if a received IPv6 packet on the private side is greater than 1280 bytes and it exceeds the private MTU of the tunnel.

The private MTU for the tunnel is configured via the configure router interface ipsec ipsec-tunnel ip-mtu command for the interface.
  Introduced 22.7.R1
 

Platforms

VSR
admin-state keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Administrative state of Packet Too Big message sends
  Context configure router string interface string ipsec ipsec-tunnel string icmp6-generation packet-too-big admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 22.7.R1
 

Platforms

VSR
interval number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Interval for sending Packet Too Big messages
  Context configure router string interface string ipsec ipsec-tunnel string icmp6-generation packet-too-big interval number
  Tree interval
  Range 1 to 60
  Default 10
  Units seconds
  Introduced 22.7.R1
 

Platforms

VSR
message-count number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum number of ICMPv6 PTB messages that can be sent
  Context configure router string interface string ipsec ipsec-tunnel string icmp6-generation packet-too-big message-count number
  Tree message-count
 

Description

This command configures the maximum number of PTB messages that can be sent during the configured interval.
  Range 10 to 1000
  Default 100
  Introduced 22.7.R1
 

Platforms

VSR
ip-mtu number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Private MTU of the IIPsec tunnel
  Context configure router string interface string ipsec ipsec-tunnel string ip-mtu number
  Tree ip-mtu
 

Description

This command specifies the private MTU of the IPsec tunnel. The private MTU is used to determine the need for fragmentation before encapsulation of the payload packet.
  Range 512 to 9000
  Units bytes
  Introduced 22.7.R1
 

Platforms

VSR
key-exchange
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the key-exchange context
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange
  Tree key-exchange
  Introduced 22.7.R1
 

Platforms

VSR
dynamic
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the dynamic context
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic
  Tree dynamic
 

Notes

The following elements are part of a choice: dynamic or manual.
  Introduced 22.7.R1
 

Platforms

VSR
auto-establish boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Attempt to establish automatic phase 1 exchange
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic auto-establish boolean
  Tree auto-establish
  Default false
  Introduced 22.7.R1
 

Platforms

VSR
cert
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the cert context
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic cert
  Tree cert
 

Description

Commands in this context configure the attributes of the dynamic keying certificate.
  Introduced 22.7.R1
 

Platforms

VSR
cert-profile reference
  Synopsis Certificate profile name
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic cert cert-profile reference
  Tree cert-profile
 

Reference

configure ipsec cert-profile string

  Introduced 22.7.R1
 

Platforms

VSR
status-verify
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the status-verify context
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic cert status-verify
  Tree status-verify
 

Description

Commands in this context configure attributes of Certificate Status Verification (CSV).
  Introduced 22.7.R1
 

Platforms

VSR
default-result keyword
  Synopsis Default result for Certificate Status Verification
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic cert status-verify default-result keyword
  Tree default-result
 

Description

This command specifies the default certificate revocation status result to use when all configured CSV methods fail to return a result.   
  Default revoked
  Options revoked, good
  Introduced 22.7.R1
 

Platforms

VSR
primary keyword
  Synopsis Primary method of CSV to verify the revocation status
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic cert status-verify primary keyword
  Tree primary
 

Description

This command configures the primary method of Certificate Status Verification (CSV) that is used to verify the revocation status of the certificate of the peer.
  Default crl
  Options crl, ocsp
  Introduced 22.7.R1
 

Platforms

VSR
secondary keyword
  Synopsis Secondary method used to verify certificate revocation
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic cert status-verify secondary keyword
  Tree secondary
 

Description

This command specifies the secondary method of Certificate Status Verification (CSV) that is used to verify the revocation status of the peer certificate.
  Default none
  Options none, crl, ocsp
  Introduced 22.7.R1
 

Platforms

VSR
trust-anchor-profile reference
  Synopsis Trust anchor profile name
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic cert trust-anchor-profile reference
  Tree trust-anchor-profile
 

Reference

configure ipsec trust-anchor-profile string

  Introduced 22.7.R1
 

Platforms

VSR
id
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the id context
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic id
  Tree id
 

Description

Commands in this context specify the local ID used for IDi or IDr for IKEv2 negotiation.

The default behavior depends on the local authentication method as follows:

  • Psk: local tunnel IP address

  • Cert-auth: subject of the local certificate
  Introduced 22.7.R1
 

Platforms

VSR
fqdn string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis FQDN used as the local ID IKE type
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic id fqdn string
  Tree fqdn
  String Length 1 to 255
 

Notes

The following elements are part of a choice: fqdn, ipv4, or ipv6.
  Introduced 22.7.R1
 

Platforms

VSR
ipv4 string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis IPv4 as the local ID type
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic id ipv4 string
  Tree ipv4
 

Notes

The following elements are part of a choice: fqdn, ipv4, or ipv6.
  Introduced 22.7.R1
 

Platforms

VSR
ipv6 (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis IPv6 used as the local IKE ID type
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic id ipv6 (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree ipv6
 

Notes

The following elements are part of a choice: fqdn, ipv4, or ipv6.
  Introduced 22.7.R1
 

Platforms

VSR
ike-policy reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis IKE policy ID
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic ike-policy reference
  Tree ike-policy
 

Description

This command specifies the ID of the IKE policy used for IKE negotiation.

The ipsec-transport-mode-profile configuration only supports IKEv2.
 

Reference

configure ipsec ike-policy number

  Introduced 22.7.R1
 

Platforms

VSR
ipsec-transform reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis IPsec transform IDs used by the dynamic key
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic ipsec-transform reference
  Tree ipsec-transform
 

Description

This command specifies IPsec transform IDs used for CHILD_SA negotiation.
 

Reference

configure ipsec ipsec-transform number

  Max. Instances 4
  Introduced 22.7.R1
 

Platforms

VSR
pre-shared-key string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Pre-shared key for authentication
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange dynamic pre-shared-key string
  Tree pre-shared-key
  String Length 1 to 115
  Introduced 22.7.R1
 

Platforms

VSR
manual
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the manual context
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange manual
  Tree manual
 

Description

Commands in this context configure settings for manually configured security associations for the IPsec tunnel.
 

Notes

The following elements are part of a choice: dynamic or manual.
  Introduced 22.7.R1
 

Platforms

VSR
keys [security-association] number direction keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the keys list instance
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange manual keys number direction keyword
  Tree keys
 

Description

Commands in this context configure the security association list for the tunnel.
  Introduced 22.7.R1
 

Platforms

VSR
[security-association] number
  Synopsis SA entry ID
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange manual keys number direction keyword
  Range 1 to 16
 

Notes

This element is part of a list key.
  Introduced 22.7.R1
 

Platforms

VSR
direction keyword
  Synopsis Direction of the IPsec tunnel
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange manual keys number direction keyword
  Options inbound, outbound
 

Notes

This element is part of a list key.
  Introduced 22.7.R1
 

Platforms

VSR
authentication-key string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Key used for the authentication algorithm
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange manual keys number direction keyword authentication-key string
  Tree authentication-key
  String Length 1 to 130
  Introduced 22.7.R1
 

Platforms

VSR
encryption-key string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Key used for the encryption algorithm
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange manual keys number direction keyword encryption-key string
  Tree encryption-key
  String Length 1 to 66
  Introduced 22.7.R1
 

Platforms

VSR
ipsec-transform reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Transform entry used by manual SAs
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange manual keys number direction keyword ipsec-transform reference
  Tree ipsec-transform
 

Reference

configure ipsec ipsec-transform number

 

Notes

This element is mandatory.
  Introduced 22.7.R1
 

Platforms

VSR
spi number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis SPI of inbound and outbound packets
  Context configure router string interface string ipsec ipsec-tunnel string key-exchange manual keys number direction keyword spi number
  Tree spi
 

Description

This command specifies the Security Parameter Index (SPI) used to look up the instruction to verify and decrypt the incoming IPsec packets when the direction is inbound. When the direction is outbound, the SPI is used in the encoding of the outgoing packets.

The remote node can use the SPI to look up the instruction to verify and decrypt the packet.
  Range 256 to 16383
 

Notes

This element is mandatory.
  Introduced 22.7.R1
 

Platforms

VSR
local-gateway-address-override (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Local IPsec tunnel endpoint address
  Context configure router string interface string ipsec ipsec-tunnel string local-gateway-address-override (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree local-gateway-address-override
 

Description

This command configures the local IPsec tunnel endpoint address. This overrides the default endpoint address, which is the interface address.
  Introduced 22.7.R1
 

Platforms

VSR
max-history-key-records
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the max-history-key-records context
  Context configure router string interface string ipsec ipsec-tunnel string max-history-key-records
  Tree max-history-key-records
 

Description

Commands in this context configure the settings for recording historical IPsec keys.
  Introduced 22.7.R1
 

Platforms

VSR
esp number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum number of recent records
  Context configure router string interface string ipsec ipsec-tunnel string max-history-key-records esp number
  Tree esp
  Range 1 to 48
  Introduced 22.7.R1
 

Platforms

VSR
ike number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum number of historical IKE key records
  Context configure router string interface string ipsec ipsec-tunnel string max-history-key-records ike number
  Tree ike
  Range 1 to 3
  Introduced 22.7.R1
 

Platforms

VSR
pmtu-discovery-aging number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Aging out time of the learned path MTU
  Context configure router string interface string ipsec ipsec-tunnel string pmtu-discovery-aging number
  Tree pmtu-discovery-aging
 

Description

This command configures the temporary public and private MTU expiration time. The temporary MTU is used for MTU propagation.
  Range 900 to 3600
  Default 900
  Units seconds
  Introduced 22.7.R1
 

Platforms

VSR
private-sap number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Private SAP ID
  Context configure router string interface string ipsec ipsec-tunnel string private-sap number
  Tree private-sap
  Range 0 to 4094
 

Notes

This element is mandatory.
  Introduced 22.7.R1
 

Platforms

VSR
private-service string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Private service name
  Context configure router string interface string ipsec ipsec-tunnel string private-service string
  Tree private-service
 

Description

This command configures the private service name.

If unconfigured, the private service is the service where the secured interface resides.
  String Length 1 to 64
  Introduced 22.7.R1
 

Platforms

VSR
private-tcp-mss-adjust number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis TCP maximum segment size (MSS) adjustment
  Context configure router string interface string ipsec ipsec-tunnel string private-tcp-mss-adjust number
  Tree private-tcp-mss-adjust
 

Description

This command specifies the TCP MSS to adjust for the tunnel on the private side.

When configured, the system may use the value to update the MSS option in the received TCP SYN packet on the private side.
  Range 512 to 9000
  Units bytes
  Introduced 22.7.R1
 

Platforms

VSR
propagate-pmtu-v4 boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable propagation of the path MTU to IPv4 hosts
  Context configure router string interface string ipsec ipsec-tunnel string propagate-pmtu-v4 boolean
  Tree propagate-pmtu-v4
 

Description

When configured to true, the system propagates the path MTU learned from the public side to the private side (IPv4 hosts).
  Default true
  Introduced 22.7.R1
 

Platforms

VSR
propagate-pmtu-v6 boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable propagation of the path MTU to IPv6 hosts
  Context configure router string interface string ipsec ipsec-tunnel string propagate-pmtu-v6 boolean
  Tree propagate-pmtu-v6
 

Description

When configured to true, the system propagates the path MTU learned from the public side to the private side (IPv6 hosts).
  Default true
  Introduced 22.7.R1
 

Platforms

VSR
public-tcp-mss-adjust (number | keyword)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis TCP maximum segment size (MSS) on the public network
  Context configure router string interface string ipsec ipsec-tunnel string public-tcp-mss-adjust (number | keyword)
  Tree public-tcp-mss-adjust
 

Description

This command configures the MSS for the TCP traffic in an IPsec tunnel that is sent from the public network to the private network. The system may use this value to adjust or insert the MSS option in the TCP SYN packet.
  Range 512 to 9000
  Units bytes
  Options auto
  Introduced 22.7.R1
 

Platforms

VSR
remote-gateway-address (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Remote IPsec tunnel endpoint address
  Context configure router string interface string ipsec ipsec-tunnel string remote-gateway-address (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree remote-gateway-address
  Introduced 22.7.R1
 

Platforms

VSR
replay-window number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Anti-replay window size
  Context configure router string interface string ipsec ipsec-tunnel string replay-window number
  Tree replay-window
 

Description

This command specifies the size of an IPsec anti-replay window. If unconfigured, IPsec anti-replay is disabled.
  Range 32 | 64 | 128 | 256 | 512
  Units packets
  Introduced 22.7.R1
 

Platforms

VSR
security-policy
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the security-policy context
  Context configure router string interface string ipsec ipsec-tunnel string security-policy
  Tree security-policy
 

Description

Commands in this context specify a security policy used by the tunnel.
  Introduced 22.7.R1
 

Platforms

VSR
id number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Security policy ID for use by the tunnel
  Context configure router string interface string ipsec ipsec-tunnel string security-policy id number
  Tree id
  Max. Range 0 to 4294967295
  Introduced 22.7.R1
 

Platforms

VSR
strict-match boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable strict match of the security policy entry
  Context configure router string interface string ipsec ipsec-tunnel string security-policy strict-match boolean
  Tree strict-match
 

Description

When configured to true, this command enables strict match of the security policy entry.

When a CREATE_CHILD exchange request is received for a static IPsec tunnel, and this request is not a rekey request, ISA matches the received TSi and TSr with the configured security policy. This can be a match only when a received TS (in TSi or TSr) address range matches exactly with the subnet in a security policy entry.

If there is no match, the setup fails, and TS_UNACCEPTABLE is sent.

If there is a match, but there is an existing CHILD_SA for the matched security policy, the setup fails, and NO_PROPOSAL_CHOSEN is sent.

If there is a match, and there is not a CHILD_SA for the matched entry, the subnet is sent in the matched security policy entry as TSi and TSr, and the CHILD_SA is created.
  Default false
  Introduced 22.7.R1
 

Platforms

VSR
ipv6-exception reference
  Synopsis IPv6 filter exception used to bypass encryption
  Context configure router string interface string ipsec ipv6-exception reference
  Tree ipv6-exception
 

Description

This command specifies the IPv6 filter exception for an IPsec-secured IPv6 interface. When an IPv6 filter exception is added, clear text packets that match the exception criteria in the IPv6 filter exception can ingress the interface, even when IPsec is enabled on the interface.
 

Reference

configure filter ipv6-exception string

  Introduced 22.7.R1
 

Platforms

VSR
public-sap number
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Public SAP ID
  Context configure router string interface string ipsec public-sap number
  Tree public-sap
  Range 0 to 4094
 

Notes

This element is mandatory.
  Introduced 22.7.R1
 

Platforms

VSR
tunnel-group reference
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Tunnel group ID
  Context configure router string interface string ipsec tunnel-group reference
  Tree tunnel-group
 

Reference

configure isa tunnel-group number

 

Notes

This element is mandatory.
  Introduced 22.7.R1
 

Platforms

VSR
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string interface string ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
allow-directed-broadcasts boolean
  Synopsis Forward directed broadcasts
  Context configure router string interface string ipv4 allow-directed-broadcasts boolean
  Tree allow-directed-broadcasts
 

Description

When configured to true, the router forwards packets received on a local router interface to the subnet broadcast address of another IP interface.

When configured to false, this router does not allow directed broadcasts and the packets are discarded.

Allowing directed broadcasts is a well-known mechanism used for denial-of-service attacks.
  Default false
  Introduced 16.0.R1
 

Platforms

All
bfd
  Synopsis Enter the bfd context
  Context configure router string interface string ipv4 bfd
  Tree bfd
 

Description

Commands in this context configure the Bidirectional Forwarding Detection (BFD) settings for the associated IP interface.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BFD sessions
  Context configure router string interface string ipv4 bfd admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
echo-receive number
  Synopsis Minimum echo interval over this interface
  Context configure router string interface string ipv4 bfd echo-receive number
  Tree echo-receive
  Range 100 to 100000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
multiplier number
  Synopsis Number of consecutive BFD messages missed from the peer
  Context configure router string interface string ipv4 bfd multiplier number
  Tree multiplier
 

Description

This command configures the number of missed messages before the BFD session state is changed to down and the upper-level protocol is notified of the fault. A multiplier of less than 3 should not be used in production environments. 
  Range 1 to 20
  Default 3
  Introduced 16.0.R1
 

Platforms

All
receive number
  Synopsis BFD receive interval over this interface
  Context configure router string interface string ipv4 bfd receive number
  Tree receive
 

Description

This command specifies the receive interval for the BFD session.

On the 7750 SR, this command can only be configured to a value less than 100 when the type command is configured to cpm-np.
  Range 10 to 100000
  Default 100
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
transmit-interval number
  Synopsis BFD transmit interval over this interface
  Context configure router string interface string ipv4 bfd transmit-interval number
  Tree transmit-interval
 

Description

This command configures the transmit intervals.

On the 7750 SR, this command can only be configured to a value less than 100 when the type command is configured to cpm-np.
  Range 10 to 100000
  Default 100
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
type keyword
  Synopsis Local termination point for the BFD session
  Context configure router string interface string ipv4 bfd type keyword
  Tree type
 

Description

This command sets the local termination point for the BFD session to allow for fast timers down to 10 ms granularity.

The options to specify where the BFD session runs are:

  • auto (default) – the system chooses and uses the line card CPU only for single-hop BFD sessions with timer intervals equal to or greater than 100ms. All others are placed on the cpm-np.

  • cpm-np – BFD session runs on the FP complex associated with the CPM. This is either the FP on the CPM or the one elected on smaller systems. 

  • fp – BFD session runs on the line card CPU. This option can only be used for single-hop BFD sessions with timers equal to or greater than 100ms.  
  Default auto
  Options cpm-np, auto, fp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
dhcp
  Synopsis Enter the dhcp context
  Context configure router string interface string ipv4 dhcp
  Tree dhcp
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of DHCP
  Context configure router string interface string ipv4 dhcp admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string interface string ipv4 dhcp description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
gi-address string
  Synopsis GI address for the DHCP relay
  Context configure router string interface string ipv4 dhcp gi-address string
  Tree gi-address
 

Description

This command configures the GI address to distinguish between the different subscriber interfaces (and potentially group interfaces) defined when the router functions as a DHCP relay.

By default, the GI address used in the relayed DHCP packet is the primary IP address of a normal IES interface. Specifying the GI address allows the user to choose a secondary address. For group interfaces, a GI address must be specified under the group interface DHCP context or subscriber interface DHCP context for DHCP to function.
  Introduced 16.0.R1
 

Platforms

All
option-82
  Synopsis Enter the option-82 context
  Context configure router string interface string ipv4 dhcp option-82
  Tree option-82
 

Description

Commands in this context configure the processing required when the router receives a DHCP request that already has an Option 82 field in the packet.
  Introduced 16.0.R1
 

Platforms

All
action keyword
  Synopsis Action to take with received DHCP Option 82
  Context configure router string interface string ipv4 dhcp option-82 action keyword
  Tree action
  Default keep
  Options replace, drop, keep
  Introduced 16.0.R1
 

Platforms

All
circuit-id
  Synopsis Enter the circuit-id context
  Context configure router string interface string ipv4 dhcp option-82 circuit-id
  Tree circuit-id
  Introduced 16.0.R1
 

Platforms

All
ascii-tuple
  Synopsis Use the ASCII-encoded tuple for the circuit ID
  Context configure router string interface string ipv4 dhcp option-82 circuit-id ascii-tuple
  Tree ascii-tuple
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: ascii-tuple, if-name, ifindex, none, port-id, or vlan-ascii-tuple.
  Introduced 16.0.R1
 

Platforms

All
if-name
  Synopsis Use the interface name for the circuit ID
  Context configure router string interface string ipv4 dhcp option-82 circuit-id if-name
  Tree if-name
 

Notes

The following elements are part of a choice: ascii-tuple, if-name, ifindex, none, port-id, or vlan-ascii-tuple.
  Introduced 16.0.R1
 

Platforms

All
ifindex
  Synopsis Use the interface index for the circuit ID
  Context configure router string interface string ipv4 dhcp option-82 circuit-id ifindex
  Tree ifindex
 

Notes

The following elements are part of a choice: ascii-tuple, if-name, ifindex, none, port-id, or vlan-ascii-tuple.
  Introduced 16.0.R1
 

Platforms

All
none
  Synopsis Do not include the circuit ID
  Context configure router string interface string ipv4 dhcp option-82 circuit-id none
  Tree none
 

Notes

The following elements are part of a choice: ascii-tuple, if-name, ifindex, none, port-id, or vlan-ascii-tuple.
  Introduced 16.0.R1
 

Platforms

All
port-id
  Synopsis Use the port ID for the circuit ID
  Context configure router string interface string ipv4 dhcp option-82 circuit-id port-id
  Tree port-id
 

Notes

The following elements are part of a choice: ascii-tuple, if-name, ifindex, none, port-id, or vlan-ascii-tuple.
  Introduced 16.0.R1
 

Platforms

All
vlan-ascii-tuple
  Synopsis Include the VLAN ID and dot1p bits in the ASCII tuple
  Context configure router string interface string ipv4 dhcp option-82 circuit-id vlan-ascii-tuple
  Tree vlan-ascii-tuple
 

Description

When configured, the router includes the VLAN ID and dot1p bits with the ASCII-tuple information. This only occurs on dot1q and QinQ-encapsulated ports. When the Option 82 bits are stripped, dot1p bits are copied to the Ethernet header of the outgoing packet.

When unconfigured, the router leaves the circuit ID sub-option of the DHCP packet empty.
 

Notes

The following elements are part of a choice: ascii-tuple, if-name, ifindex, none, port-id, or vlan-ascii-tuple.
  Introduced 16.0.R1
 

Platforms

All
remote-id
  Synopsis Enter the remote-id context
  Context configure router string interface string ipv4 dhcp option-82 remote-id
  Tree remote-id
 

Description

Commands in this context configure the remote IP sub-option of the DHCP packet with the identity of the remote host end (typically the DHCP client).
  Introduced 16.0.R1
 

Platforms

All
ascii-string string
  Synopsis User-defined ASCII string for the remote ID
  Context configure router string interface string ipv4 dhcp option-82 remote-id ascii-string string
  Tree ascii-string
  String Length 1 to 32
 

Notes

The following elements are part of a choice: ascii-string, mac, or none.
  Introduced 16.0.R1
 

Platforms

All
mac
  Synopsis Use the MAC address for the remote ID
  Context configure router string interface string ipv4 dhcp option-82 remote-id mac
  Tree mac
 

Notes

The following elements are part of a choice: ascii-string, mac, or none.
  Introduced 16.0.R1
 

Platforms

All
none
  Synopsis Do not include the remote ID
  Context configure router string interface string ipv4 dhcp option-82 remote-id none
  Tree none
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: ascii-string, mac, or none.
  Introduced 16.0.R1
 

Platforms

All
vendor-specific-option
  Synopsis Enter the vendor-specific-option context
  Context configure router string interface string ipv4 dhcp option-82 vendor-specific-option
  Tree vendor-specific-option
 

Description

Commands in this context configure the Nokia Vendor-Specific Option (VSO) of the DHCP packet.   
  Introduced 16.0.R1
 

Platforms

All
client-mac-address boolean
  Synopsis Send the MAC address in the VSO
  Context configure router string interface string ipv4 dhcp option-82 vendor-specific-option client-mac-address boolean
  Tree client-mac-address
  Default false
  Introduced 16.0.R1
 

Platforms

All
pool-name boolean
  Synopsis Send the pool name in the VSO
  Context configure router string interface string ipv4 dhcp option-82 vendor-specific-option pool-name boolean
  Tree pool-name
  Default false
  Introduced 16.0.R1
 

Platforms

All
port-id boolean
  Synopsis Send the port ID in the VSO
  Context configure router string interface string ipv4 dhcp option-82 vendor-specific-option port-id boolean
  Tree port-id
  Default false
  Introduced 16.0.R1
 

Platforms

All
service-id boolean
  Synopsis Send the service ID in the Vendor Specific Option
  Context configure router string interface string ipv4 dhcp option-82 vendor-specific-option service-id boolean
  Tree service-id
  Default false
  Introduced 16.0.R1
 

Platforms

All
string string
  Synopsis User-defined ASCII string for the VSO
  Context configure router string interface string ipv4 dhcp option-82 vendor-specific-option string string
  Tree string
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

All
system-id boolean
  Synopsis Send the system ID in the VSO
  Context configure router string interface string ipv4 dhcp option-82 vendor-specific-option system-id boolean
  Tree system-id
  Default false
  Introduced 16.0.R1
 

Platforms

All
python-policy reference
  Synopsis Python policy name
  Context configure router string interface string ipv4 dhcp python-policy reference
  Tree python-policy
 

Description

This command associates a Python policy name with the interface.
 

Reference

configure python python-policy string

  Introduced 16.0.R1
 

Platforms

All
relay-plain-bootp boolean
  Synopsis Relay plain BOOTP messages
  Context configure router string interface string ipv4 dhcp relay-plain-bootp boolean
  Tree relay-plain-bootp
 

Description

When configured to true, the system relays plain BOOTP messages.

When configured to false, the system considers the plain BOOTP packets as malformed DHCP packets; therefore, the system does not relay the messages.
  Default false
  Introduced 16.0.R1
 

Platforms

All
release-include-gi-address boolean
  Synopsis Include gateway IP address in DHCP Release messages
  Context configure router string interface string ipv4 dhcp release-include-gi-address boolean
  Tree release-include-gi-address
  Default false
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
server string
  Synopsis IP addresses for DHCP server requests
  Context configure router string interface string ipv4 dhcp server string
  Tree server
 

Description

This command configures a list of servers that this interface forwards requests to.

The operator can enter the list of servers as either IP addresses or fully qualified domain names. The operator must specify at least one server specified for DHCP relay to work. If there are multiple servers, the system forwards the request to all the servers in the list.

  Max. Instances 8
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
src-ip-addr keyword
  Synopsis Type of source address to use for DHCP relay
  Context configure router string interface string ipv4 dhcp src-ip-addr keyword
  Tree src-ip-addr
  Default auto
  Options auto, gi-address
  Introduced 16.0.R1
 

Platforms

All
trusted boolean
  Synopsis Relay untrusted packets
  Context configure router string interface string ipv4 dhcp trusted boolean
  Tree trusted
 

Description

When configured to true, the router enables the trusted mode on the interface. When enabled, the relay agent changes the existing GI address (of the request) to the ingress interface, and forwards the request.

A DHCP request that contains a GI address of 0.0.0.0 and an Option 82 field in the packet is discarded unless it arrives on a trusted circuit.

This behavior only applies if the Relay Agent Information Option action is to keep the existing information. When the Option 82 field is replaced by the relay agent, the original Option 82 information is lost, and there is no reason to enable the trusted option.
  Default false
  Introduced 16.0.R1
 

Platforms

All
icmp
  Synopsis Enter the icmp context
  Context configure router string interface string ipv4 icmp
  Tree icmp
 

Description

Commands in this context configure Internet Control Message Protocol (ICMP) parameters on a network IP interface.
  Introduced 16.0.R1
 

Platforms

All
mask-reply boolean
  Synopsis Allow responses to ICMP mask requests on the interface
  Context configure router string interface string ipv4 icmp mask-reply boolean
  Tree mask-reply
  Default true
  Introduced 16.0.R1
 

Platforms

All
param-problem
  Synopsis Enter the param-problem context
  Context configure router string interface string ipv4 icmp param-problem
  Tree param-problem
 

Description

Commands in this context specify the settings for ICMP Parameter Problem messages generated by the interface.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of sent Parameter Problem messages
  Context configure router string interface string ipv4 icmp param-problem admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Maximum number of Parameter Problem messages to send
  Context configure router string interface string ipv4 icmp param-problem number number
  Tree number
  Range 10 to 1000
  Default 100
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Time used to limit number of Parameter Problem messages
  Context configure router string interface string ipv4 icmp param-problem seconds number
  Tree seconds
  Range 1 to 60
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
redirects
  Synopsis Enter the redirects context
  Context configure router string interface string ipv4 icmp redirects
  Tree redirects
 

Description

Commands in this context configure the settings for ICMP redirect messages generated by the interface.

The system sends ICMP redirect messages to alert the sending node that a more optimal route is available on another router on the same subnetwork.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of sending ICMP redirect messages
  Context configure router string interface string ipv4 icmp redirects admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Maximum number of ICMP redirect messages to send
  Context configure router string interface string ipv4 icmp redirects number number
  Tree number
  Range 10 to 1000
  Default 100
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Time used to limit the number of ICMP redirect messages
  Context configure router string interface string ipv4 icmp redirects seconds number
  Tree seconds
  Range 1 to 60
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
ttl-expired
  Synopsis Enter the ttl-expired context
  Context configure router string interface string ipv4 icmp ttl-expired
  Tree ttl-expired
 

Description

Commands in this context configure the settings for ICMP TTL expired messages generated by the interface.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of sending TTL expired messages
  Context configure router string interface string ipv4 icmp ttl-expired admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Maximum number of TTL expired messages to send
  Context configure router string interface string ipv4 icmp ttl-expired number number
  Tree number
  Range 10 to 2000
  Default 100
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Time used to limit the number of TTL expired messages
  Context configure router string interface string ipv4 icmp ttl-expired seconds number
  Tree seconds
  Range 1 to 60
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
unreachables
  Synopsis Enter the unreachables context
  Context configure router string interface string ipv4 icmp unreachables
  Tree unreachables
 

Description

Commands in this context specify the settings for ICMP host and network destination unreachable messages generated by the interface.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of sending unreachable messages
  Context configure router string interface string ipv4 icmp unreachables admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Maximum number of unreachable messages to send
  Context configure router string interface string ipv4 icmp unreachables number number
  Tree number
  Range 10 to 2000
  Default 100
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Time to limit the number of ICMP unreachable messages
  Context configure router string interface string ipv4 icmp unreachables seconds number
  Tree seconds
  Range 1 to 60
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
ip-helper-address string
  Synopsis IP address of the target UDP broadcast gateway
  Context configure router string interface string ipv4 ip-helper-address string
  Tree ip-helper-address
 

Description

This command configures the redirection of broadcast UDP packets received on the associated interface to the specified helper gateway address, and then to the gateway.
  Introduced 16.0.R1
 

Platforms

All
local-dhcp-server reference
  Synopsis DHCP server for the interface
  Context configure router string interface string ipv4 local-dhcp-server reference
  Tree local-dhcp-server
 

Reference

configure router string dhcp-server dhcpv4 string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
neighbor-discovery
  Synopsis Enter the neighbor-discovery context
  Context configure router string interface string ipv4 neighbor-discovery
  Tree neighbor-discovery
  Introduced 16.0.R1
 

Platforms

All
learn-unsolicited boolean
  Synopsis Learn new entries from any received NA message
  Context configure router string interface string ipv4 neighbor-discovery learn-unsolicited boolean
  Tree learn-unsolicited
 

Description

When configured to true, the router can learn neighbor entries from received unsolicited Neighbor Advertisement (NA) messages, with or without the solicited (S) flag set. The command can be enabled for global addresses, link-local addresses, or for both.

When configured to false, the router follows standard behavior for learning neighbor entries.

  • If an unsolicited NA (regardless of the S flag) is received from a neighbor that is not yet in the Neighbor Discovery (ND) cache, the NA is ignored.

  • If an NS, RS, RA, or Redirect message with a Link Layer Address (MAC) is received from a neighbor that is not yet in the ND cache, a new neighbor entry is created in the cache to store the received Link Layer MAC. The neighbor is put in the STALE state.
  Default false
  Introduced 16.0.R1
 

Platforms

All
limit
  Synopsis Enter the limit context
  Context configure router string interface string ipv4 neighbor-discovery limit
  Tree limit
 

Description

Commands in this context configure the maximum number of dynamic neighbor entries that can be learned on the interface

When the number of entries reaches the threshold (the configured percentage) of this limit, the system sends an SNMP trap.

When the limit is exceeded, the system learns no new entries until an entry expires and traffic to these destinations is dropped. Already learned entries are refreshed.
  Introduced 16.0.R1
 

Platforms

All
log-only boolean
  Synopsis Generate log entries only if limit is reached
  Context configure router string interface string ipv4 neighbor-discovery limit log-only boolean
  Tree log-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
max-entries number
  Synopsis Maximum number of entries learned on an IP interface
  Context configure router string interface string ipv4 neighbor-discovery limit max-entries number
  Tree max-entries
  Range 0 to 524288
  Introduced 16.0.R1
 

Platforms

All
threshold number
  Synopsis Threshold value that triggers a warning message
  Context configure router string interface string ipv4 neighbor-discovery limit threshold number
  Tree threshold
  Range 1 to 100
  Default 90
  Units percent
  Introduced 16.0.R1
 

Platforms

All
local-proxy-arp boolean
  Synopsis Enable local proxy ARP on interface
  Context configure router string interface string ipv4 neighbor-discovery local-proxy-arp boolean
  Tree local-proxy-arp
 

Description

When configured to true, the router enables local proxy ARP on the interface.

When configured to false, the router does not respond to ARP requests for addresses on the same subnet.
  Introduced 16.0.R1
 

Platforms

All
proactive-refresh boolean
  Synopsis Send a single refresh message before entry timeout
  Context configure router string interface string ipv4 neighbor-discovery proactive-refresh boolean
  Tree proactive-refresh
 

Description

When configured to true, the router always sends a refresh message 30 seconds before the timeout of the entry (a single refresh message with no retries).

When configured to false, the router marks an entry as stale 30 seconds before age-out, and the router only sends an ARP request to refresh the entry if the IOM receives traffic that uses it. Then, the IOM asks the ARP application to send a refresh message. With ARP proactive refresh enabled, the ARP module sends a refresh message regardless of the IOM receiving traffic.
  Default false
  Introduced 16.0.R1
 

Platforms

All
proxy-arp-policy reference
  Synopsis Proxy ARP policy name
  Context configure router string interface string ipv4 neighbor-discovery proxy-arp-policy reference
  Tree proxy-arp-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
remote-proxy-arp boolean
  Synopsis Enable remote proxy ARP on the interface
  Context configure router string interface string ipv4 neighbor-discovery remote-proxy-arp boolean
  Tree remote-proxy-arp
  Default false
  Introduced 16.0.R1
 

Platforms

All
retry-timer number
  Synopsis ARP retry interval
  Context configure router string interface string ipv4 neighbor-discovery retry-timer number
  Tree retry-timer
  Range 1 to 300
  Default 50
  Units deciseconds
  Introduced 16.0.R1
 

Platforms

All
static-neighbor [ipv4-address] string
  Synopsis Enter the static-neighbor list instance
  Context configure router string interface string ipv4 neighbor-discovery static-neighbor string
  Tree static-neighbor
 

Description

Commands in this context configure a static ARP entry that associates an IP address with a MAC address for the core router instance.

  Introduced 16.0.R1
 

Platforms

All
[ipv4-address] string
  Synopsis IPv4 address that corresponds to the physical address
  Context configure router string interface string ipv4 neighbor-discovery static-neighbor string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
mac-address string
  Synopsis MAC address for the static neighbor
  Context configure router string interface string ipv4 neighbor-discovery static-neighbor string mac-address string
  Tree mac-address
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
static-neighbor-unnumbered
  Synopsis Enable the static-neighbor-unnumbered context
  Context configure router string interface string ipv4 neighbor-discovery static-neighbor-unnumbered
  Tree static-neighbor-unnumbered
 

Description

Commands in this context configure the static ARP MAC for an unnumbered interface. This entry overrides the dynamic ARP entry on the unnumbered interface.
  Introduced 16.0.R1
 

Platforms

All
mac-address string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis MAC address for the static neighbor
  Context configure router string interface string ipv4 neighbor-discovery static-neighbor-unnumbered mac-address string
  Tree mac-address
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout for an ARP entry learned on the interface
  Context configure router string interface string ipv4 neighbor-discovery timeout number
  Tree timeout
 

Description

This command configures the minimum time an ARP entry learned on the IP interface is stored in the ARP table. ARP entries are automatically refreshed when an ARP request or gratuitous ARP is seen by an IP host. Otherwise, the ARP entry is aged from the ARP table.

  Range 0 to 65535
  Default 14400
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
primary
  Synopsis Enable the primary context
  Context configure router string interface string ipv4 primary
  Tree primary
  Introduced 16.0.R1
 

Platforms

All
address string
  Synopsis Primary IPv4 address assigned to the interface
  Context configure router string interface string ipv4 primary address string
  Tree address
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
broadcast keyword
  Synopsis Broadcast address format
  Context configure router string interface string ipv4 primary broadcast keyword
  Tree broadcast
 

Description

This command overrides the default broadcast address that the IP interface uses when sourcing IP broadcasts.

This command does not affect the type of broadcasts the IP interface can receive. The IP interface can receive either the local broadcast or the valid subnet broadcast address sent by a host.
  Default host-ones
  Options all-ones, host-ones
  Introduced 16.0.R1
 

Platforms

All
gre-termination boolean
  Synopsis Enable GRE termination
  Context configure router string interface string ipv4 primary gre-termination boolean
  Tree gre-termination
 

Description

When configured to true, the router terminates MPLS-over-GRE and IP-over-GRE packets for destination IP addresses from a user-defined subnet. The user defines a subnet for the termination of GRE packets by executing this command on a numbered network IP interface or a loopback interface.
  Default false
  Introduced 19.10.R1
 

Platforms

VSR
prefix-length number
  Synopsis IPv4 address prefix length
  Context configure router string interface string ipv4 primary prefix-length number
  Tree prefix-length
  Range 0 to 32
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
track-srrp number
  Synopsis SRRP instance whose state is tracked on this IP address
  Context configure router string interface string ipv4 primary track-srrp number
  Tree track-srrp
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
qos-route-lookup keyword
  Synopsis QoS route lookup of ingress IP packets
  Context configure router string interface string ipv4 qos-route-lookup keyword
  Tree qos-route-lookup
  Options destination, source
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
secondary [address] string
  Synopsis Enter the secondary list instance
  Context configure router string interface string ipv4 secondary string
  Tree secondary
  Introduced 16.0.R1
 

Platforms

All
[address] string
  Synopsis Secondary IPv4 address assigned to the interface
  Context configure router string interface string ipv4 secondary string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
broadcast keyword
  Synopsis Broadcast address format
  Context configure router string interface string ipv4 secondary string broadcast keyword
  Tree broadcast
 

Description

This command overrides the default broadcast address that the IP interface uses when sourcing IP broadcasts.

This command does not affect the type of broadcasts the IP interface can receive. The IP interface can receive either the local broadcast or the valid subnet broadcast address sent by a host.
  Default host-ones
  Options all-ones, host-ones
  Introduced 16.0.R1
 

Platforms

All
igp-inhibit boolean
  Synopsis Disable the running IGP from recognizing secondary IP
  Context configure router string interface string ipv4 secondary string igp-inhibit boolean
  Tree igp-inhibit
 

Description

When configured to true, the running IGP does not recognize the secondary IP address as a local interface.
  Default false
  Introduced 16.0.R1
 

Platforms

All
prefix-length number
  Synopsis IPv4 address prefix length
  Context configure router string interface string ipv4 secondary string prefix-length number
  Tree prefix-length
  Range 0 to 32
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
track-srrp number
  Synopsis SRRP instance whose state is tracked on this IP address
  Context configure router string interface string ipv4 secondary string track-srrp number
  Tree track-srrp
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
tcp-mss number
  Synopsis TCP maximum segment size for the interface
  Context configure router string interface string ipv4 tcp-mss number
  Tree tcp-mss
  Range 384 to 9746
  Introduced 16.0.R1
 

Platforms

All
unnumbered
  Synopsis Enter the unnumbered context
  Context configure router string interface string ipv4 unnumbered
  Tree unnumbered
 

Description

Commands in this context configure an IP interface as an unnumbered interface and specify the IP address to use for the interface. An operator can configure unnumbered interfaces to conserve IP addresses.
  Introduced 16.0.R1
 

Platforms

All
ip-address string
  Synopsis IP address to associate with unnumbered IP interface
  Context configure router string interface string ipv4 unnumbered ip-address string
  Tree ip-address
 

Notes

The following elements are part of a choice: ip-address, ip-int-name, or system.
  Introduced 16.0.R1
 

Platforms

All
ip-int-name string
  Synopsis Unnumbered IP interface name
  Context configure router string interface string ipv4 unnumbered ip-int-name string
  Tree ip-int-name
  String Length 1 to 32
 

Notes

The following elements are part of a choice: ip-address, ip-int-name, or system.
  Introduced 16.0.R1
 

Platforms

All
system
  Synopsis Use system IP address for the unnumbered IP interface
  Context configure router string interface string ipv4 unnumbered system
  Tree system
 

Notes

The following elements are part of a choice: ip-address, ip-int-name, or system.
  Introduced 16.0.R1
 

Platforms

All
urpf-check
  Synopsis Enable the urpf-check context
  Context configure router string interface string ipv4 urpf-check
  Tree urpf-check
  Introduced 16.0.R1
 

Platforms

All
ignore-default boolean
  Synopsis Ignore default routes when performing a uRPF check
  Context configure router string interface string ipv4 urpf-check ignore-default boolean
  Tree ignore-default
 

Description

When configured to true, the router ignores default routes while performing a uRPF check to determine the validity of incoming packets.

When configured to false, default routes are considered eligible.
  Default false
  Introduced 16.0.R1
 

Platforms

All
mode keyword
  Synopsis Unicast RPF check mode
  Context configure router string interface string ipv4 urpf-check mode keyword
  Tree mode
  Default strict
  Options strict, loose, strict-no-ecmp
  Introduced 16.0.R1
 

Platforms

All
vrrp [virtual-router-id] number
  Synopsis Enter the vrrp list instance
  Context configure router string interface string ipv4 vrrp number
  Tree vrrp
 

Description

Commands in this context configure a VRRP virtual router instance. A virtual router is defined by its Virtual Router Identifier (VRID) and a set of IP addresses.

  Introduced 16.0.R1
 

Platforms

All
[virtual-router-id] number
  Synopsis Virtual Router Identifier (VRID) for the IP interface
  Context configure router string interface string ipv4 vrrp number
  Range 1 to 255
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of VRRP
  Context configure router string interface string ipv4 vrrp number admin-state keyword
  Tree admin-state
 

Description

The command determines the administrative state of non-owner virtual router instances.

Non-owner virtual router instances can be administratively disabled. This allows the termination of VRRP participation in the virtual router and stops all routing and other access capabilities with regards to the virtual router IP addresses. Disabling the virtual router instance provides a mechanism to maintain the virtual routers without causing false backup or master state changes.

When disabled, no VRRP advertisement messages are generated and all received VRRP advertisement messages are silently discarded with no processing.

Whenever the administrative or operational state of a virtual router instance transitions, a log message is generated.

An owner virtual router context does not use this command. To administratively disable an owner virtual router instance, use the admin-state command within the parent IP interface node which administratively disables the IP interface.
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis Password for simple text authentication
  Context configure router string interface string ipv4 vrrp number authentication-key string
  Tree authentication-key
 

Description

This command optionally assigns a simple text password authentication key to generate master VRRP advertisement messages and validate received VRRP advertisement messages.

If this command is re-executed with a different password key defined, the new key immediately replaces the old key. This command may be executed at any time. 
  String Length 1 to 38
  Introduced 16.0.R1
 

Platforms

All
backup string
  Synopsis Virtual router IP addresses for the interface
  Context configure router string interface string ipv4 vrrp number backup string
  Tree backup
 

Description

This command associates virtual router IP addresses with those of the parental IP interface.

This command has two different functions based on whether it is being executed on an owner or non-owner virtual router instance.

Non-owner virtual router instances create a routable IP interface address that is operationally dependent on the virtual router instance mode (master or backup). This command, when executed on an owner virtual router instance, does not create a routable IP interface address; it simply defines the existing IP addresses of the parental IP interface that are advertised by the virtual router instance.

For owner virtual router instances, this command defines the IP addresses that are advertised within VRRP advertisement messages. This communicates the IP addresses that the master is advertising to backup virtual routers receiving the messages. The specified unicast-ipv4-address must be equal to one of the existing IP addresses in the parental IP interface (primary or secondary) or this command fails.

See "Owner and non-owner VRRP" in the 7450 ESS, 7750 SR, 7950 XRS, and VSR Router Configuration Guide for more information about owner and non-owner virtual router instances.
  Max. Instances 16
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness
  Synopsis Enable the bfd-liveness context
  Context configure router string interface string ipv4 vrrp number bfd-liveness
  Tree bfd-liveness
 

Description

Commands in this context assign a Bidirectional Forwarding Detection (BFD) session to a specific VRRP or SRRP instance. This BFD session provides a heartbeat mechanism that speeds up the transition of the standby VRRP router to an active state. If the associated BFD session fails, the VRRP routers immediately send a VRRP advertisement message. In addition, the standby VRRP routers transition to a master state to speed up convergence.

The VRRP election process takes place based on the advertisement messages sent by all VRRP routers.

Only one BFD session can be assigned to any VRRP or SRRP instance, but multiple SRRP or VRRP sessions can use the same BFD session.
  Introduced 16.0.R1
 

Platforms

All
dest-ip string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Destination IP address to use for BFD session
  Context configure router string interface string ipv4 vrrp number bfd-liveness dest-ip string
  Tree dest-ip
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
interface-name string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Name of the interface running BFD
  Context configure router string interface string ipv4 vrrp number bfd-liveness interface-name string
  Tree interface-name
  String Length 1 to 32
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
service-name string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Administrative service name
  Context configure router string interface string ipv4 vrrp number bfd-liveness service-name string
  Tree service-name
  String Length 1 to 64
  Introduced 16.0.R1
 

Platforms

All
init-delay number
  Synopsis VRRP initialization delay timer
  Context configure router string interface string ipv4 vrrp number init-delay number
  Tree init-delay
  Range 1 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
mac string
  Synopsis Virtual MAC address to use in ARP responses
  Context configure router string interface string ipv4 vrrp number mac string
  Tree mac
 

Description

This command sets an explicit MAC address for the virtual router instance that overrides the VRRP default derived from the VRID.

Changing the default MAC address is useful when an existing HSRP or other non-VRRP default MAC is in use by the IP hosts that use the virtual router IP address. Many hosts do not monitor unessential ARPs and continue to use the cached non-VRRP MAC address after the virtual router becomes master of the host’s gateway address.

Additionally, this command sets the MAC address used in ARP responses when the virtual router instance is master. Routing of IP packets with unicast-mac-address as the destination MAC is also enabled. The MAC must be the same for all virtual routers participating as a virtual router or indeterminate connectivity by the attached IP hosts results. All VRRP advertisement messages are transmitted with unicast-mac-address as the source MAC.

An operator can execute this command at any time and it takes effect immediately. When the virtual router MAC on a master virtual router instance changes, a gratuitous ARP is immediately sent with a VRRP advertisement message. If the virtual router instance is disabled or operating as a backup, the gratuitous ARP and VRRP advertisement messages are not sent.
  Introduced 16.0.R1
 

Platforms

All
master-int-inherit boolean
  Synopsis Allow master instance to dictate the master down timer
  Context configure router string interface string ipv4 vrrp number master-int-inherit boolean
  Tree master-int-inherit
 

Description

When configured to true, the virtual router instance inherits the advertisement interval timer of the master VRRP router, which backup routers use to calculate the master down timer.

When configured to false, the locally configured message interval must match the master's VRRP advertisement message advertisement interval field value or the message is discarded.
  Introduced 16.0.R1
 

Platforms

All
message-interval number
  Synopsis Interval for sending VRRP advertisement messages
  Context configure router string interface string ipv4 vrrp number message-interval number
  Tree message-interval
 

Description

This command configures the administrative advertisement message timer used by the master virtual router instance to send VRRP advertisement messages. The backup master down timer is derived from the value configured using this command.

The usage of this command varies for non-owner virtual router instances, depending on the state of the virtual router (master or backup) and the state of the master-int-inherit command:

  • When a non-owner is operating as master for the virtual router, the system uses the configured value of this command as the operational advertisement timer, similar to an owner virtual router instance. The master-int-inherit command has no effect when operating as master.

  • When a non-owner is in the backup state with master-int-inherit disabled, the system uses the configured value of this command to match the incoming advertisement interval field of the VRRP advertisement message. If the locally configured message interval does not match the advertisement interval field, the system discards the VRRP advertisement.

  • When a non-owner is in the backup state with master-int-inherit enabled, the configured value of this command is ignored. The master down timer is indirectly derived from the advertisement interval field value of the incoming VRRP advertisement message.
  Range 1 to 2559
  Default 10
  Units deciseconds
  Introduced 16.0.R1
 

Platforms

All
monitor-oper-group reference
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis VRRP instance to follow a specified operational group
  Context configure router string interface string ipv4 vrrp number monitor-oper-group reference
  Tree monitor-oper-group
 

Description

This command configures VRRP to associate with an operational group. When associated, VRRP notifies the operational group of its state changes so that other protocols can monitor it to provide a redundancy mechanism. When VRRP is the master router, the operational group is up and the operational group is down for all other VRRP states.
 

Reference

configure service oper-group string

  Introduced 22.2.R1
 

Platforms

All
ntp-reply boolean
  Synopsis Allow processing of NTP requests
  Context configure router string interface string ipv4 vrrp number ntp-reply boolean
  Tree ntp-reply
 

Description

When configured to true, the router redirects NTP requests to the VRRP virtual IP address. This behavior only applies to the router acting as the master VRRP router.

When configured to false, the router does not process NTP requests.
  Default false
  Introduced 20.2.R1
 

Platforms

All
oper-group reference
  Synopsis Operational group name associated with the VRRP
  Context configure router string interface string ipv4 vrrp number oper-group reference
  Tree oper-group
 

Description

This command configures an operational group to associate with the VRRP. When associated, VRRP notifies the operational group of its state changes so that other protocols can monitor it to provide a redundancy mechanism. When VRRP is the master router (MR), the operational group is up. The operational group is down for all other VRRP states.
 

Reference

configure service oper-group string

  Introduced 16.0.R1
 

Platforms

All
owner boolean
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Designate the virtual router instance as owner
  Context configure router string interface string ipv4 vrrp number owner boolean
  Tree owner
 

Description

When configured to true, the router designates this virtual router instance as the owner of the virtual router IP addresses. Therefore, this virtual router becomes responsible for forwarding packets sent to the virtual router IP addresses. The owner also assumes the role of master virtual router.

When configured to false, this virtual router instance is designated as a non-owner.
  Default false
  Introduced 16.0.R1
 

Platforms

All
passive boolean
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Suppress the processing of VRRP advertisement messages
  Context configure router string interface string ipv4 vrrp number passive boolean
  Tree passive
 

Description

When configured to true, the router identifies this virtual router instance as passive; and therefore the owner of the virtual router IP addresses. A passive virtual router instance does not transmit or receive VRRP advertisement messages and is always in either the master state (if the interface is operationally up) or the init state (if the interface is operationally down).

When configured to false, this virtual router instance is not identified as passive, meaning that it transmits and receives VRRP advertisement messages. 
  Default false
  Introduced 16.0.R1
 

Platforms

All
ping-reply boolean
  Synopsis Allow non-owner master to reply to ICMP echo requests
  Context configure router string interface string ipv4 vrrp number ping-reply boolean
  Tree ping-reply
 

Description

When configured to true, the router allows the non-owner master to reply to ICMP echo requests directed at the IP addresses of the virtual router instance. Any routed interface can receive the ping request. Ping must not have been disabled at the management security level (either on the parental IP interface or on the Ping source host address).

When configured to false, ICMP echo requests sent to non-owner master virtual IP addresses are silently discarded.

Non-owner backup virtual routers never respond to ICMP echo requests, regardless of the configuration of this command.
  Default false
  Introduced 16.0.R1
 

Platforms

All
policy reference
  Synopsis VRRP priority control policy
  Context configure router string interface string ipv4 vrrp number policy reference
  Tree policy
 

Description

This command configures a VRRP priority control policy to associate with the virtual router instance.

VRRP priority control policies can override or adjust the base priority value of the virtual router instance, depending on events or conditions within the chassis.

An operator can associate a policy with more than one virtual router instance. The priority events within the policy either override or diminish the base priority set with the priority command. As priority events clear in the policy, the in-use priority can eventually be restored to the base priority value.

For non-owner virtual router instances, if this command is not executed, the base priority is used as the in-use priority.
 

Reference

configure vrrp policy number

  Introduced 16.0.R1
 

Platforms

All
preempt boolean
  Synopsis Allow the VRRP to override an existing non-owner master
  Context configure router string interface string ipv4 vrrp number preempt boolean
  Tree preempt
 

Description

When configured to true, this virtual router instance overrides any non-owner master with an in-use message priority value less than the in-use priority value of this virtual router.

When configured to false, this virtual router only becomes master if the master down timer expires before a VRRP advertisement message is received from another virtual router.
  Default true
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis Base priority for the VRRP
  Context configure router string interface string ipv4 vrrp number priority number
  Tree priority
 

Description

This command configures the base router priority for the virtual router instance, which defines the selection order of the virtual router in the master election process.

The in-use priority is derived from the base priority. However, the in-use priority is modified by optional VRRP priority control policies. An operator can use VRRP priority control policies to either override or adjust the base priority value depending on events or conditions within the chassis.
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
ssh-reply boolean
  Synopsis Allow the non-owner master to reply to SSH requests
  Context configure router string interface string ipv4 vrrp number ssh-reply boolean
  Tree ssh-reply
 

Description

When configured to true, the router allows the non-owner master to reply to SSH requests directed at the IP addresses of the virtual router instance. Any routed interface can receive the SSH request. SSH cannot be disabled at the management security level (either on the parental IP interface or on the SSH source host address).

When configure to false, SSH requests to non-owner master virtual IP addresses are silently discarded.
  Default false
  Introduced 16.0.R1
 

Platforms

All
standby-forwarding boolean
  Synopsis Allow standby router to forward traffic
  Context configure router string interface string ipv4 vrrp number standby-forwarding boolean
  Tree standby-forwarding
 

Description

When configured to true, the standby router forwards all traffic.

When configured to false, the standby router cannot forward traffic sent to the MAC address of the virtual router. However, the standby router still forwards traffic sent to its own MAC address.
  Default false
  Introduced 16.0.R1
 

Platforms

All
telnet-reply boolean
  Synopsis Allow non-owner master to reply to Telnet requests
  Context configure router string interface string ipv4 vrrp number telnet-reply boolean
  Tree telnet-reply
 

Description

When configured to true, the router allows the non-owner master to reply to Telnet requests directed at the IP addresses of the virtual router instance. Any routed interface can receive Telnet requests. Telnet cannot be disabled at the management security level (either on the parental IP interface or on the Telnet source host address).

When configured to false, the router silently discards Telnet requests sent to non-owner master virtual IP addresses.
  Default false
  Introduced 16.0.R1
 

Platforms

All
traceroute-reply boolean
  Synopsis Allow non-owner master to reply to traceroute requests
  Context configure router string interface string ipv4 vrrp number traceroute-reply boolean
  Tree traceroute-reply
 

Description

When configured to true, the router allows a non-owner master to reply to traceroute requests directed to the IP addresses of the virtual router instance.

When configured to false, the router silently discards traceroute requests sent to non-owner master virtual IP addresses.

Traceroute must not have been disabled at the management security level (either on the parental IP interface or the source host address).
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enable the ipv6 context
  Context configure router string interface string ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
address [ipv6-address] string
  Synopsis Enter the address list instance
  Context configure router string interface string ipv6 address string
  Tree address
  Introduced 16.0.R1
 

Platforms

All
[ipv6-address] string
  Synopsis IPv6 address assigned to the interface
  Context configure router string interface string ipv6 address string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
duplicate-address-detection boolean
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Enable Duplicate Address Detection
  Context configure router string interface string ipv6 address string duplicate-address-detection boolean
  Tree duplicate-address-detection
 

Description

When configured to true, the router enables Duplicate Address Detection (DAD).

When configured to false, the router disables DAD and sets the address to preferred, even if there is a duplicated address.
  Default true
  Introduced 16.0.R1
 

Platforms

All
eui-64 boolean
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Form IPv6 address from prefix and 64-bit interface ID
  Context configure router string interface string ipv6 address string eui-64 boolean
  Tree eui-64
 

Description

When configured to true, the router forms a complete IPv6 address from the supplied prefix and 64-bit interface identifier. The 64-bit interface identifier is derived from the MAC address on Ethernet interfaces. For interfaces without a MAC address, for example POS interfaces, use the base MAC address of the chassis.
  Default false
  Introduced 16.0.R1
 

Platforms

All
prefix-length number
  Synopsis IPv6 address prefix length
  Context configure router string interface string ipv6 address string prefix-length number
  Tree prefix-length
  Range 4 to 128
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
primary-preference number
  Synopsis Index assigned to the IPv6 address of the interface
  Context configure router string interface string ipv6 address string primary-preference number
  Tree primary-preference
 

Description

This command assigns a primary preference index to an IPv6 address of the interface to enforce the order in which the address is used by control plane protocols and applications that require a fixed address of the interface, such as LDP and Segment Routing. In cases where a fixed address is required when originating packets from the interface, the IPv6 address with the lowest primary preference index is selected. If the selected address is removed, the next IPv6 address with the next lowest primary preference index is selected.

If this index is not specified for the IPv6 address, the system assigns the next available index value to the address. The address index space is unique across all addresses of a given interface.
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
track-srrp number
  Synopsis SRRP ID whose state is tracked on this IP address
  Context configure router string interface string ipv6 address string track-srrp number
  Tree track-srrp
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
bfd
  Synopsis Enter the bfd context
  Context configure router string interface string ipv6 bfd
  Tree bfd
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BFD sessions
  Context configure router string interface string ipv6 bfd admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
echo-receive number
  Synopsis Minimum echo interval over this interface
  Context configure router string interface string ipv6 bfd echo-receive number
  Tree echo-receive
  Range 100 to 100000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
multiplier number
  Synopsis Number of consecutive BFD messages missed from the peer
  Context configure router string interface string ipv6 bfd multiplier number
  Tree multiplier
 

Description

This command configures the number of missed messages before the BFD session state is changed to down and the upper-level protocol is notified of the fault. A multiplier of less than 3 should not be used in production environments. 
  Range 1 to 20
  Default 3
  Introduced 16.0.R1
 

Platforms

All
receive number
  Synopsis BFD receive interval over this interface
  Context configure router string interface string ipv6 bfd receive number
  Tree receive
 

Description

This command specifies the receive interval for the BFD session.

On the 7750 SR, this command can only be configured to a value less than 100 when the type command is configured to cpm-np.
  Range 10 to 100000
  Default 100
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
transmit-interval number
  Synopsis BFD transmit interval over this interface
  Context configure router string interface string ipv6 bfd transmit-interval number
  Tree transmit-interval
 

Description

This command configures the transmit intervals.

On the 7750 SR, this command can only be configured to a value less than 100 when the type command is configured to cpm-np.
  Range 10 to 100000
  Default 100
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
type keyword
  Synopsis Local termination point for the BFD session
  Context configure router string interface string ipv6 bfd type keyword
  Tree type
 

Description

This command sets the local termination point for the BFD session to allow for fast timers down to 10 ms granularity.

The options to specify where the BFD session runs are:

  • auto (default) – the system chooses and uses the line card CPU only for single-hop BFD sessions with timer intervals equal to or greater than 100ms. All others are placed on the cpm-np.

  • cpm-np – BFD session runs on the FP complex associated with the CPM. This is either the FP on the CPM or the one elected on smaller systems. 

  • fp – BFD session runs on the line card CPU. This option can only be used for single-hop BFD sessions with timers equal to or greater than 100ms.  
  Default auto
  Options cpm-np, auto, fp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
duplicate-address-detection boolean
  Synopsis Enable Duplicate Address Detection
  Context configure router string interface string ipv6 duplicate-address-detection boolean
  Tree duplicate-address-detection
 

Description

When configured to true, the router enables Duplicate Address Detection (DAD) on the interface.

When configured to false, the router disables DAD on a per-interface basis. This prevents the router from performing a DAD check on the interface. All IPv6 addresses on an interface with DAD disabled, immediately enter a preferred state, without checking for uniqueness on the interface. This is useful for interfaces that enter a looped state during troubleshooting and are operationally disabled when the loop is detected, requiring manual intervention to clear the DAD violation.
  Default true
  Introduced 16.0.R1
 

Platforms

All
forward-ipv4-packets boolean
  Synopsis Forward unencapsulated IPv4 packets
  Context configure router string interface string ipv6 forward-ipv4-packets boolean
  Tree forward-ipv4-packets
 

Description

When configured to true, the router can use an IPv6-only interface, with no configured IPv4 addresses, to forward IPv4 packets that originate or terminate locally.

The interface reports that its IPv4 operational state is up if its IPv6 operational state is up. Not all protocols observe the interface as up from an IPv4 perspective. This command mostly supports BGP routing use cases; see RFC 5549 for details.

When configured to false, the router prevents IPv4 packets from being forwarded if there are no configured IPv4 subnets.
  Default false
  Introduced 19.5.R1
 

Platforms

All
icmp6
  Synopsis Enter the icmp6 context
  Context configure router string interface string ipv6 icmp6
  Tree icmp6
  Introduced 16.0.R1
 

Platforms

All
packet-too-big
  Synopsis Enter the packet-too-big context
  Context configure router string interface string ipv6 icmp6 packet-too-big
  Tree packet-too-big
 

Description

Commands in this context configure limiting the number of ICMPv6 Packet Too Big messages.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of Packet Too Big message sends
  Context configure router string interface string ipv6 icmp6 packet-too-big admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Number of Packet Too big Messages issued per time frame
  Context configure router string interface string ipv6 icmp6 packet-too-big number number
  Tree number
  Range 10 to 1000
  Default 100
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Time used to limit Packet Too Big messages
  Context configure router string interface string ipv6 icmp6 packet-too-big seconds number
  Tree seconds
  Range 1 to 60
  Default 10
  Introduced 16.0.R1
 

Platforms

All
param-problem
  Synopsis Enter the param-problem context
  Context configure router string interface string ipv6 icmp6 param-problem
  Tree param-problem
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of Parameter Problem message sends
  Context configure router string interface string ipv6 icmp6 param-problem admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Number used to limit ICMPv6 Parameter Problem messages
  Context configure router string interface string ipv6 icmp6 param-problem number number
  Tree number
  Range 10 to 1000
  Default 100
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Time used to limit ICMPv6 Parameter Problem messages
  Context configure router string interface string ipv6 icmp6 param-problem seconds number
  Tree seconds
  Range 1 to 60
  Default 10
  Introduced 16.0.R1
 

Platforms

All
redirects
  Synopsis Enter the redirects context
  Context configure router string interface string ipv6 icmp6 redirects
  Tree redirects
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of Redirect message sends
  Context configure router string interface string ipv6 icmp6 redirects admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Number to limit ICMPv6 Redirect messages per time frame
  Context configure router string interface string ipv6 icmp6 redirects number number
  Tree number
  Range 10 to 1000
  Default 100
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Time used to limit ICMPv6 Redirect messages
  Context configure router string interface string ipv6 icmp6 redirects seconds number
  Tree seconds
  Range 1 to 60
  Default 10
  Introduced 16.0.R1
 

Platforms

All
time-exceeded
  Synopsis Enter the time-exceeded context
  Context configure router string interface string ipv6 icmp6 time-exceeded
  Tree time-exceeded
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of Time Exceeded message sends
  Context configure router string interface string ipv6 icmp6 time-exceeded admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Number to limit Time Exceeded messages per time frame
  Context configure router string interface string ipv6 icmp6 time-exceeded number number
  Tree number
  Range 10 to 2000
  Default 100
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Time used to limit ICMPv6 Time Exceeded messages
  Context configure router string interface string ipv6 icmp6 time-exceeded seconds number
  Tree seconds
  Range 1 to 60
  Default 10
  Introduced 16.0.R1
 

Platforms

All
unreachables
  Synopsis Enter the unreachables context
  Context configure router string interface string ipv6 icmp6 unreachables
  Tree unreachables
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of Unreachable message sends
  Context configure router string interface string ipv6 icmp6 unreachables admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Number to limit Unreachable messages per time frame
  Context configure router string interface string ipv6 icmp6 unreachables number number
  Tree number
  Range 10 to 2000
  Default 100
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Time used to limit ICMPv6 Unreachable messages
  Context configure router string interface string ipv6 icmp6 unreachables seconds number
  Tree seconds
  Range 1 to 60
  Default 10
  Introduced 16.0.R1
 

Platforms

All
link-local-address
  Synopsis Enter the link-local-address context
  Context configure router string interface string ipv6 link-local-address
  Tree link-local-address
 

Description

Commands in this context configure the IPv6 link-local address that is used as a virtual SRRP IPv6 address by the master SRRP node. This address is sent in the Router Advertisements initiated by the master SRRP node. Clients use this address as IPv6 default-gateway. Both SRRP nodes, master and backup, must be configured with the same link-local address.

Only one link-local address is allowed per interface.

Caution: Removing a manually configured link-local address may impact routing protocols or static routes that have a dependency on that address. Nokia does not recommend removing a link-local address when there are active IPv6 subscriber hosts on an IES or VPRN interface.
  Introduced 16.0.R1
 

Platforms

All
address string
  Synopsis IPv6 link-local address
  Context configure router string interface string ipv6 link-local-address address string
  Tree address
  Introduced 16.0.R1
 

Platforms

All
duplicate-address-detection boolean
  Synopsis Enable Duplicate Address Detection
  Context configure router string interface string ipv6 link-local-address duplicate-address-detection boolean
  Tree duplicate-address-detection
 

Description

When configured to true, the router enables Duplicate Address Detection (DAD) on the interface.

When configured to false, the router disables DAD and sets the address to preferred, even if there is a duplicated address.
  Default true
  Introduced 16.0.R1
 

Platforms

All
local-dhcp-server reference
  Synopsis DHCP server for the interface
  Context configure router string interface string ipv6 local-dhcp-server reference
  Tree local-dhcp-server
 

Description

This command instantiates a local DHCP server. A local DHCP server can serve multiple interfaces but is limited to the routing context in which it was created.
 

Reference

configure router string dhcp-server dhcpv6 string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
neighbor-discovery
  Synopsis Enter the neighbor-discovery context
  Context configure router string interface string ipv6 neighbor-discovery
  Tree neighbor-discovery
  Introduced 16.0.R1
 

Platforms

All
learn-unsolicited keyword
  Synopsis Type of entries learned from unsolicited NA messages
  Context configure router string interface string ipv6 neighbor-discovery learn-unsolicited keyword
  Tree learn-unsolicited
 

Description

This command enables the ability to learn neighbor entries out of received unsolicited Neighbor Advertisement (NA) messages, with or without the solicited flag set.

When unconfigured, the router follows standard RFC 4861 behavior for learning of neighbor entries. The neighbor is put in the stale state. This is the standard RFC behavior.
  Options global, link-local, both
  Introduced 16.0.R1
 

Platforms

All
limit
  Synopsis Enter the limit context
  Context configure router string interface string ipv6 neighbor-discovery limit
  Tree limit
 

Description

Commands in this context configure the maximum amount of dynamic IPv6 neighbor entries that can be learned on an IP interface.

When the number of dynamic neighbor entries reaches the configured percentage of this limit the system sends an SNMP trap. When the limit is exceeded, no new entries are learned until an entry expires and traffic to these destinations is dropped. Entries that have already been learned are refreshed.
  Introduced 16.0.R1
 

Platforms

All
log-only boolean
  Synopsis Generate log entries when limit is reached
  Context configure router string interface string ipv6 neighbor-discovery limit log-only boolean
  Tree log-only
 

Description

When configured to true, the router sends the warning message at the specified threshold percentage or upon exceeding the specified limit. Entries that exceed the limit are learned.

When configured to false, the router does not send the warning message.
  Default false
  Introduced 16.0.R1
 

Platforms

All
max-entries number
  Synopsis Maximum number of entries learned on an IP interface
  Context configure router string interface string ipv6 neighbor-discovery limit max-entries number
  Tree max-entries
 

Description

This command configures the maximum number of entries that can be learned on an IP interface.

When unconfigured, no maximum limit is imposed.
  Range 0 to 102400
  Introduced 16.0.R1
 

Platforms

All
threshold number
  Synopsis Threshold percentage that triggers a warning message
  Context configure router string interface string ipv6 neighbor-discovery limit threshold number
  Tree threshold
  Range 1 to 100
  Default 90
  Units percent
  Introduced 16.0.R1
 

Platforms

All
local-proxy-nd boolean
  Synopsis Enable local proxy neighbor discovery on the interface
  Context configure router string interface string ipv6 neighbor-discovery local-proxy-nd boolean
  Tree local-proxy-nd
 

Description

When configured to true, the router enables local proxy neighbor discovery on the interface and replies to neighbor solicitation requests when both the hosts are on the same subnet. In this case, ICMP redirects are disabled.

When configured to false, the router disables local proxy neighbor discovery on the interface and does not reply to neighbor solicitation requests if both the hosts are on the same subnet.
  Default false
  Introduced 16.0.R1
 

Platforms

All
proactive-refresh keyword
  Synopsis Proactive refresh of neighbor entries
  Context configure router string interface string ipv6 neighbor-discovery proactive-refresh keyword
  Tree proactive-refresh
 

Description

This command enables a proactive refresh of the neighbor entries. After the stale timer expires, the router sends an NUD message to the host (regardless of the existence of traffic to the IP address on the IOM), so the entry can be refreshed or removed.
  Options global, link-local, both
  Introduced 16.0.R1
 

Platforms

All
proxy-nd-policy reference
  Synopsis Proxy Neighbor Discovery policy name for the interface
  Context configure router string interface string ipv6 neighbor-discovery proxy-nd-policy reference
  Tree proxy-nd-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
reachable-time number
  Synopsis Neighbor reachability detection timer
  Context configure router string interface string ipv6 neighbor-discovery reachable-time number
  Tree reachable-time
  Range 30 to 3600
  Introduced 16.0.R1
 

Platforms

All
secure-nd
  Synopsis Enter the secure-nd context
  Context configure router string interface string ipv6 neighbor-discovery secure-nd
  Tree secure-nd
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of Secure Neighbor Discovery
  Context configure router string interface string ipv6 neighbor-discovery secure-nd admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
allow-unsecured-msgs boolean
  Synopsis Accept unsecured messages
  Context configure router string interface string ipv6 neighbor-discovery secure-nd allow-unsecured-msgs boolean
  Tree allow-unsecured-msgs
 

Description

When configured to true, the router accepts unsecured messages. When Secure Neighbor Discovery (SeND) is enabled, only secure messages are accepted.

When configured to false, the router disables the acceptance of unsecured messages.
  Default true
  Introduced 16.0.R1
 

Platforms

All
public-key-min-bits number
  Synopsis Minimum acceptable key length for public keys in CGA
  Context configure router string interface string ipv6 neighbor-discovery secure-nd public-key-min-bits number
  Tree public-key-min-bits
  Range 512 to 1024
  Default 1024
  Introduced 16.0.R1
 

Platforms

All
security-parameter number
  Synopsis Security parameter used in the generation of a CGA
  Context configure router string interface string ipv6 neighbor-discovery secure-nd security-parameter number
  Tree security-parameter
  Range 0 to 1
  Default 1
  Introduced 16.0.R1
 

Platforms

All
stale-time number
  Synopsis Time a Neighbor Discovery cache entry remains stale
  Context configure router string interface string ipv6 neighbor-discovery stale-time number
  Tree stale-time
  Range 60 to 65535
  Introduced 16.0.R1
 

Platforms

All
static-neighbor [ipv6-address] string
  Synopsis Enter the static-neighbor list instance
  Context configure router string interface string ipv6 neighbor-discovery static-neighbor string
  Tree static-neighbor
 

Description

Commands in this context configure an IPv6-to-MAC address mapping on the interface. Use this command if a directly attached IPv6 node does not support ICMPv6 neighbor discovery, or for some reason, a static address must be used. This command can only be used on Ethernet media.

The IPv6 address must be on the subnet that was configured from the IPv6 address or a link-local-address commands.
  Introduced 16.0.R1
 

Platforms

All
[ipv6-address] string
  Synopsis IPv6 address corresponding to the physical address
  Context configure router string interface string ipv6 neighbor-discovery static-neighbor string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
mac-address string
  Synopsis MAC address for the static neighbor
  Context configure router string interface string ipv6 neighbor-discovery static-neighbor string mac-address string
  Tree mac-address
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
qos-route-lookup keyword
  Synopsis QoS route lookup of ingress IP packets
  Context configure router string interface string ipv6 qos-route-lookup keyword
  Tree qos-route-lookup
 

Description

This command enables QoS classification of the ingress IP packets on an interface based on the QoS information associated with routes in the forwarding table.
  Options destination, source
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
tcp-mss number
  Synopsis TCP maximum segment size for the IPv6 interface
  Context configure router string interface string ipv6 tcp-mss number
  Tree tcp-mss
  Range 1220 to 9726
  Introduced 16.0.R1
 

Platforms

All
urpf-check
  Synopsis Enable the urpf-check context
  Context configure router string interface string ipv6 urpf-check
  Tree urpf-check
  Introduced 16.0.R1
 

Platforms

All
ignore-default boolean
  Synopsis Ignore default route when performing a uRPF check
  Context configure router string interface string ipv6 urpf-check ignore-default boolean
  Tree ignore-default
  Default false
  Introduced 16.0.R1
 

Platforms

All
mode keyword
  Synopsis Unicast RPF check mode
  Context configure router string interface string ipv6 urpf-check mode keyword
  Tree mode
  Default strict
  Options strict, loose, strict-no-ecmp
  Introduced 16.0.R1
 

Platforms

All
vrrp [virtual-router-id] number
  Synopsis Enter the vrrp list instance
  Context configure router string interface string ipv6 vrrp number
  Tree vrrp
 

Description

Commands in this context configure a VRRP virtual router instance. A virtual router is defined by its virtual router identifier (VRID) and a set of IP addresses.

  Max. Instances 4
  Introduced 16.0.R1
 

Platforms

All
[virtual-router-id] number
  Synopsis Virtual Router Identifier (VRID) for the IP interface
  Context configure router string interface string ipv6 vrrp number
  Range 1 to 255
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of VRRP
  Context configure router string interface string ipv6 vrrp number admin-state keyword
  Tree admin-state
 

Description

The command determines the administrative state of non-owner virtual router instances.

Non-owner virtual router instances can be administratively disabled. This allows the termination of VRRP participation in the virtual router and stops all routing and other access capabilities with regards to the virtual router IP addresses. Disabling the virtual router instance provides a mechanism to maintain the virtual routers without causing false backup or master state changes.

When disabled, no VRRP advertisement messages are generated and all received VRRP advertisement messages are silently discarded with no processing.

Whenever the administrative or operational state of a virtual router instance transitions, a log message is generated.

An owner virtual router context does not use this command. To administratively disable an owner virtual router instance, use the admin-state command within the parent IP interface node which administratively disables the IP interface.
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
backup string
  Synopsis Virtual router IP addresses for the interface
  Context configure router string interface string ipv6 vrrp number backup string
  Tree backup
 

Description

This command associates router IPv6 virtual router IP addresses with those of the parental IP interface.

This command has two different functions based on whether it is being executed on an owner or non-owner virtual router instance.

Non-owner virtual router instance create a routable IP interface address that is operationally dependent on the virtual router instance mode (master or backup). This command, when executed on an owner virtual router instance, does not create a routable IP interface address; it simply defines the existing IP addresses of the parental IP interface that are advertised by the virtual router instance.

For owner virtual router instances, this command defines the IP addresses that are advertised within VRRP advertisement messages. This communicates the IP addresses that the master is representing to backup virtual routers receiving the messages. The specified IPv6 address must be equal to one of the existing parental IP addresses in the parental IP interface (primary or secondary) or this command fails.

See "Owner and non-owner VRRP" in the 7450 ESS, 7750 SR, 7950 XRS, and VSR Router Configuration Guide for more information about owner and non-owner virtual router instances.
  Max. Instances 4
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness
  Synopsis Enable the bfd-liveness context
  Context configure router string interface string ipv6 vrrp number bfd-liveness
  Tree bfd-liveness
 

Description

Commands in this context assign a bidirectional forwarding detect (BFD) session to a specific VRRP or SRRP instance. This BFD session provides a heartbeat mechanism for use in speeding up the transition of the standby VRRP router to an active state. If the associated BFD session fails, the VRRP routers immediately send a VRRP Advertisement message. In addition, the standby VRRP routers transition to a Master state to speed convergence.

The normal VRRP election process takes place based on the Advertisement messages sent by all VRRP routers.

There can be only one BFD session assigned to any specific VRRP or SRRP instance, but there can be multiple SRRP or VRRP sessions using the same BFD session.
  Introduced 16.0.R1
 

Platforms

All
dest-ip string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Destination address for the BFD session
  Context configure router string interface string ipv6 vrrp number bfd-liveness dest-ip string
  Tree dest-ip
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
interface-name string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Name of the interface running BFD
  Context configure router string interface string ipv6 vrrp number bfd-liveness interface-name string
  Tree interface-name
  String Length 1 to 32
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
service-name string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Administrative service name
  Context configure router string interface string ipv6 vrrp number bfd-liveness service-name string
  Tree service-name
  String Length 1 to 64
  Introduced 16.0.R1
 

Platforms

All
init-delay number
  Synopsis VRRP initialization delay timer
  Context configure router string interface string ipv6 vrrp number init-delay number
  Tree init-delay
  Range 1 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
mac string
  Synopsis Virtual MAC address to use in ARP responses
  Context configure router string interface string ipv6 vrrp number mac string
  Tree mac
 

Description

This command sets an explicit MAC address for the virtual router instance that overrides the VRRP default derived from the VRID.

Changing the default MAC address is useful when an existing HSRP or other non-VRRP default MAC is in use by the IP hosts that use the virtual router IP address. Many hosts do not monitor unessential ARPs and continue to use the cached non-VRRP MAC address after the virtual router becomes master of the host’s gateway address.

Additionally, this command sets the MAC address used in ARP responses when the virtual router instance is master. Routing of IP packets with unicast-mac-address as the destination MAC is also enabled. The MAC must be the same for all virtual routers participating as a virtual router or indeterminate connectivity by the attached IP hosts results. All VRRP advertisement messages are transmitted with unicast-mac-address as the source MAC.

An operator can execute this command at any time and it takes effect immediately. When the virtual router MAC on a master virtual router instance changes, a gratuitous ARP is immediately sent with a VRRP advertisement message. If the virtual router instance is disabled or operating as a backup, the gratuitous ARP and VRRP advertisement messages are not sent.
  Introduced 16.0.R1
 

Platforms

All
master-int-inherit boolean
  Synopsis Allow master instance to dictate the master down timer
  Context configure router string interface string ipv6 vrrp number master-int-inherit boolean
  Tree master-int-inherit
 

Description

When configured to true, the virtual router instance inherits the advertisement interval timer of the master VRRP router, which backup routers use to calculate the master down timer.

When configured to false, the locally configured message interval must match the master's VRRP advertisement message advertisement interval field value or the message is discarded.
  Introduced 16.0.R1
 

Platforms

All
message-interval number
  Synopsis Interval for sending VRRP advertisement messages
  Context configure router string interface string ipv6 vrrp number message-interval number
  Tree message-interval
 

Description

This command configures the administrative advertisement message timer used by the master virtual router instance to send VRRP advertisement messages. The backup master down timer is derived from the value configured using this command.

The use of this command varies for non-owner virtual router instances, depending on the state of the virtual router (master or backup) and the state of the master-int-inherit command:

  • When a non-owner is operating as master for the virtual router, the system uses the configured value of this command as the operational advertisement timer, similar to an owner virtual router instance. The master-int-inherit command has no effect when operating as the master.

  • When a non-owner is in the backup state with master-int-inherit disabled, the system uses the configured value of this command to match the incoming advertisement interval field of the VRRP advertisement message. If the locally configured message interval does not match the advertisement interval field, the system discards the VRRP advertisement.

  • When a non-owner is in the backup state with master-int-inherit enabled, the configured value of this command is ignored. The master down timer is indirectly derived from the advertisement interval field value of the incoming VRRP advertisement message.
  Range 10 to 4095
  Default 100
  Units centiseconds
  Introduced 16.0.R1
 

Platforms

All
monitor-oper-group reference
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis VRRP instance to follow a specified operational group
  Context configure router string interface string ipv6 vrrp number monitor-oper-group reference
  Tree monitor-oper-group
 

Description

This command configures VRRP to associate with an operational group. When associated, VRRP notifies the operational group of its state changes so that other protocols can monitor it to provide a redundancy mechanism. When VRRP is the master router, the operational group is up and the operational group is down for all other VRRP states.
 

Reference

configure service oper-group string

  Introduced 22.2.R1
 

Platforms

All
ntp-reply boolean
  Synopsis Allow processing of NTP requests
  Context configure router string interface string ipv6 vrrp number ntp-reply boolean
  Tree ntp-reply
 

Description

When configured to true, the router redirects NTP requests to the VRRP virtual IP address. This behavior only applies to the router acting as the master VRRP router.

When configured to false, the router does not process NTP requests.
  Default false
  Introduced 20.2.R1
 

Platforms

All
oper-group reference
  Synopsis Operational group name associated with the VRRP
  Context configure router string interface string ipv6 vrrp number oper-group reference
  Tree oper-group
 

Description

This command configures an operational group to associate with the VRRP. When associated, VRRP notifies the operational group of its state changes so that other protocols can monitor it to provide a redundancy mechanism. When VRRP is the master router (MR), the operational group is up. The operational group is down for all other VRRP states.
 

Reference

configure service oper-group string

  Introduced 16.0.R1
 

Platforms

All
owner boolean
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Designate the virtual router instance as owner
  Context configure router string interface string ipv6 vrrp number owner boolean
  Tree owner
 

Description

When configured to true, the router designates this virtual router instance as the owner of the virtual router IP addresses. Therefore, this virtual router becomes responsible for forwarding packets sent to the virtual router IP addresses. The owner also assumes the role of master virtual router.

When configured to false, this virtual router instance is designated as a non-owner.
  Default false
  Introduced 16.0.R1
 

Platforms

All
passive boolean
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Suppress the processing of VRRP advertisement messages
  Context configure router string interface string ipv6 vrrp number passive boolean
  Tree passive
 

Description

When configured to true, the router identifies this virtual router instance as passive; and therefore the owner of the virtual router IP addresses. A passive virtual router instance does not transmit or receive VRRP advertisement messages and is always in either the master state (if the interface is operationally up) or the init state (if the interface is operationally down).

When configured to false, this virtual router instance is not identified as passive, meaning that it transmits and receives VRRP advertisement messages. 
  Default false
  Introduced 16.0.R1
 

Platforms

All
ping-reply boolean
  Synopsis Allow non-owner master to reply to ICMP echo requests
  Context configure router string interface string ipv6 vrrp number ping-reply boolean
  Tree ping-reply
 

Description

When configured to true, the router allows the non-owner master to reply to ICMP echo requests directed at the IP addresses of the virtual router instance. Any routed interface can receive the ping request. Ping must not have been disabled at the management security level (either on the parental IP interface or on the Ping source host address).

When configured to false, ICMP echo requests sent to non-owner master virtual IP addresses are silently discarded.

Non-owner backup virtual routers never respond to ICMP echo requests, regardless of the configuration of this command.
  Default false
  Introduced 16.0.R1
 

Platforms

All
policy reference
  Synopsis VRRP priority control policy
  Context configure router string interface string ipv6 vrrp number policy reference
  Tree policy
 

Description

This command configures a VRRP priority control policy to associate with the virtual router instance.

VRRP priority control policies can override or adjust the base priority value of the virtual router instance, depending on events or conditions within the chassis.

An operator can associate a policy with more than one virtual router instance. The priority events within the policy either override or diminish the base priority set with the priority command. As priority events clear in the policy, the in-use priority can eventually be restored to the base priority value.

For non-owner virtual router instances, if this command is not executed, the base priority is used as the in-use priority.
 

Reference

configure vrrp policy number

  Introduced 16.0.R1
 

Platforms

All
preempt boolean
  Synopsis Allow the VRRP to override an existing non-owner master
  Context configure router string interface string ipv6 vrrp number preempt boolean
  Tree preempt
 

Description

When configured to true, this virtual router instance overrides any non-owner master with an in-use message priority value less than the in-use priority value of this virtual router.

When configured to false, this virtual router only becomes master if the master down timer expires before a VRRP advertisement message is received from another virtual router.
  Default true
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis Base priority for the VRRP
  Context configure router string interface string ipv6 vrrp number priority number
  Tree priority
 

Description

This command configures the base router priority for the virtual router instance, which defines the selection order of the virtual router in the master election process.

The in-use priority is derived from the base priority. However, the in-use priority is modified by optional VRRP priority control policies. An operator can use VRRP priority control policies to either override or adjust the base priority value depending on events or conditions within the chassis.
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
standby-forwarding boolean
  Synopsis Allow standby router to forward traffic
  Context configure router string interface string ipv6 vrrp number standby-forwarding boolean
  Tree standby-forwarding
 

Description

When configured to true, the standby router forwards all traffic.

When configured to false, the standby router cannot forward traffic sent to the MAC address of the virtual router. However, the standby router still forwards traffic sent to its own MAC address.
  Default false
  Introduced 16.0.R1
 

Platforms

All
telnet-reply boolean
  Synopsis Allow non-owner master to reply to Telnet requests
  Context configure router string interface string ipv6 vrrp number telnet-reply boolean
  Tree telnet-reply
 

Description

When configured to true, the router allows the non-owner master to reply to Telnet requests directed at the IP addresses of the virtual router instance. Any routed interface can receive Telnet requests. Telnet cannot be disabled at the management security level (either on the parental IP interface or on the Telnet source host address).

When configured to false, the router silently discards Telnet requests sent to non-owner master virtual IP addresses.
  Default false
  Introduced 16.0.R1
 

Platforms

All
traceroute-reply boolean
  Synopsis Allow non-owner master to reply to traceroute requests
  Context configure router string interface string ipv6 vrrp number traceroute-reply boolean
  Tree traceroute-reply
 

Description

When configured to true, the router allows a non-owner master to reply to traceroute requests directed to the IP addresses of the virtual router instance.

When configured to false, the router silently discards traceroute requests sent to non-owner master virtual IP addresses.

Traceroute must not have been disabled at the management security level (either on the parental IP interface or the source host address).
  Default false
  Introduced 16.0.R1
 

Platforms

All
lag
  Synopsis Enter the lag context
  Context configure router string interface string lag
  Tree lag
  Introduced 16.0.R1
 

Platforms

All
link-map-profile number
  Synopsis LAG link map profile for a SAP or network interface
  Context configure router string interface string lag link-map-profile number
  Tree link-map-profile
 

Description

This command assigns a preconfigured LAG link map profile to a SAP or network interface configured on a LAG or a PW port that exists on a LAG. After an operator assigns a LAG link map profile, the system rehashes the SAP or network interface egress traffic over the LAG as required by the new configuration.

If the LAG link map profile for a SAP or network interface is deleted, the system reverts back to per-flow hashing.
  Range 1 to 64
  Introduced 16.0.R1
 

Platforms

All
per-link-hash
  Synopsis Enter the per-link-hash context
  Context configure router string interface string lag per-link-hash
  Tree per-link-hash
  Introduced 16.0.R1
 

Platforms

All
class number
  Synopsis Class used on LAG egress using weighted per-link-hash
  Context configure router string interface string lag per-link-hash class number
  Tree class
  Range 1 to 3
  Default 1
  Introduced 16.0.R1
 

Platforms

All
weight number
  Synopsis Weight used on LAG egress using weighted per-link-hash
  Context configure router string interface string lag per-link-hash weight number
  Tree weight
  Range 1 to 1024
  Default 1
  Introduced 16.0.R1
 

Platforms

All
ldp-sync-timer
  Synopsis Enter the ldp-sync-timer context
  Context configure router string interface string ldp-sync-timer
  Tree ldp-sync-timer
 

Description

This command enables the synchronization of an IGP and LDP and enters the context to set associated parameters.
  Introduced 16.0.R1
 

Platforms

All
end-of-lib boolean
  Synopsis Terminate LDP synchronization timer
  Context configure router string interface string ldp-sync-timer end-of-lib boolean
  Tree end-of-lib
 

Description

This command configures the system to terminate the LDP synchronization timer early for a specific session to an LDP peer, if the IGP interface receives LDP End-of-LIB Typed Wildcard FEC messages for every FEC type negotiated.
  Default false
  Introduced 16.0.R1
 

Platforms

All
seconds number
  Synopsis Time interval for the LDP synchronization timer
  Context configure router string interface string ldp-sync-timer seconds number
  Tree seconds
  Range 1 to 1800
  Introduced 16.0.R1
 

Platforms

All
load-balancing
  Synopsis Enter the load-balancing context
  Context configure router string interface string load-balancing
  Tree load-balancing
 

Description

Commands in this context configure interface per-flow load-balancing options that apply to traffic that enters this interface and that egresses over a LAG or ECMP. This is a per-interface setting. Load-balancing options enabled on the interface level overwrite options that can also be enabled on the system level.
  Introduced 16.0.R1
 

Platforms

All
flow-label-load-balancing boolean
  Synopsis Enable flow label load balancing
  Context configure router string interface string load-balancing flow-label-load-balancing boolean
  Tree flow-label-load-balancing
 

Description

When configured to true, the router enables load balancing in ECMP and LAG based on the output of a hash performed on the triplet (SA, DA, flow label) in the header of an IPv6 packet received on an IES, VPRN, R-VPLS, CSC, or network interface.

When configured to false, the router disables load balancing in ECMP and LAG.
  Default false
  Introduced 21.5.R1
 

Platforms

All
ip-load-balancing keyword
  Synopsis IP load-balancing algorithm
  Context configure router string interface string load-balancing ip-load-balancing keyword
  Tree ip-load-balancing
 

Description

This command specifies whether to include the source address, destination address, or both in LAG or ECMP hash on IP interfaces. Additionally, when the l4-load-balancing command is enabled, this command also includes the source or destination port in the hash inputs.
  Default both
  Options both, destination, source, inner-ip
  Introduced 16.0.R3
 

Platforms

All
lsr-load-balancing keyword
  Synopsis LSR load-balancing algorithm
  Context configure router string interface string load-balancing lsr-load-balancing keyword
  Tree lsr-load-balancing
 

Description

This command specifies whether the IP header is used in the LAG and ECMP LSR hashing algorithm. This is the per-interface setting.
  Options lbl-only, lbl-ip, ip-only, eth-encap-ip, lbl-ip-l4-teid
  Introduced 16.0.R1
 

Platforms

All
spi-load-balancing boolean
  Synopsis Enable SPI use in hashing
  Context configure router string interface string load-balancing spi-load-balancing boolean
  Tree spi-load-balancing
 

Description

When configured to true, the router uses the Security Parameter Index (SPI) in hashing for ESP and AH encrypted IPv4 and IPv6 traffic. This is a per-interface setting.
  Default false
  Introduced 16.0.R1
 

Platforms

All
teid-load-balancing boolean
  Synopsis Enable use of TEID in hashing
  Context configure router string interface string load-balancing teid-load-balancing boolean
  Tree teid-load-balancing
  Default false
  Introduced 16.0.R1
 

Platforms

All
loopback
  Synopsis Use interface as a loopback interface
  Context configure router string interface string loopback
  Tree loopback
 

Description

When configured, this interface is used as a loopback interface.

This command and the vas-if-type command are mutually exclusive.
 

Notes

The following elements are part of a choice: loopback or port.
  Introduced 16.0.R1
 

Platforms

All
mac string
  Synopsis MAC address of the interface
  Context configure router string interface string mac string
  Tree mac
 

Description

This command assigns a specific MAC address to an IP interface. Only one MAC address can be assigned to an IP interface. When multiple mac commands are entered, the last command overwrites the previous command.
  Introduced 16.0.R1
 

Platforms

All
mac-accounting boolean
  Synopsis Enable MAC accounting functionality
  Context configure router string interface string mac-accounting boolean
  Tree mac-accounting
 

Description

When configured to true, the router enables MAC accounting functionality.
  Default false
  Introduced 16.0.R1
 

Platforms

All
network-domains
  Synopsis Enter the network-domains context
  Context configure router string interface string network-domains
  Tree network-domains
  Introduced 16.0.R4
 

Platforms

All
network-domain [domain-name] reference
  Synopsis Add a list entry for network-domain
  Context configure router string interface string network-domains network-domain reference
  Tree network-domain
 

Description

Commands in this context assign an interface to a network domain. The router then takes the network domain into account during SAP ingress queue allocation for VPLS SAP.

The network domain association can only be done in the base routing context. An operator can associate a network domain with an interface without a physical port being specified, but the configuration has no effect until a corresponding port, or LAG, is defined.

Single interfaces can be associated with multiple network domains.
  Max. Instances 5
  Introduced 16.0.R4
 

Platforms

All
[domain-name] reference
  Synopsis Network domain name
  Context configure router string interface string network-domains network-domain reference
 

Reference

configure router string network-domains network-domain string

 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
port (port-and-encap | keyword)
  Synopsis Port to bind to this interface
  Context configure router string interface string port (port-and-encap | keyword)
  Tree port
 

Description

This command creates an association between a logical IP interface and a physical port. An operator can also associate an interface with the system (loopback address).
  String Length 1 to 45
  Options system
 

Notes

The following elements are part of a choice: loopback or port.
  Introduced 16.0.R1
 

Platforms

All
ptp-hw-assist
  Synopsis Enter the ptp-hw-assist context
  Context configure router string interface string ptp-hw-assist
  Tree ptp-hw-assist
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
admin-state keyword
  Synopsis Administrative state of the PTP time stamping assist
  Context configure router string interface string ptp-hw-assist admin-state keyword
  Tree admin-state
 

Description

This command controls the administrative state of port-based time stamping assist of PTP packets at the physical interface.This capability is supported on specific hardware. The command may be blocked if not all hardware has the required level of support.

Only one interface per physical port can have ptp-hw-assist enabled. This feature cannot be enabled if the physical port supporting the interface is configured as a PTP port.
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
qos
  Synopsis Enter the qos context
  Context configure router string interface string qos
  Tree qos
 

Description

Commands in this context associate a network QoS policy with a network IP interface. Only one network QoS policy can be associated with an IP interface at one time. Attempts to associate a second QoS policy return an error.
  Introduced 16.0.R1
 

Platforms

All
egress-instance number
  Synopsis Port egress queue group instance for this interface
  Context configure router string interface string qos egress-instance number
  Tree egress-instance
 

Description

This command specifies which instance to associate with this specific network IP interface since multiple instances of the same egress queue-group can be applied to the same port.
  Range 1 to 65535
  Introduced 16.0.R1
 

Platforms

All
egress-port-redirect-group reference
  Synopsis QoS queue group name
  Context configure router string interface string qos egress-port-redirect-group reference
  Tree egress-port-redirect-group
 

Description

This command configures the egress queue group used for all egress forwarding-class redirections specified within the network QoS policy ID. The specified queue group name must exist as an egress queue group applied to the egress context of the port associated with the IP interface.
 

Reference

configure qos queue-group-templates egress queue-group string

  Introduced 16.0.R1
 

Platforms

All
ingress-fp-redirect-group reference
  Synopsis Forwarding plane queue group policy for the interface
  Context configure router string interface string qos ingress-fp-redirect-group reference
  Tree ingress-fp-redirect-group
 

Description

This command configures the ingress queue-group used for all ingress forwarding-class redirections specified within the network QoS policy ID. The specified queue group name must exist as an ingress queue group applied to the ingress context of the forwarding plane associated with the IP interface.
 

Reference

configure qos queue-group-templates ingress queue-group string

  Introduced 16.0.R1
 

Platforms

All
ingress-instance number
  Synopsis Forwarding plane ingress queue group for this interface
  Context configure router string interface string qos ingress-instance number
  Tree ingress-instance
 

Description

This command configures which instance to associate with this specific network IP interface. An operator can apply multiple instances of the same ingress queue group to the same forwarding plane.
  Range 1 to 65535
  Introduced 16.0.R1
 

Platforms

All
network-policy reference
  Synopsis Network policy name associated with a network interface
  Context configure router string interface string qos network-policy reference
  Tree network-policy
 

Description

This command associates an existing network policy name with the IP interface.
 

Reference

configure qos network string

  Introduced 16.0.R1
 

Platforms

All
strip-label boolean
  Synopsis Strip all MPLS labels before PBR processing
  Context configure router string interface string strip-label boolean
  Tree strip-label
 

Description

When configured to true, the router forces packets to be stripped of all (maximum 5) MPLS labels before the packets are handed over for possible filter (PBR) processing.

See "IP interface strip-label" in the 7450 ESS, 7750 SR, 7950 XRS, and VSR Router Configuration Guide for more information about IP interface strip-label behavior.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
tos-marking-state keyword
  Synopsis TOS marking state
  Context configure router string interface string tos-marking-state keyword
  Tree tos-marking-state
 

Description

This command configures the ToS marking state.

This command is used to alter the default trusted state to a non-trusted state. When configured to trusted or default, the ToS field is not remarked by egress network IP interfaces unless the egress network IP interface has the remark-trusted state set, in which case the egress network interface treats all VPRN and network IP interfaces as untrusted.

When configured to untrusted, all egress network IP interfaces remark IP packets received on the network interface according to the egress marking defintions on each network interface.
  Default trusted
  Options trusted, untrusted
  Introduced 16.0.R1
 

Platforms

All
untrusted
  Synopsis Enable the untrusted context
  Context configure router string interface string untrusted
  Tree untrusted
 

Description

Commands in this context configure the untrusted state for a network IP interface.

The untrusted state identifies the participating interfaces in the label security feature for prefixes of a VPN family at an inter-AS boundary. The router supports a maximum of 15 network interfaces that can participate in this feature.

The user normally applies this command to an inter-AS interface. PIP keeps track of the untrusted status of each interface. 
  Introduced 16.0.R4
 

Platforms

All
default-forwarding keyword
  Synopsis Default action for selective ILM
  Context configure router string interface string untrusted default-forwarding keyword
  Tree default-forwarding
 

Description

This command specifies the default forwarding behavior of labeled packets received on this interface.

This command sets the default behavior for an untrusted interface in the datapath and for all ILMs. When enabling the label security for VPN IPv4 or VPN IPv6 prefixes, BGP programs the data path to provide an exception to the normal way of forwarding away from the default for those VPRN ILMs.

When the default behavior is to forward packets, the router checks labeled packets in the normal way against the table of programmed ILMs to decide if packets are dropped or forwarded in a GRT, a VRF, or a L2 service context.

When the specified behavior is to drop packets, all labeled packets received on the interface are automatically dropped.
  Default forward
  Options forward, drop
  Introduced 16.0.R4
 

Platforms

All
urpf-selected-vprns boolean
  Synopsis Enable uRPF checking of incoming traffic on interface
  Context configure router string interface string urpf-selected-vprns boolean
  Tree urpf-selected-vprns
 

Description

When configured to true, the router performs uRPF checks of incoming traffic on the network interface for the following:

  • Packets associated with the global routing table (base router) context

  • Packets associated with VPRNs that have enabled the uRPF check using the configure service vprn network ingress urpf-check command

When configured to false, the router performs uRPF checks for all ingress traffic on the network interface (associated with the base router and all VPRNs) based on the IPv4 and IPv6 urpf-check command configuration options of the network interface.
  Default false
  Introduced 16.0.R1
 

Platforms

All
vas-if-type keyword
  Synopsis VAS interface type
  Context configure router string interface string vas-if-type keyword
  Tree vas-if-type
 

Description

This command configures the type of a Value Added Service (VAS) facing interface. This command and loopback command
  Options to-from-access, to-from-network, to-from-both
  Introduced 16.0.R1
 

Platforms

All

ipsec

  Synopsis Enter the ipsec context
  Context configure router string ipsec
  Tree ipsec
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
multi-chassis-shunt-interface [name] string
  Synopsis Enter the multi-chassis-shunt-interface list instance
  Context configure router string ipsec multi-chassis-shunt-interface string
  Tree multi-chassis-shunt-interface
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[name] string
  Synopsis Multi-chassis shunt interface name
  Context configure router string ipsec multi-chassis-shunt-interface string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
next-hop
  Synopsis Enter the next-hop context
  Context configure router string ipsec multi-chassis-shunt-interface string next-hop
  Tree next-hop
 

Description

Commands in this context configure the next hop for shunting over the interface.
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
address (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Next hop address
  Context configure router string ipsec multi-chassis-shunt-interface string next-hop address (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree address
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
multi-chassis-shunting-profile [name] string
  Synopsis Enter the multi-chassis-shunting-profile list instance
  Context configure router string ipsec multi-chassis-shunting-profile string
  Tree multi-chassis-shunting-profile
  Max. Instances 64
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[name] string
  Synopsis Multi-chassis shunting profile name
  Context configure router string ipsec multi-chassis-shunting-profile string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
peer [ip-address] reference
  Synopsis Enter the peer list instance
  Context configure router string ipsec multi-chassis-shunting-profile string peer reference
  Tree peer
  Max. Instances 3
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[ip-address] reference
  Synopsis Peer address
  Context configure router string ipsec multi-chassis-shunting-profile string peer reference
 

Reference

configure redundancy multi-chassis peer (ipv4-address-no-zone | ipv6-address-no-zone)

 

Notes

This element is part of a list key.
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
multi-chassis-shunt-interface reference
  Synopsis Multi-chassis shunt interface
  Context configure router string ipsec multi-chassis-shunting-profile string peer reference multi-chassis-shunt-interface reference
  Tree multi-chassis-shunt-interface
 

Reference

configure router string ipsec multi-chassis-shunt-interface string

  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
security-policy [id] number
  Synopsis Enter the security-policy list instance
  Context configure router string ipsec security-policy number
  Tree security-policy
  Introduced 22.7.R1
 

Platforms

VSR
[id] number
  Synopsis IPsec security policy ID
  Context configure router string ipsec security-policy number
  Range 1 to 32768
 

Notes

This element is part of a list key.
  Introduced 22.7.R1
 

Platforms

VSR
entry [entry-id] number
  Synopsis Enter the entry list instance
  Context configure router string ipsec security-policy number entry number
  Tree entry
  Introduced 22.7.R1
 

Platforms

VSR
[entry-id] number
  Synopsis IPsec security policy entry ID
  Context configure router string ipsec security-policy number entry number
  Range 1 to 16
 

Notes

This element is part of a list key.
  Introduced 22.7.R1
 

Platforms

VSR
local-ip
  Synopsis Enter the local-ip context
  Context configure router string ipsec security-policy number entry number local-ip
  Tree local-ip
 

Description

Commands in this context configure the local (from the VPN) IPv4 prefix/mask for the policy entry.

The system evaluates the local IP as the source IP when traffic is examined in the direction of the flows from private to public and as the destination IP when traffic flows from public to private.
  Introduced 22.7.R1
 

Platforms

VSR
address string
  Synopsis Destination IPv4 address of the aggregate route
  Context configure router string ipsec security-policy number entry number local-ip address string
  Tree address
 

Notes

The following elements are part of a choice: address or any.
  Introduced 22.7.R1
 

Platforms

VSR
any boolean
  Synopsis Use any IP address
  Context configure router string ipsec security-policy number entry number local-ip any boolean
  Tree any
  Default false
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: address or any.
  Introduced 22.7.R1
 

Platforms

VSR
local-ipv6
  Synopsis Enter the local-ipv6 context
  Context configure router string ipsec security-policy number entry number local-ipv6
  Tree local-ipv6
 

Description

Commands in this context configure the local (from the VPN) IPv6 prefix/mask for the policy entry.

The system evaluates the local IP as the source IP when traffic is examined in the direction of the flows from private to public and as the destination IP when traffic flows from public to private.
  Introduced 22.7.R1
 

Platforms

VSR
address string
  Synopsis Destination IPv6 address of the aggregate route
  Context configure router string ipsec security-policy number entry number local-ipv6 address string
  Tree address
 

Notes

The following elements are part of a choice: address or any.
  Introduced 22.7.R1
 

Platforms

VSR
any boolean
  Synopsis Use any IP address
  Context configure router string ipsec security-policy number entry number local-ipv6 any boolean
  Tree any
  Default false
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: address or any.
  Introduced 22.7.R1
 

Platforms

VSR
remote-ip
  Synopsis Enter the remote-ip context
  Context configure router string ipsec security-policy number entry number remote-ip
  Tree remote-ip
 

Description

Commands in this context configure the remote (from the tunnel) IP prefix/mask for the policy entry.

The system evaluates the remote IP as the source IP when traffic flows public to private and as the destination IP when traffic flows from private to public.
  Introduced 22.7.R1
 

Platforms

VSR
address string
  Synopsis Destination IPv4 address of the aggregate route
  Context configure router string ipsec security-policy number entry number remote-ip address string
  Tree address
 

Notes

The following elements are part of a choice: address or any.
  Introduced 22.7.R1
 

Platforms

VSR
any boolean
  Synopsis Use any IP address
  Context configure router string ipsec security-policy number entry number remote-ip any boolean
  Tree any
  Default false
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: address or any.
  Introduced 22.7.R1
 

Platforms

VSR
remote-ipv6
  Synopsis Enter the remote-ipv6 context
  Context configure router string ipsec security-policy number entry number remote-ipv6
  Tree remote-ipv6
 

Description

Commands in this context configure the remote (from the tunnel) IPv6 prefix/mask for the policy entry.

The system evaluates the remote IP as the source IP when traffic flows from public to private and as the destination IP when traffic flows from private to public.
  Introduced 22.7.R1
 

Platforms

VSR
address string
  Synopsis Destination IPv6 address of the aggregate route
  Context configure router string ipsec security-policy number entry number remote-ipv6 address string
  Tree address
 

Notes

The following elements are part of a choice: address or any.
  Introduced 22.7.R1
 

Platforms

VSR
any boolean
  Synopsis Use any IP address
  Context configure router string ipsec security-policy number entry number remote-ipv6 any boolean
  Tree any
  Default false
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: address or any.
  Introduced 22.7.R1
 

Platforms

VSR

ipv6

  Synopsis Enter the ipv6 context
  Context configure router string ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
neighbor-discovery
  Synopsis Enter the neighbor-discovery context
  Context configure router string ipv6 neighbor-discovery
  Tree neighbor-discovery
  Introduced 16.0.R1
 

Platforms

All
reachable-time number
  Synopsis Neighbor reachability detection timer
  Context configure router string ipv6 neighbor-discovery reachable-time number
  Tree reachable-time
  Range 30 to 3600
  Default 30
  Introduced 16.0.R1
 

Platforms

All
stale-time number
  Synopsis Neighbor discovery cache entry stale time
  Context configure router string ipv6 neighbor-discovery stale-time number
  Tree stale-time
  Range 60 to 65535
  Default 14400
  Introduced 16.0.R1
 

Platforms

All
router-advertisement
  Synopsis Enter the router-advertisement context
  Context configure router string ipv6 router-advertisement
  Tree router-advertisement
  Introduced 16.0.R1
 

Platforms

All
dns-options
  Synopsis Enable the dns-options context
  Context configure router string ipv6 router-advertisement dns-options
  Tree dns-options
  Introduced 16.0.R1
 

Platforms

All
rdnss-lifetime (keyword | number)
  Synopsis Maximum time over which the RDNSS address is valid
  Context configure router string ipv6 router-advertisement dns-options rdnss-lifetime (keyword | number)
  Tree rdnss-lifetime
 

Description

This command specifies the maximum time that the RDNSS address is used for name resolution by the client.
  Range 0 | 4 to 3600
  Default infinite
  Units seconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

All
server string
  Synopsis RAs that are forwarded to IPv6 DNS servers
  Context configure router string ipv6 router-advertisement dns-options server string
  Tree server
  Max. Instances 4
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
interface [ip-int-name] string
  Synopsis Enter the interface list instance
  Context configure router string ipv6 router-advertisement interface string
  Tree interface
  Introduced 16.0.R1
 

Platforms

All
[ip-int-name] string
  Synopsis Router interface name
  Context configure router string ipv6 router-advertisement interface string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of router advertisement
  Context configure router string ipv6 router-advertisement interface string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
current-hop-limit number
  Synopsis Hop limit advertised in RA messages
  Context configure router string ipv6 router-advertisement interface string current-hop-limit number
  Tree current-hop-limit
  Range 0 to 255
  Default 64
  Introduced 16.0.R1
 

Platforms

All
dns-options
  Synopsis Enable the dns-options context
  Context configure router string ipv6 router-advertisement interface string dns-options
  Tree dns-options
  Introduced 16.0.R1
 

Platforms

All
include-rdnss boolean
  Synopsis Include the RDNSS option in the RA
  Context configure router string ipv6 router-advertisement interface string dns-options include-rdnss boolean
  Tree include-rdnss
  Default true
  Introduced 16.0.R1
 

Platforms

All
rdnss-lifetime (number | keyword)
  Synopsis Maximum time over which the RDNSS address 25 is valid
  Context configure router string ipv6 router-advertisement interface string dns-options rdnss-lifetime (number | keyword)
  Tree rdnss-lifetime
  Range 0 | 4 to 3600
  Units seconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

All
server string
  Synopsis RAs that are forwarded to IPv6 DNS servers
  Context configure router string ipv6 router-advertisement interface string dns-options server string
  Tree server
  Max. Instances 4
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
managed-configuration boolean
  Synopsis Set the managed address configuration flag
  Context configure router string ipv6 router-advertisement interface string managed-configuration boolean
  Tree managed-configuration
  Default false
  Introduced 16.0.R1
 

Platforms

All
max-advertisement-interval number
  Synopsis Maximum time between sending advertisement messages
  Context configure router string ipv6 router-advertisement interface string max-advertisement-interval number
  Tree max-advertisement-interval
  Range 4 to 1800
  Default 600
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
min-advertisement-interval number
  Synopsis Minimum interval between router advertisement messages
  Context configure router string ipv6 router-advertisement interface string min-advertisement-interval number
  Tree min-advertisement-interval
  Range 3 to 1350
  Default 200
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
mtu number
  Synopsis MTU for sending packets to the router
  Context configure router string ipv6 router-advertisement interface string mtu number
  Tree mtu
  Range 1280 to 9800
  Introduced 16.0.R1
 

Platforms

All
other-stateful-configuration boolean
  Synopsis Set the other configuration flag
  Context configure router string ipv6 router-advertisement interface string other-stateful-configuration boolean
  Tree other-stateful-configuration
  Default false
  Introduced 16.0.R1
 

Platforms

All
prefix [ipv6-prefix] string
  Synopsis Enter the prefix list instance
  Context configure router string ipv6 router-advertisement interface string prefix string
  Tree prefix
  Max. Instances 254
  Introduced 16.0.R1
 

Platforms

All
[ipv6-prefix] string
  Synopsis IPv6 address prefix
  Context configure router string ipv6 router-advertisement interface string prefix string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
autonomous boolean
  Synopsis Set the autonomous flag value
  Context configure router string ipv6 router-advertisement interface string prefix string autonomous boolean
  Tree autonomous
  Default true
  Introduced 16.0.R1
 

Platforms

All
on-link boolean
  Synopsis Use prefix for on-link determination
  Context configure router string ipv6 router-advertisement interface string prefix string on-link boolean
  Tree on-link
  Default true
  Introduced 16.0.R1
 

Platforms

All
preferred-lifetime (keyword | number)
  Synopsis Remaining time that the prefix remains preferred
  Context configure router string ipv6 router-advertisement interface string prefix string preferred-lifetime (keyword | number)
  Tree preferred-lifetime
  Range 0 to 4294967294
  Default 604800
  Units seconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

All
valid-lifetime (keyword | number)
  Synopsis Remaining time in which the prefix is still valid
  Context configure router string ipv6 router-advertisement interface string prefix string valid-lifetime (keyword | number)
  Tree valid-lifetime
  Range 0 to 4294967294
  Default 2592000
  Units seconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

All
reachable-time number
  Synopsis Time the router is reachable by other hosts or nodes
  Context configure router string ipv6 router-advertisement interface string reachable-time number
  Tree reachable-time
  Range 0 to 3600000
  Default 0
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
retransmit-time number
  Synopsis Time to advertise neighbor advertisement messages
  Context configure router string ipv6 router-advertisement interface string retransmit-time number
  Tree retransmit-time
  Range 0 to 1800000
  Default 0
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
router-lifetime number
  Synopsis Lifetime value in neighbor advertisement messages
  Context configure router string ipv6 router-advertisement interface string router-lifetime number
  Tree router-lifetime
  Range 0 | 4 to 9000
  Default 1800
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
use-virtual-mac boolean
  Synopsis Use VRRP virtual MAC address for advertisement message
  Context configure router string ipv6 router-advertisement interface string use-virtual-mac boolean
  Tree use-virtual-mac
  Default false
  Introduced 16.0.R1
 

Platforms

All

ipv6-te-router-id

  Synopsis Enter the ipv6-te-router-id context
  Context configure router string ipv6-te-router-id
  Tree ipv6-te-router-id
  Introduced 19.10.R1
 

Platforms

All
interface reference
  Synopsis Network IP interface name to obtain IP address
  Context configure router string ipv6-te-router-id interface reference
  Tree interface
 

Description

This command specifies the interface name from which to obtain the IP address to use as the IPv6 TE Router ID. This router ID uniquely identifies the router to other routers as IPv6 TE capable in an IGP TE domain.

IS-IS advertises this information using the IPv6 TE Router ID TLV.
 

Reference

configure router string interface string

  Introduced 19.10.R1
 

Platforms

All

isa-service-chaining

  Synopsis Enable the isa-service-chaining context
  Context configure router string isa-service-chaining
  Tree isa-service-chaining
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-group [id] number
  Synopsis Add a list entry for nat-group
  Context configure router string isa-service-chaining nat-group number
  Tree nat-group
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[id] number
  Synopsis ISA NAT group/ISA WLAN GW group ID for the EVPN pools
  Context configure router string isa-service-chaining nat-group number
  Max. Range 0 to 4294967295
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
vxlan-vtep-range
  Synopsis Enable the vxlan-vtep-range context
  Context configure router string isa-service-chaining vxlan-vtep-range
  Tree vxlan-vtep-range
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
end (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis End address of the VXLAN VTEP range
  Context configure router string isa-service-chaining vxlan-vtep-range end (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree end
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
start (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Start address of the VXLAN VTEP range
  Context configure router string isa-service-chaining vxlan-vtep-range start (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree start
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR

isis [isis-instance] number

  Synopsis Enter the isis list instance
  Context configure router string isis number
  Tree isis
  Introduced 16.0.R1
 

Platforms

All
[isis-instance] number
  Synopsis Instance ID for the IS-IS instance
  Context configure router string isis number
  Range 0 to 127
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the IS-IS instance
  Context configure router string isis number admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
advertise-passive-only boolean
  Synopsis Advertise prefixes that belong to passive interfaces
  Context configure router string isis number advertise-passive-only boolean
  Tree advertise-passive-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
advertise-router-capability keyword
  Synopsis Router capabilities advertisement to neighbors
  Context configure router string isis number advertise-router-capability keyword
  Tree advertise-router-capability
  Options area, as
  Introduced 16.0.R1
 

Platforms

All
advertise-tunnel-link boolean
  Synopsis Allow use of forwarding adjacency
  Context configure router string isis number advertise-tunnel-link boolean
  Tree advertise-tunnel-link
  Default false
  Introduced 16.0.R1
 

Platforms

All
all-l1isis string
  Synopsis Destination MAC address for all L1 IS-IS routers
  Context configure router string isis number all-l1isis string
  Tree all-l1isis
  Default 01:80:C2:00:00:14
  Introduced 16.0.R1
 

Platforms

All
all-l2isis string
  Synopsis Destination MAC address for all L2 IS-IS routers
  Context configure router string isis number all-l2isis string
  Tree all-l2isis
  Default 01:80:C2:00:00:15
  Introduced 16.0.R1
 

Platforms

All
area-address string
  Synopsis Area address portion of the NSAP address
  Context configure router string isis number area-address string
  Tree area-address
  String Length 2 to 38
  Max. Instances 3
  Introduced 16.0.R1
 

Platforms

All
authentication-check boolean
  Synopsis Perform authentication check to reject mismatch PDUs
  Context configure router string isis number authentication-check boolean
  Tree authentication-check
  Default true
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis Authentication key to verify PDUs sent from neighbors
  Context configure router string isis number authentication-key string
  Tree authentication-key
  String Length 1 to 366
  Introduced 16.0.R1
 

Platforms

All
authentication-keychain reference
  Synopsis Keychain used to sign and authenticate
  Context configure router string isis number authentication-keychain reference
  Tree authentication-keychain
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
authentication-type keyword
  Synopsis Authentication type
  Context configure router string isis number authentication-type keyword
  Tree authentication-type
  Options password, message-digest
  Introduced 16.0.R1
 

Platforms

All
csnp-authentication boolean
  Synopsis Authenticate individual IS-IS packets of the CSNP type
  Context configure router string isis number csnp-authentication boolean
  Tree csnp-authentication
  Default true
  Introduced 16.0.R1
 

Platforms

All
database-export
  Synopsis Enable the database-export context
  Context configure router string isis number database-export
  Tree database-export
  Introduced 16.0.R1
 

Platforms

All
bgp-ls-identifier
  Synopsis Enable the bgp-ls-identifier context
  Context configure router string isis number database-export bgp-ls-identifier
  Tree bgp-ls-identifier
  Introduced 16.0.R1
 

Platforms

All
value number
  Synopsis BGP-LS identifier sent in the BGP-LS NLRI
  Context configure router string isis number database-export bgp-ls-identifier value number
  Tree value
  Max. Range 0 to 4294967295
  Default 0
  Introduced 16.0.R1
 

Platforms

All
igp-identifier number
  Synopsis Unique ID of the IGP instance in the BGP-LS NLRI
  Context configure router string isis number database-export igp-identifier number
  Tree igp-identifier
  Max. Range 0 to 18446744073709551615
  Introduced 16.0.R1
 

Platforms

All
default-route-tag number
  Synopsis Route tag for the default route
  Context configure router string isis number default-route-tag number
  Tree default-route-tag
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
entropy-label
  Synopsis Enter the entropy-label context
  Context configure router string isis number entropy-label
  Tree entropy-label
  Introduced 16.0.R1
 

Platforms

All
override-tunnel-elc boolean
  Synopsis Enable override of received ELC advertisements
  Context configure router string isis number entropy-label override-tunnel-elc boolean
  Tree override-tunnel-elc
  Default false
  Introduced 16.0.R1
 

Platforms

All
export-limit
  Synopsis Enable the export-limit context
  Context configure router string isis number export-limit
  Tree export-limit
  Introduced 16.0.R1
 

Platforms

All
log-percent number
  Synopsis Export limit before warning and SNMP notification sent
  Context configure router string isis number export-limit log-percent number
  Tree log-percent
  Range 1 to 100
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Maximum routes or prefixes exported from route table
  Context configure router string isis number export-limit number number
  Tree number
  Range 1 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
export-policy reference
  Synopsis Export policies that determine exported routes
  Context configure router string isis number export-policy reference
  Tree export-policy
 

Description

This command configures export routing policies for the routes exported from the routing table to IS-IS.

If the export policy is undefined, the system does not export non IS-IS routes from the routing table manager to IS-IS.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.

If the aggregate command is also configured in the configure router context, the aggregation is applied before the export policy is applied.

Routing policies are created in the configure router policy-options context.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
flexible-algorithms
  Synopsis Enter the flexible-algorithms context
  Context configure router string isis number flexible-algorithms
  Tree flexible-algorithms
 

Description

Commands in this context configure IS-IS parameters for flexible algorithm participation.
  Introduced 20.7.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of flexible algorithm support
  Context configure router string isis number flexible-algorithms admin-state keyword
  Tree admin-state
 

Description

This command specifies the administrative state of the support of flexible algorithm IGP LSDB extensions.
  Default disable
  Options enable, disable
  Introduced 20.7.R1
 

Platforms

All
flex-algo [flex-algo-id] number
  Synopsis Enter the flex-algo list instance
  Context configure router string isis number flexible-algorithms flex-algo number
  Tree flex-algo
 

Description

Commands in this context configure an IS-IS flexible algorithm.

When flexible algorithm is configured in an IS-IS instance, the IS-IS instance is configured for all levels (Level 1 and Level 2).
  Max. Instances 7
  Introduced 20.7.R1
 

Platforms

All
[flex-algo-id] number
  Synopsis Flexible algorithm ID
  Context configure router string isis number flexible-algorithms flex-algo number
  Range 128 to 255
 

Notes

This element is part of a list key.
  Introduced 20.7.R1
 

Platforms

All
advertise reference
  Synopsis Flexible Algorithm Definition to advertise
  Context configure router string isis number flexible-algorithms flex-algo number advertise reference
  Tree advertise
 

Description

This command enables the advertisement of a locally configured Flexible Algorithm Definition (FAD).

The winning FAD that a router uses must be consistent with the winning FAD on all other routers, which avoids routing loops and traffic blackholing. The winning FAD is selected using a tiebreaker algorithm that first selects the highest advertised FAD priority followed by the highest system ID.
 

Reference

configure routing-options flexible-algorithm-definitions flex-algo string

  Introduced 20.7.R1
 

Platforms

All
loopfree-alternate
  Synopsis Enable the loopfree-alternate context
  Context configure router string isis number flexible-algorithms flex-algo number loopfree-alternate
  Tree loopfree-alternate
  Introduced 20.7.R1
 

Platforms

All
micro-loop-avoidance
  Synopsis Enable the micro-loop-avoidance context
  Context configure router string isis number flexible-algorithms flex-algo number micro-loop-avoidance
  Tree micro-loop-avoidance
  Introduced 21.7.R1
 

Platforms

All
participate boolean
  Synopsis Allow participation in the Flexible Algorithm
  Context configure router string isis number flexible-algorithms flex-algo number participate boolean
  Tree participate
 

Description

When configured to true, the router advertises the capability to participate in a flexible algorithm within the IS-IS Router Capability TLV. A router only advertises participation when the winning FAD can be supported, which includes segment routing support.

When configured to false, flexible algorithm participation is not enabled.
  Default false
  Introduced 20.7.R1
 

Platforms

All
graceful-restart
  Synopsis Enable the graceful-restart context
  Context configure router string isis number graceful-restart
  Tree graceful-restart
  Introduced 16.0.R1
 

Platforms

All
helper-mode boolean
  Synopsis Graceful restart helper for IS-IS
  Context configure router string isis number graceful-restart helper-mode boolean
  Tree helper-mode
  Default true
  Introduced 16.0.R1
 

Platforms

All
hello-authentication boolean
  Synopsis Authenticate Hello type IS-IS protocol packets
  Context configure router string isis number hello-authentication boolean
  Tree hello-authentication
  Default true
  Introduced 16.0.R1
 

Platforms

All
hello-padding keyword
  Synopsis IS-IS Hello message padding
  Context configure router string isis number hello-padding keyword
  Tree hello-padding
  Options adaptive, loose, strict, none
  Introduced 16.0.R1
 

Platforms

All
ignore-attached-bit boolean
  Synopsis Ignore attached bit on received Layer 1 LSPs
  Context configure router string isis number ignore-attached-bit boolean
  Tree ignore-attached-bit
  Default false
  Introduced 16.0.R1
 

Platforms

All
ignore-lsp-errors boolean
  Synopsis Ignore LSP packets with errors
  Context configure router string isis number ignore-lsp-errors boolean
  Tree ignore-lsp-errors
  Default false
  Introduced 16.0.R1
 

Platforms

All
ignore-narrow-metric boolean
  Synopsis Ignore links with narrow metrics
  Context configure router string isis number ignore-narrow-metric boolean
  Tree ignore-narrow-metric
  Default false
  Introduced 16.0.R1
 

Platforms

All
igp-shortcut
  Synopsis Enter the igp-shortcut context
  Context configure router string isis number igp-shortcut
  Tree igp-shortcut
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of RSVP-TE or SR-TE shortcut
  Context configure router string isis number igp-shortcut admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
tunnel-next-hop
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the tunnel-next-hop context
  Context configure router string isis number igp-shortcut tunnel-next-hop
  Tree tunnel-next-hop
  Introduced 16.0.R1
 

Platforms

All
family [family-type] keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the family list instance
  Context configure router string isis number igp-shortcut tunnel-next-hop family keyword
  Tree family
  Introduced 16.0.R1
 

Platforms

All
[family-type] keyword
  Synopsis Address family type for tunnel next hop
  Context configure router string isis number igp-shortcut tunnel-next-hop family keyword
  Options ipv4, ipv6, srv4, srv6
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
resolution keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Resolution mode for IGP shortcut tunnels
  Context configure router string isis number igp-shortcut tunnel-next-hop family keyword resolution keyword
  Tree resolution
  Default none
  Options none, filter, any, match-family-ip
  Introduced 16.0.R1
 

Platforms

All
resolution-filter
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the resolution-filter context
  Context configure router string isis number igp-shortcut tunnel-next-hop family keyword resolution-filter
  Tree resolution-filter
  Introduced 16.0.R1
 

Platforms

All
rsvp boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Use RSVP tunneling for next-hop resolution
  Context configure router string isis number igp-shortcut tunnel-next-hop family keyword resolution-filter rsvp boolean
  Tree rsvp
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-te boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Use SR-TE tunneling for next-hop resolution
  Context configure router string isis number igp-shortcut tunnel-next-hop family keyword resolution-filter sr-te boolean
  Tree sr-te
  Default false
  Introduced 16.0.R1
 

Platforms

All
iid-tlv boolean
  Synopsis Use IID TLVs with IS-IS multi-instance
  Context configure router string isis number iid-tlv boolean
  Tree iid-tlv
  Default false
  Introduced 16.0.R1
 

Platforms

All
import-policy reference
  Synopsis Import policy names for routes from IGP to route table
  Context configure router string isis number import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
interface [interface-name] string
  Synopsis Enter the interface list instance
  Context configure router string isis number interface string
  Tree interface
  Introduced 16.0.R1
 

Platforms

All
[interface-name] string
  Synopsis Router interface name
  Context configure router string isis number interface string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
adjacency-set [id] reference
  Synopsis Add a list entry for adjacency-set
  Context configure router string isis number interface string adjacency-set reference
  Tree adjacency-set
  Introduced 16.0.R1
 

Platforms

All
[id] reference
  Synopsis Adjacency set ID
  Context configure router string isis number interface string adjacency-set reference
 

Reference

configure router string isis number segment-routing adjacency-set number

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the IS-IS interface
  Context configure router string isis number interface string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness
  Synopsis Enter the bfd-liveness context
  Context configure router string isis number interface string bfd-liveness
  Tree bfd-liveness
 

Description

Commands in this context enable the use of bidirectional forwarding (BFD) to control IPv4 and IPv6 adjacencies. Enabling BFD on an IPv4 or IPv6 protocol interface ties the protocol interface state to the BFD session state between the local and remote nodes. BFD must be enabled on the applicable IP interface.
  Introduced 16.0.R1
 

Platforms

All
ipv4
  Synopsis Enable the ipv4 context
  Context configure router string isis number interface string bfd-liveness ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
include-bfd-tlv boolean
  Synopsis Enable IS-IS BFD TLVs on the interface
  Context configure router string isis number interface string bfd-liveness ipv4 include-bfd-tlv boolean
  Tree include-bfd-tlv
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enable the ipv6 context
  Context configure router string isis number interface string bfd-liveness ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
include-bfd-tlv boolean
  Synopsis Enable IS-IS BFD TLVs on the interface
  Context configure router string isis number interface string bfd-liveness ipv6 include-bfd-tlv boolean
  Tree include-bfd-tlv
  Default false
  Introduced 16.0.R1
 

Platforms

All
csnp-interval number
  Synopsis Time interval between successive CSN PDUs sent
  Context configure router string isis number interface string csnp-interval number
  Tree csnp-interval
  Range 1 to 65535
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
default-instance boolean
  Synopsis Allow non-MI capable router to establish an adjacency
  Context configure router string isis number interface string default-instance boolean
  Tree default-instance
  Default false
  Introduced 16.0.R1
 

Platforms

All
flex-algo [flex-algo-id] number
  Synopsis Enter the flex-algo list instance
  Context configure router string isis number interface string flex-algo number
  Tree flex-algo
  Max. Instances 7
  Introduced 20.7.R1
 

Platforms

All
[flex-algo-id] number
  Synopsis Flexible algorithm ID
  Context configure router string isis number interface string flex-algo number
  Range 128 to 255
 

Notes

This element is part of a list key.
  Introduced 20.7.R1
 

Platforms

All
ipv4-node-sid
  Synopsis Enable the ipv4-node-sid context
  Context configure router string isis number interface string flex-algo number ipv4-node-sid
  Tree ipv4-node-sid
  Introduced 20.7.R1
 

Platforms

All
index number
  Synopsis Node SID index for this interface
  Context configure router string isis number interface string flex-algo number ipv4-node-sid index number
  Tree index
  Range 0 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 20.7.R1
 

Platforms

All
label number
  Synopsis Label value for the node SID
  Context configure router string isis number interface string flex-algo number ipv4-node-sid label number
  Tree label
  Range 1 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 20.7.R1
 

Platforms

All
ipv6-node-sid
  Synopsis Enable the ipv6-node-sid context
  Context configure router string isis number interface string flex-algo number ipv6-node-sid
  Tree ipv6-node-sid
  Introduced 20.7.R1
 

Platforms

All
index number
  Synopsis Node SID index for this interface
  Context configure router string isis number interface string flex-algo number ipv6-node-sid index number
  Tree index
  Range 0 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 20.7.R1
 

Platforms

All
label number
  Synopsis Label value for the node SID
  Context configure router string isis number interface string flex-algo number ipv6-node-sid label number
  Tree label
  Range 1 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 20.7.R1
 

Platforms

All
hello-authentication boolean
  Synopsis Authenticate Hello type IS-IS protocol packets
  Context configure router string isis number interface string hello-authentication boolean
  Tree hello-authentication
  Default true
  Introduced 16.0.R1
 

Platforms

All
hello-authentication-key string
  Synopsis Authentication key or hash string for Hello PDUs
  Context configure router string isis number interface string hello-authentication-key string
  Tree hello-authentication-key
  String Length 1 to 366
  Introduced 16.0.R1
 

Platforms

All
hello-authentication-keychain reference
  Synopsis Authentication keychain to use for the session
  Context configure router string isis number interface string hello-authentication-keychain reference
  Tree hello-authentication-keychain
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
hello-authentication-type keyword
  Synopsis Hello authentication type
  Context configure router string isis number interface string hello-authentication-type keyword
  Tree hello-authentication-type
  Options password, message-digest
  Introduced 16.0.R1
 

Platforms

All
hello-padding keyword
  Synopsis Padding on IS-IS Hello packets
  Context configure router string isis number interface string hello-padding keyword
  Tree hello-padding
  Options adaptive, loose, strict, none
  Introduced 16.0.R1
 

Platforms

All
interface-type keyword
  Synopsis Interface type to broadcast, point-to-point, or to be default
  Context configure router string isis number interface string interface-type keyword
  Tree interface-type
  Options point-to-point, broadcast
  Introduced 16.0.R1
 

Platforms

All
ipv4-adjacency-sid
  Synopsis Enable the ipv4-adjacency-sid context
  Context configure router string isis number interface string ipv4-adjacency-sid
  Tree ipv4-adjacency-sid
  Introduced 16.0.R1
 

Platforms

All
label number
  Synopsis Adjacency SID
  Context configure router string isis number interface string ipv4-adjacency-sid label number
  Tree label
  Range 1 to 1048575
  Introduced 16.0.R1
 

Platforms

All
ipv4-multicast boolean
  Synopsis Enable IPv4 multicast routing for the interface
  Context configure router string isis number interface string ipv4-multicast boolean
  Tree ipv4-multicast
  Default true
  Introduced 16.0.R1
 

Platforms

All
ipv4-node-sid
  Synopsis Enable the ipv4-node-sid context
  Context configure router string isis number interface string ipv4-node-sid
  Tree ipv4-node-sid
  Introduced 16.0.R1
 

Platforms

All
clear-n-flag boolean
  Synopsis Clear the node-sid flag (N-flag)
  Context configure router string isis number interface string ipv4-node-sid clear-n-flag boolean
  Tree clear-n-flag
  Default false
  Introduced 16.0.R1
 

Platforms

All
index number
  Synopsis Node SID index for this interface
  Context configure router string isis number interface string ipv4-node-sid index number
  Tree index
  Range 0 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 16.0.R1
 

Platforms

All
label number
  Synopsis Label value for the node SID
  Context configure router string isis number interface string ipv4-node-sid label number
  Tree label
  Range 1 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 16.0.R1
 

Platforms

All
ipv6-adjacency-sid
  Synopsis Enable the ipv6-adjacency-sid context
  Context configure router string isis number interface string ipv6-adjacency-sid
  Tree ipv6-adjacency-sid
  Introduced 16.0.R1
 

Platforms

All
label number
  Synopsis Adjacency SID
  Context configure router string isis number interface string ipv6-adjacency-sid label number
  Tree label
  Range 1 to 1048575
  Introduced 16.0.R1
 

Platforms

All
ipv6-multicast boolean
  Synopsis Enable IPv6 multicast routing for the interface
  Context configure router string isis number interface string ipv6-multicast boolean
  Tree ipv6-multicast
  Default true
  Introduced 16.0.R1
 

Platforms

All
ipv6-node-sid
  Synopsis Enable the ipv6-node-sid context
  Context configure router string isis number interface string ipv6-node-sid
  Tree ipv6-node-sid
  Introduced 16.0.R1
 

Platforms

All
clear-n-flag boolean
  Synopsis Clear the node-sid flag (N-flag)
  Context configure router string isis number interface string ipv6-node-sid clear-n-flag boolean
  Tree clear-n-flag
  Default false
  Introduced 16.0.R1
 

Platforms

All
index number
  Synopsis Node SID index for this interface
  Context configure router string isis number interface string ipv6-node-sid index number
  Tree index
  Range 0 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 16.0.R1
 

Platforms

All
label number
  Synopsis Label value for the node SID
  Context configure router string isis number interface string ipv6-node-sid label number
  Tree label
  Range 1 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 16.0.R1
 

Platforms

All
ipv6-unicast boolean
  Synopsis Enable IPv6 unicast routing for the interface
  Context configure router string isis number interface string ipv6-unicast boolean
  Tree ipv6-unicast
  Default true
  Introduced 16.0.R1
 

Platforms

All
level [level-number] keyword
  Synopsis Enter the level list instance
  Context configure router string isis number interface string level keyword
  Tree level
  Max. Instances 2
  Introduced 16.0.R1
 

Platforms

All
[level-number] keyword
  Synopsis ISIS protocol level number
  Context configure router string isis number interface string level keyword
  Options 1, 2
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
hello-authentication-key string
  Synopsis Authentication key for Hello PDUs
  Context configure router string isis number interface string level keyword hello-authentication-key string
  Tree hello-authentication-key
 

Description

This command configures the authentication key (password) for Hello PDUs. Both the Hello authentication key and the Hello authentication type on a segment must match.

If both IS-IS and Hello authentication are configured, Hello messages are validated using Hello authentication. If only IS-IS authentication is configured, it is used to authenticate all IS-IS (including Hello) protocol PDUs.
  String Length 1 to 366
  Introduced 16.0.R1
 

Platforms

All
hello-authentication-keychain reference
  Synopsis Authentication keychain to use for the session
  Context configure router string isis number interface string level keyword hello-authentication-keychain reference
  Tree hello-authentication-keychain
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
hello-authentication-type keyword
  Synopsis Hello authentication enabled on the context
  Context configure router string isis number interface string level keyword hello-authentication-type keyword
  Tree hello-authentication-type
 

Description

This command enables Hello authentication at the level context. Both the Hello authentication key and the Hello authentication type on a segment must match. The Hello authentication-key statement must also be included.
  Options password, message-digest
  Introduced 16.0.R1
 

Platforms

All
hello-interval number
  Synopsis Interval between Hello messages sent on this level
  Context configure router string isis number interface string level keyword hello-interval number
  Tree hello-interval
  Range 1 to 20000
  Default 9
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
hello-multiplier number
  Synopsis Hello messages missed from neighbor before router declares adjacency down
  Context configure router string isis number interface string level keyword hello-multiplier number
  Tree hello-multiplier
  Range 2 to 100
  Default 3
  Introduced 16.0.R1
 

Platforms

All
hello-padding keyword
  Synopsis Padding on IS-IS Hello packets
  Context configure router string isis number interface string level keyword hello-padding keyword
  Tree hello-padding
  Options adaptive, loose, strict, none
  Introduced 16.0.R1
 

Platforms

All
ipv4-multicast-metric number
  Synopsis IS-IS interface metric applied for IPv4 multicast
  Context configure router string isis number interface string level keyword ipv4-multicast-metric number
  Tree ipv4-multicast-metric
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
ipv6-multicast-metric number
  Synopsis IS-IS interface metric applied for IPv6 multicast
  Context configure router string isis number interface string level keyword ipv6-multicast-metric number
  Tree ipv6-multicast-metric
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
ipv6-unicast-metric number
  Synopsis IS-IS interface metric applied for IPv6 unicast
  Context configure router string isis number interface string level keyword ipv6-unicast-metric number
  Tree ipv6-unicast-metric
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
metric number
  Synopsis IS-IS interface metric applied for IPv4 unicast
  Context configure router string isis number interface string level keyword metric number
  Tree metric
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
passive boolean
  Synopsis Passive interface
  Context configure router string isis number interface string level keyword passive boolean
  Tree passive
  Default false
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis Router to become the designated router on a multi-access network
  Context configure router string isis number interface string level keyword priority number
  Tree priority
  Range 0 to 127
  Default 64
  Introduced 16.0.R1
 

Platforms

All
sd-offset number
  Synopsis Value of the signal degrade offset
  Context configure router string isis number interface string level keyword sd-offset number
  Tree sd-offset
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
sf-offset number
  Synopsis Value of the signal fail offset
  Context configure router string isis number interface string level keyword sf-offset number
  Tree sf-offset
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
level-capability keyword
  Synopsis IS-IS levels for this interface
  Context configure router string isis number interface string level-capability keyword
  Tree level-capability
  Default 1/2
  Options 1, 2, 1/2
  Introduced 16.0.R1
 

Platforms

All
load-balancing-weight number
  Synopsis Load balancing weight
  Context configure router string isis number interface string load-balancing-weight number
  Tree load-balancing-weight
  Max. Range 0 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
loopfree-alternate
  Synopsis Enter the loopfree-alternate context
  Context configure router string isis number interface string loopfree-alternate
  Tree loopfree-alternate
  Introduced 16.0.R3
 

Platforms

All
exclude boolean
  Synopsis Enable/disable Loopfree Alternative at interface level.
  Context configure router string isis number interface string loopfree-alternate exclude boolean
  Tree exclude
  Default false
  Introduced 16.0.R3
 

Platforms

All
policy-map
  Synopsis Enable the policy-map context
  Context configure router string isis number interface string loopfree-alternate policy-map
  Tree policy-map
  Introduced 16.0.R3
 

Platforms

All
route-nh-template reference
  Synopsis Route next hop policy template that is applied to interface
  Context configure router string isis number interface string loopfree-alternate policy-map route-nh-template reference
  Tree route-nh-template
 

Reference

configure routing-options route-next-hop-policy template string

 

Notes

This element is mandatory.
  Introduced 16.0.R3
 

Platforms

All
lsp-pacing-interval number
  Synopsis Interval for sending LSPs from interface
  Context configure router string isis number interface string lsp-pacing-interval number
  Tree lsp-pacing-interval
  Range 0 to 65535
  Default 100
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
mesh-group
  Synopsis Enable the mesh-group context
  Context configure router string isis number interface string mesh-group
  Tree mesh-group
  Introduced 16.0.R1
 

Platforms

All
blocked
  Synopsis Prevent the interface from flooding LSPs
  Context configure router string isis number interface string mesh-group blocked
  Tree blocked
 

Notes

The following elements are part of a choice: blocked or value.
  Introduced 16.0.R1
 

Platforms

All
value number
  Synopsis Mesh group for the interface
  Context configure router string isis number interface string mesh-group value number
  Tree value
  Range 1 to 2000000000
 

Notes

The following elements are part of a choice: blocked or value.
  Introduced 16.0.R1
 

Platforms

All
passive boolean
  Synopsis Passive interface
  Context configure router string isis number interface string passive boolean
  Tree passive
  Default false
  Introduced 16.0.R1
 

Platforms

All
retransmit-interval number
  Synopsis Minimum time between LSP PDU retransmissions on point-to-point interface
  Context configure router string isis number interface string retransmit-interval number
  Tree retransmit-interval
  Range 1 to 65535
  Default 5
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
sid-protection boolean
  Synopsis Allow adjacency SID protection by LFA and remote LFA
  Context configure router string isis number interface string sid-protection boolean
  Tree sid-protection
  Default true
  Introduced 16.0.R1
 

Platforms

All
tag number
  Synopsis Route tag for IP address of interface
  Context configure router string isis number interface string tag number
  Tree tag
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
ipv4-multicast-routing keyword
  Synopsis IS-IS topology for IPv4 multicast routing
  Context configure router string isis number ipv4-multicast-routing keyword
  Tree ipv4-multicast-routing
  Default native
  Options false, native, mt
  Introduced 16.0.R1
 

Platforms

All
ipv4-routing boolean
  Synopsis Support IPv4 routing for IS-IS instance
  Context configure router string isis number ipv4-routing boolean
  Tree ipv4-routing
  Default true
  Introduced 16.0.R1
 

Platforms

All
ipv6-multicast-routing keyword
  Synopsis Topology to populate the IPv6 multicast RTM
  Context configure router string isis number ipv6-multicast-routing keyword
  Tree ipv6-multicast-routing
  Options false, native, mt
  Introduced 16.0.R1
 

Platforms

All
ipv6-routing keyword
  Synopsis Routing topology for IPv6
  Context configure router string isis number ipv6-routing keyword
  Tree ipv6-routing
  Default false
  Options false, native, mt
  Introduced 16.0.R1
 

Platforms

All
ldp-over-rsvp boolean
  Synopsis Allow LDP over RSVP processing
  Context configure router string isis number ldp-over-rsvp boolean
  Tree ldp-over-rsvp
  Default false
  Introduced 16.0.R1
 

Platforms

All
ldp-sync boolean
  Synopsis Use IGP-LDP synchronization feature on all interfaces participating in IS-IS routing protocol
  Context configure router string isis number ldp-sync boolean
  Tree ldp-sync
  Default true
  Introduced 16.0.R1
 

Platforms

All
level [level-number] keyword
  Synopsis Enter the level list instance
  Context configure router string isis number level keyword
  Tree level
  Max. Instances 2
  Introduced 16.0.R1
 

Platforms

All
[level-number] keyword
  Synopsis ISIS protocol level number
  Context configure router string isis number level keyword
  Options 1, 2
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertise-router-capability boolean
  Synopsis Allow router advertisement capabilities
  Context configure router string isis number level keyword advertise-router-capability boolean
  Tree advertise-router-capability
  Default true
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis Authentication key to verify PDUs sent on the interface
  Context configure router string isis number level keyword authentication-key string
  Tree authentication-key
 

Description

This command sets the authentication key used to verify PDUs sent by neighboring routers on the interface.

Neighboring routers use passwords to authenticate PDUs sent from an interface. For authentication to work, both the authentication key and the authentication type on a segment must match. The authentication-type command must also be included.
  String Length 1 to 366
  Introduced 16.0.R1
 

Platforms

All
authentication-keychain reference
  Synopsis Keychain used to sign and authenticate
  Context configure router string isis number level keyword authentication-keychain reference
  Tree authentication-keychain
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
authentication-type keyword
  Synopsis Authentication type to be used
  Context configure router string isis number level keyword authentication-type keyword
  Tree authentication-type
  Options password, message-digest
  Introduced 16.0.R1
 

Platforms

All
bier
  Synopsis Enter the bier context
  Context configure router string isis number level keyword bier
  Tree bier
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BIER
  Context configure router string isis number level keyword bier admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
template reference
  Synopsis BIER template name
  Context configure router string isis number level keyword bier template reference
  Tree template
 

Reference

configure router string bier template string

  Introduced 16.0.R4
 

Platforms

All
csnp-authentication boolean
  Synopsis Enable authentication of CSNP IS-IS protocol packets
  Context configure router string isis number level keyword csnp-authentication boolean
  Tree csnp-authentication
  Default true
  Introduced 16.0.R1
 

Platforms

All
database-export-exclude boolean
  Synopsis Exclude IGP link-state information of a specific IS-IS level from being exported into extended TE-DB
  Context configure router string isis number level keyword database-export-exclude boolean
  Tree database-export-exclude
  Default false
  Introduced 16.0.R1
 

Platforms

All
default-ipv4-multicast-metric number
  Synopsis Default metric for IPv4 unicast
  Context configure router string isis number level keyword default-ipv4-multicast-metric number
  Tree default-ipv4-multicast-metric
  Range 1 to 16777215
  Default 10
  Introduced 16.0.R1
 

Platforms

All
default-ipv6-multicast-metric number
  Synopsis Default metric for IPv6 unicast
  Context configure router string isis number level keyword default-ipv6-multicast-metric number
  Tree default-ipv6-multicast-metric
  Range 1 to 16777215
  Default 10
  Introduced 16.0.R1
 

Platforms

All
default-ipv6-unicast-metric number
  Synopsis Default metric for IPv6 unicast
  Context configure router string isis number level keyword default-ipv6-unicast-metric number
  Tree default-ipv6-unicast-metric
  Range 1 to 16777215
  Default 10
  Introduced 16.0.R1
 

Platforms

All
default-metric number
  Synopsis Default metric
  Context configure router string isis number level keyword default-metric number
  Tree default-metric
  Range 1 to 16777215
  Default 10
  Introduced 16.0.R1
 

Platforms

All
external-preference number
  Synopsis External route preference for IS-IS level
  Context configure router string isis number level keyword external-preference number
  Tree external-preference
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
hello-authentication boolean
  Synopsis Authenticate Hello type IS-IS protocol packets
  Context configure router string isis number level keyword hello-authentication boolean
  Tree hello-authentication
  Default true
  Introduced 16.0.R1
 

Platforms

All
hello-padding keyword
  Synopsis Padding on IS-IS Hello packets
  Context configure router string isis number level keyword hello-padding keyword
  Tree hello-padding
  Options adaptive, loose, strict, none
  Introduced 16.0.R1
 

Platforms

All
loopfree-alternate-exclude boolean
  Synopsis Exclude interface participating in specific IS-IS level in SPF LFA computation
  Context configure router string isis number level keyword loopfree-alternate-exclude boolean
  Tree loopfree-alternate-exclude
  Default false
  Introduced 16.0.R1
 

Platforms

All
lsp-mtu-size number
WARNING:

Modifying this element requires the admin-state of the parent element to be toggled manually for the new value to take effect.
  Synopsis LSP MTU size
  Context configure router string isis number level keyword lsp-mtu-size number
  Tree lsp-mtu-size
  Range 490 to 9778
  Default 1492
  Units bytes
  Introduced 16.0.R1
 

Platforms

All
preference number
  Synopsis External route preference at level
  Context configure router string isis number level keyword preference number
  Tree preference
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
psnp-authentication boolean
  Synopsis Enable authentication on PSNP IS-IS protocol packets
  Context configure router string isis number level keyword psnp-authentication boolean
  Tree psnp-authentication
  Default true
  Introduced 16.0.R1
 

Platforms

All
wide-metrics-only boolean
  Synopsis Use wide metrics advertisements in the LSPs
  Context configure router string isis number level keyword wide-metrics-only boolean
  Tree wide-metrics-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
level-capability keyword
  Synopsis Routing level for instance
  Context configure router string isis number level-capability keyword
  Tree level-capability
  Default 1/2
  Options 1, 2, 1/2
  Introduced 16.0.R1
 

Platforms

All
link-group [link-group-name] string
  Synopsis Enter the link-group list instance
  Context configure router string isis number link-group string
  Tree link-group
  Introduced 16.0.R1
 

Platforms

All
[link-group-name] string
  Synopsis Link group name for the IS-IS protocol
  Context configure router string isis number link-group string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string isis number link-group string description string
  Tree description
  String Length 1 to 255
  Introduced 16.0.R1
 

Platforms

All
level [level-number] keyword
  Synopsis Enter the level list instance
  Context configure router string isis number link-group string level keyword
  Tree level
  Max. Instances 2
  Introduced 16.0.R1
 

Platforms

All
[level-number] keyword
  Synopsis ISIS protocol level number
  Context configure router string isis number link-group string level keyword
  Options 1, 2
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
ipv4-multicast-metric-offset number
  Synopsis Offset value for the IPv4 multicast address family
  Context configure router string isis number link-group string level keyword ipv4-multicast-metric-offset number
  Tree ipv4-multicast-metric-offset
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
ipv4-unicast-metric-offset number
  Synopsis Offset value for the IPv4 unicast address family
  Context configure router string isis number link-group string level keyword ipv4-unicast-metric-offset number
  Tree ipv4-unicast-metric-offset
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
ipv6-multicast-metric-offset number
  Synopsis Offset value for the IPv6 multicast address family
  Context configure router string isis number link-group string level keyword ipv6-multicast-metric-offset number
  Tree ipv6-multicast-metric-offset
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
ipv6-unicast-metric-offset number
  Synopsis Offset value for the IPv6 unicast address family
  Context configure router string isis number link-group string level keyword ipv6-unicast-metric-offset number
  Tree ipv6-unicast-metric-offset
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
member [interface-name] reference
  Synopsis Add a list entry for member
  Context configure router string isis number link-group string level keyword member reference
  Tree member
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

All
[interface-name] reference
  Synopsis Router interface name for this link group
  Context configure router string isis number link-group string level keyword member reference
 

Reference

configure router string isis number interface string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
oper-members number
  Synopsis Minimum number of operational links
  Context configure router string isis number link-group string level keyword oper-members number
  Tree oper-members
  Range 1 to 8
  Introduced 16.0.R1
 

Platforms

All
revert-members number
  Synopsis Minimum number of operational links to return link group to normal state and remove offsets
  Context configure router string isis number link-group string level keyword revert-members number
  Tree revert-members
  Range 1 to 8
  Introduced 16.0.R1
 

Platforms

All
loopfree-alternate
  Synopsis Enable the loopfree-alternate context
  Context configure router string isis number loopfree-alternate
  Tree loopfree-alternate
  Introduced 16.0.R1
 

Platforms

All
augment-route-table boolean
  Synopsis Attach remote LFA information to RTM entries
  Context configure router string isis number loopfree-alternate augment-route-table boolean
  Tree augment-route-table
 

Description

When configured to true, this command enables IS-IS to attach remote LFA-specific information to RTM entries for use by protocols such as LDP.

When configured to false, rLFA-specific information is not added to RTM entries.
  Default false
  Introduced 19.10.R1
 

Platforms

All
exclude
  Synopsis Enter the exclude context
  Context configure router string isis number loopfree-alternate exclude
  Tree exclude
  Introduced 16.0.R3
 

Platforms

All
prefix-policy reference
  Synopsis Policy to exclude prefixes from LFA SPF calculation
  Context configure router string isis number loopfree-alternate exclude prefix-policy reference
  Tree prefix-policy
 

Description

This command specifies the name of the policy for the prefixes to exclude from the LFA SPF calculation.

An excluded prefix is not included in LFA calculation regardless of its priority. The prefix tag is, however, used in the main SPF.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R3
 

Platforms

All
multi-homed-prefix
  Synopsis Enable the multi-homed-prefix context
  Context configure router string isis number loopfree-alternate multi-homed-prefix
  Tree multi-homed-prefix
 

Description

Commands in this context configure a multihomed prefix LFA for both RTM routes (IP FRR) and SR-ISIS node SID tunnels. SR-ISIS and SRv6-ISIS tunnels enable a multihomed prefix extension in both algorithm 0 and flexible-algorithm numbers.

This feature uses the multihomed prefix model described in RFC 8518 to compute a backup IP next hop using an alternate ABR or ASBR for external prefixes and to an alternate router owner for local anycast prefixes.

The computed IP next hop-based backup path is added to IS-IS routes of external /32 prefixes or /128 prefixes and intra-area /32 or /128 anycast prefixes in the RTM if the prefix is not protected by the base LFA or if the user set leaf preference value is configured to all. The user must enable the configure routing-options ip-fast-reroute command to have these backup paths programmed into the FIB in datapath.

The computed IP next hop-based backup path is also programmed for SR-ISIS node SID tunnels of external /32 or /128 prefixes, to /32 or /128 prefixes in the same area as the computing node S, which are advertised by multiple routers (anycast prefixes), and for SRv6-ISIS locator tunnels of intra-area and external prefixes of any size.
  Introduced 22.7.R1
 

Platforms

All
preference keyword
  Synopsis Multihomed prefix LFA backup path preference
  Context configure router string isis number loopfree-alternate multi-homed-prefix preference keyword
  Tree preference
  Default none
  Options none, all
  Introduced 22.7.R1
 

Platforms

All
remote-lfa
  Synopsis Enable the remote-lfa context
  Context configure router string isis number loopfree-alternate remote-lfa
  Tree remote-lfa
  Introduced 16.0.R1
 

Platforms

All
max-pq-cost number
  Synopsis Maximum cost of destination node during reverse SPF calculation
  Context configure router string isis number loopfree-alternate remote-lfa max-pq-cost number
  Tree max-pq-cost
  Max. Range 0 to 4294967295
  Default 4261412864
  Introduced 16.0.R1
 

Platforms

All
node-protect
  Synopsis Enable the node-protect context
  Context configure router string isis number loopfree-alternate remote-lfa node-protect
  Tree node-protect
  Introduced 16.0.R4
 

Platforms

All
max-pq-nodes number
  Synopsis Maximum number of PQ nodes found in the LFA SPFs
  Context configure router string isis number loopfree-alternate remote-lfa node-protect max-pq-nodes number
  Tree max-pq-nodes
  Range 1 to 32
  Default 16
  Introduced 16.0.R4
 

Platforms

All
ti-lfa
  Synopsis Enable the ti-lfa context
  Context configure router string isis number loopfree-alternate ti-lfa
  Tree ti-lfa
  Introduced 16.0.R1
 

Platforms

All
max-sr-frr-labels number
  Synopsis Maximum number of labels the TI-LFA backup path can use
  Context configure router string isis number loopfree-alternate ti-lfa max-sr-frr-labels number
  Tree max-sr-frr-labels
  Range 0 to 3
  Default 2
  Introduced 16.0.R1
 

Platforms

All
node-protect
  Synopsis Enable the node-protect context
  Context configure router string isis number loopfree-alternate ti-lfa node-protect
  Tree node-protect
  Introduced 16.0.R5
 

Platforms

All
lsp-lifetime number
WARNING:

Modifying this element requires the admin-state of the parent element to be toggled manually for the new value to take effect.
  Synopsis Amount of time during which an LSP is considered valid
  Context configure router string isis number lsp-lifetime number
  Tree lsp-lifetime
  Range 350 to 65535
  Default 1200
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
lsp-minimum-remaining-lifetime number
  Synopsis Minimum value for the Remaining Lifetime of an LSP
  Context configure router string isis number lsp-minimum-remaining-lifetime number
  Tree lsp-minimum-remaining-lifetime
  Range 350 to 65535
  Units seconds
  Introduced 19.7.R1
 

Platforms

All
lsp-mtu-size number
WARNING:

Modifying this element requires the admin-state of the parent element to be toggled manually for the new value to take effect.
  Synopsis LSP MTU size
  Context configure router string isis number lsp-mtu-size number
  Tree lsp-mtu-size
  Range 490 to 9778
  Default 1492
  Units bytes
  Introduced 16.0.R1
 

Platforms

All
lsp-refresh
  Synopsis Enter the lsp-refresh context
  Context configure router string isis number lsp-refresh
  Tree lsp-refresh
  Introduced 16.0.R1
 

Platforms

All
half-lifetime boolean
  Synopsis Set the refresh interval to always be half the LSP lifetime
  Context configure router string isis number lsp-refresh half-lifetime boolean
  Tree half-lifetime
  Default true
  Introduced 16.0.R1
 

Platforms

All
interval number
  Synopsis Refresh timer interval
  Context configure router string isis number lsp-refresh interval number
  Tree interval
  Range 150 to 65535
  Default 600
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
mru-mismatch-detection boolean
  Synopsis Enable detection of MRU mismatch
  Context configure router string isis number mru-mismatch-detection boolean
  Tree mru-mismatch-detection
 

Description

When configured to true, this command verifies that the received IS-IS Hello (IIH) packet size does not exceed the configured maximum port MTU size. The received IIH packet is dropped when its size exceeds the maximum port MTU size.

When configured to false, the IS-IS router instance will not drop oversized IIH packets.

By default, FP-based hardware can receive oversized packets but it will not originate them.
  Default false
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
multi-topology
  Synopsis Enable the multi-topology context
  Context configure router string isis number multi-topology
  Tree multi-topology
  Introduced 16.0.R1
 

Platforms

All
ipv4-multicast boolean
  Synopsis Support IPv4 topology (MT3)
  Context configure router string isis number multi-topology ipv4-multicast boolean
  Tree ipv4-multicast
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6-multicast boolean
  Synopsis Support IPv6 topology (MT4)
  Context configure router string isis number multi-topology ipv6-multicast boolean
  Tree ipv6-multicast
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6-unicast boolean
  Synopsis Support multi-topology TLVs
  Context configure router string isis number multi-topology ipv6-unicast boolean
  Tree ipv6-unicast
  Default false
  Introduced 16.0.R1
 

Platforms

All
multicast-import
  Synopsis Enter the multicast-import context
  Context configure router string isis number multicast-import
  Tree multicast-import
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Submit IPv4 routes into the multicast RPF of the RTM
  Context configure router string isis number multicast-import ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Submit IPv6 routes into the multicast RPF of the RTM
  Context configure router string isis number multicast-import ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload
  Synopsis Enable the overload context
  Context configure router string isis number overload
  Tree overload
  Introduced 16.0.R1
 

Platforms

All
max-metric boolean
  Synopsis Advertise transit links with maximum metric instead of setting overload bit
  Context configure router string isis number overload max-metric boolean
  Tree max-metric
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload-export-external boolean
  Synopsis Advertise the external routes when router is in overloaded
  Context configure router string isis number overload-export-external boolean
  Tree overload-export-external
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload-export-interlevel boolean
  Synopsis Advertise the inter-level routes when router is overloaded
  Context configure router string isis number overload-export-interlevel boolean
  Tree overload-export-interlevel
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload-on-boot
  Synopsis Enable the overload-on-boot context
  Context configure router string isis number overload-on-boot
  Tree overload-on-boot
  Introduced 16.0.R1
 

Platforms

All
max-metric boolean
  Synopsis Advertise transit links with maximum metric instead of setting overload bit
  Context configure router string isis number overload-on-boot max-metric boolean
  Tree max-metric
  Default false
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Time during which the router operates in overload state after reboot
  Context configure router string isis number overload-on-boot timeout number
  Tree timeout
  Range 60 to 1800
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
poi-tlv boolean
  Synopsis Purge Originator Identification TLV
  Context configure router string isis number poi-tlv boolean
  Tree poi-tlv
  Default false
  Introduced 16.0.R1
 

Platforms

All
prefix-attributes-tlv boolean
  Synopsis Use IS-IS Prefix Attributes TLV to exchange extended IPv4 and IPv6 reachability information
  Context configure router string isis number prefix-attributes-tlv boolean
  Tree prefix-attributes-tlv
  Default false
  Introduced 16.0.R1
 

Platforms

All
prefix-limit
  Synopsis Enable the prefix-limit context
  Context configure router string isis number prefix-limit
  Tree prefix-limit
  Introduced 16.0.R1
 

Platforms

All
limit number
  Synopsis Maximum number of prefixes for IS-IS instance
  Context configure router string isis number prefix-limit limit number
  Tree limit
  Range 1 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
log-only boolean
  Synopsis Send warning message when the prefix limit is reached
  Context configure router string isis number prefix-limit log-only boolean
  Tree log-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload-timeout (number | keyword)
  Synopsis Time router remains in overload after prefix limit is exceeded before restarting
  Context configure router string isis number prefix-limit overload-timeout (number | keyword)
  Tree overload-timeout
  Range 1 to 1800
  Default forever
  Units seconds
  Options forever
  Introduced 16.0.R1
 

Platforms

All
warning-threshold number
  Synopsis Threshold value to trigger a warning message to be sent
  Context configure router string isis number prefix-limit warning-threshold number
  Tree warning-threshold
  Range 0 to 100
  Default 0
  Units percent
  Introduced 16.0.R1
 

Platforms

All
psnp-authentication boolean
  Synopsis Authenticate individual IS-IS protocol packets of partial sequence number PDU (PSNP) type
  Context configure router string isis number psnp-authentication boolean
  Tree psnp-authentication
  Default true
  Introduced 16.0.R1
 

Platforms

All
reference-bandwidth number
  Synopsis Reference bandwidth for bandwidth relative costing
  Context configure router string isis number reference-bandwidth number
  Tree reference-bandwidth
  Range 1 to 18446744073709551615
  Units kilobps
  Introduced 16.0.R1
 

Platforms

All
rib-priority
  Synopsis Enter the rib-priority context
  Context configure router string isis number rib-priority
  Tree rib-priority
  Introduced 16.0.R1
 

Platforms

All
high
  Synopsis Enter the high context
  Context configure router string isis number rib-priority high
  Tree high
  Introduced 16.0.R1
 

Platforms

All
prefix-list reference
  Synopsis List used to select routes processed at higher priority through OSPF route calculation process
  Context configure router string isis number rib-priority high prefix-list reference
  Tree prefix-list
 

Reference

configure policy-options prefix-list string

 

Notes

The following elements are part of a choice: prefix-list or tag.
  Introduced 16.0.R1
 

Platforms

All
tag number
  Synopsis Tag value that is used to match IS-IS routes
  Context configure router string isis number rib-priority high tag number
  Tree tag
  Range 1 to 4294967295
 

Notes

The following elements are part of a choice: prefix-list or tag.
  Introduced 16.0.R1
 

Platforms

All
router-id string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Unique router ID for the ISIS instance
  Context configure router string isis number router-id string
  Tree router-id
  Introduced 16.0.R1
 

Platforms

All
segment-routing
  Synopsis Enter the segment-routing context
  Context configure router string isis number segment-routing
  Tree segment-routing
  Introduced 16.0.R1
 

Platforms

All
adj-sid-hold (number | keyword)
  Synopsis Adjacency SID hold time
  Context configure router string isis number segment-routing adj-sid-hold (number | keyword)
  Tree adj-sid-hold
  Range 1 to 300
  Default 15
  Units seconds
  Options none
  Introduced 16.0.R1
 

Platforms

All
adjacency-set [id] number
  Synopsis Enter the adjacency-set list instance
  Context configure router string isis number segment-routing adjacency-set number
  Tree adjacency-set
  Introduced 16.0.R1
 

Platforms

All
[id] number
  Synopsis Identifier for specified adjacency set
  Context configure router string isis number segment-routing adjacency-set number
  Range 1 to 4294967295
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertise boolean
  Synopsis Advertise the adjacency set when all links terminate on the same neighboring node
  Context configure router string isis number segment-routing adjacency-set number advertise boolean
  Tree advertise
  Default true
  Introduced 16.0.R1
 

Platforms

All
family keyword
  Synopsis Address family for the adjacency set
  Context configure router string isis number segment-routing adjacency-set number family keyword
  Tree family
  Default ipv4
  Options ipv4, ipv6
  Introduced 16.0.R1
 

Platforms

All
parallel boolean
  Synopsis Require all members of the adjacency set to terminate on the same neighboring node
  Context configure router string isis number segment-routing adjacency-set number parallel boolean
  Tree parallel
  Default true
  Introduced 16.0.R1
 

Platforms

All
sid
  Synopsis Enable the sid context
  Context configure router string isis number segment-routing adjacency-set number sid
  Tree sid
  Introduced 16.0.R1
 

Platforms

All
label number
  Synopsis Adjacency SID
  Context configure router string isis number segment-routing adjacency-set number sid label number
  Tree label
  Range 1 to 1048575
  Introduced 16.0.R1
 

Platforms

All
adjacency-sid
  Synopsis Enter the adjacency-sid context
  Context configure router string isis number segment-routing adjacency-sid
  Tree adjacency-sid
  Introduced 22.7.R1
 

Platforms

All
allocate-dual-sids boolean
  Synopsis Allocate dual adjacency SIDs per interface
  Context configure router string isis number segment-routing adjacency-sid allocate-dual-sids boolean
  Tree allocate-dual-sids
 

Description

When configured to true, the router supports two SR-MPLS adjacency SIDs per interface. A protected and unprotected adjacency SID is instantiated and advertised. If an SR-MPLS adjacency SID already exists, an additional complementary (protected or unprotected) adjacency SID is created on the interface.

When configured to false, the router disables the support of two SR-MPLS adjacency SIDs per interface.

  Default false
  Introduced 22.7.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of segment routing
  Context configure router string isis number segment-routing admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
class-forwarding boolean
  Synopsis Allow CBF with ECMP over RSVP-TE LSPs as IGP shortcuts
  Context configure router string isis number segment-routing class-forwarding boolean
  Tree class-forwarding
 

Description

When configured to true, this command enables Class-Based Forwarding (CBF) with ECMP for SR-ISIS resolved to RSVP-TE LSPs as IGP shortcuts.

For CBF with ECMP to be effective, a class forwarding policy must be defined, as well as FC to set associations and RSVP-TE LSPs to set associations.

When configured to false, CBF over IGP shortcuts is disabled.

  Default false
  Introduced 20.2.R1
 

Platforms

All
egress-statistics
  Synopsis Enter the egress-statistics context
  Context configure router string isis number segment-routing egress-statistics
  Tree egress-statistics
  Introduced 19.10.R1
 

Platforms

All
adj-set boolean
  Synopsis Enable the allocation of statistics on adjacency sets
  Context configure router string isis number segment-routing egress-statistics adj-set boolean
  Tree adj-set
 

Description

When configured to true, this command enables the allocation of statistic indices to each adjacency set. All adjacencies of a set share the same statistics index. If a statistics index is not available at allocation time, the allocation fails and the system retries the allocation. The system generates a log on the first fail and a log on the final successful allocation.
  Default false
  Introduced 19.10.R1
 

Platforms

All
adj-sid boolean
  Synopsis Enable the allocation of statistics on adjacency SIDs
  Context configure router string isis number segment-routing egress-statistics adj-sid boolean
  Tree adj-sid
 

Description

When configured to true, this command enables the allocation of statistic indexes to each programmed NHLFE corresponding to Adjacency SIDs (local and received by means of IGP advertisement). All NHLFEs associated to a given SID share the same index. If a statistics index is not available at allocation time, the allocation fails and the system retries the allocation. The system generates a log on the first fail and a log on the final successful allocation.
  Default false
  Introduced 19.10.R1
 

Platforms

All
node-sid boolean
  Synopsis Enable the allocation of statistics on node SIDs
  Context configure router string isis number segment-routing egress-statistics node-sid boolean
  Tree node-sid
  Default false
  Introduced 19.10.R1
 

Platforms

All
entropy-label boolean
  Synopsis Enable processing of received ELC signaled in the IGP
  Context configure router string isis number segment-routing entropy-label boolean
  Tree entropy-label
  Introduced 16.0.R1
 

Platforms

All
export-tunnel-table keyword
  Synopsis Tunnel table export policies to export tunneled routes
  Context configure router string isis number segment-routing export-tunnel-table keyword
  Tree export-tunnel-table
  Options ldp
  Introduced 16.0.R1
 

Platforms

All
ingress-statistics
  Synopsis Enter the ingress-statistics context
  Context configure router string isis number segment-routing ingress-statistics
  Tree ingress-statistics
  Introduced 19.10.R1
 

Platforms

All
adj-set boolean
  Synopsis Enable the allocation of statistics on adjacency sets
  Context configure router string isis number segment-routing ingress-statistics adj-set boolean
  Tree adj-set
 

Description

When configured to true, this command enables the allocation of statistic indices to each adjacency set. All adjacencies of a set share the same statistics index. If a statistics index is not available at allocation time, the allocation fails and the system retries the allocation. The system generates a log on the first fail and a log on the final successful allocation.
  Default false
  Introduced 19.10.R1
 

Platforms

All
adj-sid boolean
  Synopsis Enable the allocation of statistics on adjacency SIDs
  Context configure router string isis number segment-routing ingress-statistics adj-sid boolean
  Tree adj-sid
 

Description

When configured to true, this command enables the allocation of statistic indexes to each programmed NHLFE corresponding to Adjacency SIDs (local and received by means of IGP advertisement). All NHLFEs associated to a given SID share the same index. If a statistics index is not available at allocation time, the allocation fails and the system retries the allocation. The system generates a log on the first fail and a log on the final successful allocation.
  Default false
  Introduced 19.10.R1
 

Platforms

All
node-sid boolean
  Synopsis Enable the allocation of statistics on node SIDs
  Context configure router string isis number segment-routing ingress-statistics node-sid boolean
  Tree node-sid
  Default false
  Introduced 19.10.R1
 

Platforms

All
mapping-server
  Synopsis Enter the mapping-server context
  Context configure router string isis number segment-routing mapping-server
  Tree mapping-server
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the IS-IS mapping server
  Context configure router string isis number segment-routing mapping-server admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
node-sid-map [sid-index] number
  Synopsis Enter the node-sid-map list instance
  Context configure router string isis number segment-routing mapping-server node-sid-map number
  Tree node-sid-map
  Introduced 16.0.R1
 

Platforms

All
[sid-index] number
  Synopsis SID index of a mapping server Prefix-SID
  Context configure router string isis number segment-routing mapping-server node-sid-map number
  Max. Range 0 to 4294967295
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
clear-n-flag boolean
  Synopsis Clear the node-sid flag (N-flag)
  Context configure router string isis number segment-routing mapping-server node-sid-map number clear-n-flag boolean
  Tree clear-n-flag
  Default false
  Introduced 16.0.R1
 

Platforms

All
ip-prefix string
  Synopsis Prefix of a mapping server Prefix-SID
  Context configure router string isis number segment-routing mapping-server node-sid-map number ip-prefix string
  Tree ip-prefix
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
level-capability keyword
  Synopsis Flags to assign in SID Label Binding TLV advertised by Segment Routing Mapping Server
  Context configure router string isis number segment-routing mapping-server node-sid-map number level-capability keyword
  Tree level-capability
  Default 1/2
  Options 1, 2, 1/2
  Introduced 16.0.R1
 

Platforms

All
range number
  Synopsis Range of addresses and their associated prefix SIDs
  Context configure router string isis number segment-routing mapping-server node-sid-map number range number
  Tree range
  Range 0 to 65535
  Default 1
  Introduced 16.0.R1
 

Platforms

All
set-flags
  Synopsis Enter the set-flags context
  Context configure router string isis number segment-routing mapping-server node-sid-map number set-flags
  Tree set-flags
  Introduced 16.0.R1
 

Platforms

All
bit-s boolean
  Synopsis SID Label Binding TLV to be flooded across the entire routing domain
  Context configure router string isis number segment-routing mapping-server node-sid-map number set-flags bit-s boolean
  Tree bit-s
  Default false
  Introduced 16.0.R1
 

Platforms

All
maximum-sid-depth
  Synopsis Enter the maximum-sid-depth context
  Context configure router string isis number segment-routing maximum-sid-depth
  Tree maximum-sid-depth
  Introduced 20.2.R1
 

Platforms

All
override-bmi number
  Synopsis Value to override the announced node MSD-BMI value
  Context configure router string isis number segment-routing maximum-sid-depth override-bmi number
  Tree override-bmi
 

Description

This command overrides the announced MSD node Base MPLS Imposition (BMI) value. The MSD-BMI value announced by a router can be used by recipients to understand the number of MPLS labels that can be imposed inclusive of all service, transport, or special labels.

When unconfigured, the router announces the maximum supported BMI of the node assuming the most simple services and Layer 2 encapsulation.
  Range 0 to 12
  Introduced 20.2.R1
 

Platforms

All
override-erld number
  Synopsis Value to override the announced node MSD-ERLD value
  Context configure router string isis number segment-routing maximum-sid-depth override-erld number
  Tree override-erld
 

Description

This command configures the override Entropy Readable Label Depth (ERLD) Maximum Sid Depth (MSD) value. Information about the capability of each intermediate LSR of reading the maximum label stack depth is used by ingress LSRs to perform EL-based load balancing.

When unconfigured, the router announces the node maximum supported ERLD assuming the most simple Layer 2 encapsulation.
  Range 0 to 15
  Introduced 20.2.R1
 

Platforms

All
micro-loop-avoidance
  Synopsis Enable the micro-loop-avoidance context
  Context configure router string isis number segment-routing micro-loop-avoidance
  Tree micro-loop-avoidance
  Introduced 19.10.R1
 

Platforms

All
fib-delay number
  Synopsis FIB delay before programming new primary next-hops
  Context configure router string isis number segment-routing micro-loop-avoidance fib-delay number
  Tree fib-delay
 

Description

This command specifies the delay time before programming the new next-hops for the SR tunnel.
  Range 1 to 300
  Default 15
  Units deciseconds
  Introduced 19.10.R1
 

Platforms

All
prefix-sid-range
  Synopsis Enable the prefix-sid-range context
  Context configure router string isis number segment-routing prefix-sid-range
  Tree prefix-sid-range
 

Description

Commands in this context configure the label block BGP segment routing can use.
  Introduced 16.0.R1
 

Platforms

All
global
  Synopsis BGP global SR range allocation
  Context configure router string isis number segment-routing prefix-sid-range global
  Tree global
 

Description

When configured, the system allows BGP to allocate labels from the SRGB space, as defined under the configure router mpls-labels sr-labels context.
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 16.0.R1
 

Platforms

All
max-index number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Upper bound value for the local SID index
  Context configure router string isis number segment-routing prefix-sid-range max-index number
  Tree max-index
  Range 0 to 524287
  Default 1
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 16.0.R1
 

Platforms

All
start-label number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Lower bound value for the local label offset
  Context configure router string isis number segment-routing prefix-sid-range start-label number
  Tree start-label
  Range 0 to 524287
  Default 0
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 16.0.R1
 

Platforms

All
srlb reference
  Synopsis Segment routing local block
  Context configure router string isis number segment-routing srlb reference
  Tree srlb
 

Reference

configure router string mpls-labels reserved-label-block string

  Introduced 16.0.R1
 

Platforms

All
tunnel-mtu number
  Synopsis Tunnel MTU size
  Context configure router string isis number segment-routing tunnel-mtu number
  Tree tunnel-mtu
  Range 512 to 9786
  Introduced 16.0.R1
 

Platforms

All
tunnel-table-pref number
  Synopsis Preference of SR tunnels created by the IGP instance
  Context configure router string isis number segment-routing tunnel-table-pref number
  Tree tunnel-table-pref
 

Description

This command configures the TTM preference of SR tunnels created by the IGP instance. This is used in the case of BGP shortcuts, VPRN auto-bind, or BGP transport tunnel when the new tunnel binding commands are configured to the any value which parses the TTM for tunnels in the protocol preference order. The user can choose to either go with the global TTM preference or list explicitly the tunnel types they want to use. When they list the tunnel types explicitly, the TTM preference will still be used to select one type over the other. In both cases, a fallback to the next preferred tunnel type is performed if the selected one fails. Also, a reversion to a more preferred tunnel type is performed as soon as one is available.

The segment routing module adds to TTM a SR tunnel entry for each resolved remote node SID prefix and programs the data path with the corresponding LTN with the push operation pointing to the primary and LFA backup NHLFEs.

The default preference for SR tunnels in the TTM is set lower than LDP tunnels but higher than BGP tunnels to allow controlled migration of customers without disrupting their current deployment when they enable segment routing. The following is the setting of the default preference of the various tunnel types. This includes the preference of SR tunnels based on shortest path (referred to as SR-ISIS and SR-OSPF).

The global default TTM preference for the tunnel types is as follows:

  • ROUTE_PREF_RSVP 7

  • ROUTE_PREF_SR_TE 8

  • ROUTE_PREF_LDP 9

  • ROUTE_PREF_OSPF_TTM 10

  • ROUTE_PREF_ISIS_TTM 11

  • ROUTE_PREF_BGP_TTM 12

  • ROUTE_PREF_GRE 255

The default value for SR-ISIS or SR-OSPF is the same regardless if one or more IS-IS or OSPF instances programmed a tunnel for the same prefix. The selection of a SR tunnel in this case will be based on lowest IGP instance-id.

It is recommended to not set two or more tunnel types to the same preference value. In such a situation, the tunnel table prefers the tunnel type which was first introduced in SR OS implementation historically.
  Range 1 to 255
  Default 11
  Introduced 16.0.R1
 

Platforms

All
segment-routing-v6
  Synopsis Enter the segment-routing-v6 context
  Context configure router string isis number segment-routing-v6
  Tree segment-routing-v6
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
adj-sid-hold (number | keyword)
  Synopsis Adjacency SID hold time
  Context configure router string isis number segment-routing-v6 adj-sid-hold (number | keyword)
  Tree adj-sid-hold
 

Description

This command specifies the length of time the system holds the SRv6 adjacency LFA, Remote LFA, or TI-LFA backup path while the adjacency is down. The recommendation is to set the timer to the time it takes for the network IGP processes to converge, which allows the PCE to compute a new path for SR-TE LSPs and SR policies impacted by the adjacency failure.

Each IS-IS instance runs a single timer per adjacency that IPv4 SR-MPLS, IPv6 SR-MPLS, and SRv6 adjacency SIDs share. When you enable both SR-MPLS (configure router isis segment-routing) and SRv6 (configure router isis segment-routing-v6) in the IS-IS instance, the system programs the higher of the two timer values for all SIDs on the adjacency.
  Range 1 to 300
  Default 15
  Units seconds
  Options none
  Introduced 21.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
admin-state keyword
  Synopsis Administrative state of segment routing SRv6
  Context configure router string isis number segment-routing-v6 admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
locator [locator-name] reference
  Synopsis Enter the locator list instance
  Context configure router string isis number segment-routing-v6 locator reference
  Tree locator
 

Description

This command adds a reference to a locator for each algorithm in this IS-IS instance.

The same algorithm locator can be shared with other IGP instances and BGP instances in IP-VPN or EVPN.
  Max. Instances 8
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[locator-name] reference
  Synopsis Locator name
  Context configure router string isis number segment-routing-v6 locator reference
 

Reference

configure router string segment-routing segment-routing-v6 locator string

 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
level [level-number] keyword
  Synopsis Enter the level list instance
  Context configure router string isis number segment-routing-v6 locator reference level keyword
  Tree level
  Max. Instances 2
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[level-number] keyword
  Synopsis ISIS protocol level number
  Context configure router string isis number segment-routing-v6 locator reference level keyword
  Options 1, 2
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
metric number
  Synopsis IS-IS metric to advertise in the locator level list
  Context configure router string isis number segment-routing-v6 locator reference level keyword metric number
  Tree metric
  Range 1 to 16777215
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
level-capability keyword
  Synopsis IS-IS routing level capability
  Context configure router string isis number segment-routing-v6 locator reference level-capability keyword
  Tree level-capability
 

Description

This command configures the routing level capability for an instance of the IS-IS routing process.

The level capability configured on the instance must match the level capability on the interface to form an adjacency.
  Default 1/2
  Options 1, 2, 1/2
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
multi-topology
  Synopsis Enter the multi-topology context
  Context configure router string isis number segment-routing-v6 locator reference multi-topology
  Tree multi-topology
 

Description

Commands in this context enable the use of a local SRv6 locator in an IS-IS IPv6 topology. A user can enable one or more locators in an IS-IS instance. Each locator can be enabled in a single topology of an IS-IS instance, topology 0 (MT0) or topology 2 (MT2). A local locator can be used in multiple IS-IS instances, but can only be assigned to at most one IPv6 topology independently within each IS-IS instance.

Use the configure router isis segment-routing-v6 admin-state command to enable the processing of local and remote IPv6 prefixes and SRv6 locators in MT0 and MT2. In addition, to enable SRv6 forwarding in the MT0, MT2, or both topologies, set the configure router isis ipv6-routing command to native, the configure router isis multi-topology ipv6-unicast command to true, or both.
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
mt0 boolean
  Synopsis Support standard topology (MT0)
  Context configure router string isis number segment-routing-v6 locator reference multi-topology mt0 boolean
  Tree mt0
  Default true
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
mt2 boolean
  Synopsis Support IPv6 routing topology (MT2)
  Context configure router string isis number segment-routing-v6 locator reference multi-topology mt2 boolean
  Tree mt2
  Default false
  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
tag number
  Synopsis Route tag to advertise in the locator
  Context configure router string isis number segment-routing-v6 locator reference tag number
  Tree tag
  Range 1 to 4294967295
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
standard-multi-instance boolean
  Synopsis Enable RFC standards compliant multi-instance behavior
  Context configure router string isis number standard-multi-instance boolean
  Tree standard-multi-instance
  Default false
  Introduced 16.0.R1
 

Platforms

All
strict-adjacency-check boolean
  Synopsis Enable strict checking of address families for IS-IS adjacencies
  Context configure router string isis number strict-adjacency-check boolean
  Tree strict-adjacency-check
  Default false
  Introduced 16.0.R1
 

Platforms

All
summary-address [ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the summary-address list instance
  Context configure router string isis number summary-address (ipv4-prefix | ipv6-prefix)
  Tree summary-address
  Introduced 16.0.R1
 

Platforms

All
[ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis IP prefix for the summary address
  Context configure router string isis number summary-address (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
algorithm number
  Synopsis Algorithm topology for the summary address
  Context configure router string isis number summary-address (ipv4-prefix | ipv6-prefix) algorithm number
  Tree algorithm
  Range 0 | 128 to 255
  Introduced 21.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
level-capability keyword
  Synopsis IS-IS level for the summary address
  Context configure router string isis number summary-address (ipv4-prefix | ipv6-prefix) level-capability keyword
  Tree level-capability
  Default 1/2
  Options 1, 2, 1/2
  Introduced 16.0.R1
 

Platforms

All
route-tag number
  Synopsis Route tag assigned to the summary address
  Context configure router string isis number summary-address (ipv4-prefix | ipv6-prefix) route-tag number
  Tree route-tag
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
suppress-attached-bit boolean
  Synopsis Allow IS-IS to suppress setting attached bit on LSPs
  Context configure router string isis number suppress-attached-bit boolean
  Tree suppress-attached-bit
  Default false
  Introduced 16.0.R1
 

Platforms

All
system-id string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element requires the admin-state of the parent element to be toggled manually for the new value to take effect.
  Synopsis System ID
  Context configure router string isis number system-id string
  Tree system-id
  String Length 14
  Default 0000.0000.0000
  Introduced 16.0.R1
 

Platforms

All
timers
  Synopsis Enter the timers context
  Context configure router string isis number timers
  Tree timers
  Introduced 16.0.R1
 

Platforms

All
lsp-wait
  Synopsis Enter the lsp-wait context
  Context configure router string isis number timers lsp-wait
  Tree lsp-wait
  Introduced 16.0.R1
 

Platforms

All
lsp-initial-wait number
  Synopsis Initial LSP generation delay
  Context configure router string isis number timers lsp-wait lsp-initial-wait number
  Tree lsp-initial-wait
  Range 10 to 100000
  Default 10
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
lsp-max-wait number
  Synopsis Maximum time between two consecutive LSP occurrences
  Context configure router string isis number timers lsp-wait lsp-max-wait number
  Tree lsp-max-wait
  Range 10 to 120000
  Default 5000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
lsp-second-wait number
  Synopsis Delay between first and second LSP generation
  Context configure router string isis number timers lsp-wait lsp-second-wait number
  Tree lsp-second-wait
  Range 10 to 100000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
spf-wait
  Synopsis Enter the spf-wait context
  Context configure router string isis number timers spf-wait
  Tree spf-wait
  Introduced 16.0.R1
 

Platforms

All
spf-initial-wait number
  Synopsis Initial SPF calculation delay after topology change
  Context configure router string isis number timers spf-wait spf-initial-wait number
  Tree spf-initial-wait
  Range 10 to 100000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
spf-max-wait number
  Synopsis Maximum interval amid two consecutive SPF calculations
  Context configure router string isis number timers spf-wait spf-max-wait number
  Tree spf-max-wait
  Range 10 to 120000
  Default 10000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
spf-second-wait number
  Synopsis Hold time between first and second SPF calculations
  Context configure router string isis number timers spf-wait spf-second-wait number
  Tree spf-second-wait
  Range 10 to 100000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
traffic-engineering boolean
  Synopsis Enable traffic engineering for the router
  Context configure router string isis number traffic-engineering boolean
  Tree traffic-engineering
  Default false
  Introduced 16.0.R1
 

Platforms

All
traffic-engineering-options
  Synopsis Enter the traffic-engineering-options context
  Context configure router string isis number traffic-engineering-options
  Tree traffic-engineering-options
  Introduced 19.10.R1
 

Platforms

All
application-link-attributes
  Synopsis Enable the application-link-attributes context
  Context configure router string isis number traffic-engineering-options application-link-attributes
  Tree application-link-attributes
  Introduced 19.10.R1
 

Platforms

All
legacy boolean
  Synopsis Advertise legacy TE attributes
  Context configure router string isis number traffic-engineering-options application-link-attributes legacy boolean
  Tree legacy
 

Description

When configured to true, the router supports the legacy mode of advertising TE attributes.

When configured to false, legacy mode is disabled.
  Default false
  Introduced 19.10.R1
 

Platforms

All
ipv6 boolean
  Synopsis Advertise IS-IS IPv6 Traffic Engineering
  Context configure router string isis number traffic-engineering-options ipv6 boolean
  Tree ipv6
  Default false
  Introduced 19.10.R1
 

Platforms

All
unicast-import
  Synopsis Enter the unicast-import context
  Context configure router string isis number unicast-import
  Tree unicast-import
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Submit IPv4 routes into unicast RTM
  Context configure router string isis number unicast-import ipv4 boolean
  Tree ipv4
  Default true
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Submit IPv6 routes into unicast RTM
  Context configure router string isis number unicast-import ipv6 boolean
  Tree ipv6
  Default true
  Introduced 16.0.R1
 

Platforms

All

l2tp

  Synopsis Enter the l2tp context
  Context configure router string l2tp
  Tree l2tp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of L2TP
  Context configure router string l2tp admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
avp-hiding keyword
  Synopsis Attribute of the Value Pair (AVP) hiding algorithm
  Context configure router string l2tp avp-hiding keyword
  Tree avp-hiding
  Options sensitive, always
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
challenge boolean
  Synopsis Use challenge-response authentication
  Context configure router string l2tp challenge boolean
  Tree challenge
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
destruct-timeout number
  Synopsis Destruction timeout
  Context configure router string l2tp destruct-timeout number
  Tree destruct-timeout
  Range 60 to 86400
  Default 60
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ethernet-tunnel
  Synopsis Enter the ethernet-tunnel context
  Context configure router string l2tp ethernet-tunnel
  Tree ethernet-tunnel
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
reconnect-timeout (number | keyword)
  Synopsis Timeout for a session setup retry
  Context configure router string l2tp ethernet-tunnel reconnect-timeout (number | keyword)
  Tree reconnect-timeout
  Range 10 to 3600
  Default infinite
  Units seconds
  Options infinite
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
exclude-avps
  Synopsis Enter the exclude-avps context
  Context configure router string l2tp exclude-avps
  Tree exclude-avps
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
calling-number boolean
  Synopsis Calling Number AVP to exclude
  Context configure router string l2tp exclude-avps calling-number boolean
  Tree calling-number
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
initial-rx-lcp-conf-req boolean
  Synopsis Exclude the Initial Received LCP CONFREQ AVP
  Context configure router string l2tp exclude-avps initial-rx-lcp-conf-req boolean
  Tree initial-rx-lcp-conf-req
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
failover
  Synopsis Enter the failover context
  Context configure router string l2tp failover
  Tree failover
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
recovery-max-session-lifetime number
  Synopsis Subset of sessions that this system attempts to synchronize in the Session State Synchronization phase
  Context configure router string l2tp failover recovery-max-session-lifetime number
  Tree recovery-max-session-lifetime
  Range 2 to 4294967295
  Default 2
  Units centiseconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
recovery-method keyword
  Synopsis Recovery method of the sequence numbers after failover
  Context configure router string l2tp failover recovery-method keyword
  Tree recovery-method
  Default mcs
  Options mcs, recovery-tunnel
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
recovery-time number
  Synopsis Time requested from the L2TP peer before assuming failover as failed
  Context configure router string l2tp failover recovery-time number
  Tree recovery-time
  Range 0 to 900
  Default 0
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
track-srrp [id] reference
  Synopsis Enter the track-srrp list instance
  Context configure router string l2tp failover track-srrp reference
  Tree track-srrp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[id] reference
  Synopsis SRRP instance ID for multi-chassis redundancy failover
  Context configure router string l2tp failover track-srrp reference
 

Reference

configure redundancy multi-chassis peer (ipv4-address-no-zone | ipv6-address-no-zone) sync track-srrp number

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer reference
  Synopsis Multi-chassis peer address
  Context configure router string l2tp failover track-srrp reference peer reference
  Tree peer
 

Reference

configure redundancy multi-chassis peer (ipv4-address-no-zone | ipv6-address-no-zone)

 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
sync-tag string
  Synopsis Synchronization tag on the multi-chassis peer
  Context configure router string l2tp failover track-srrp reference sync-tag string
  Tree sync-tag
  String Length 1 to 32
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
group [tunnel-group-name] string
  Synopsis Enter the group list instance
  Context configure router string l2tp group string
  Tree group
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[tunnel-group-name] string
  Synopsis Tunnel group name
  Context configure router string l2tp group string
  String Length 1 to 63
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the L2TP tunnel group
  Context configure router string l2tp group string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
avp-hiding keyword
  Synopsis The AVP hiding algorithm
  Context configure router string l2tp group string avp-hiding keyword
  Tree avp-hiding
  Options never, sensitive, always
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
challenge keyword
  Synopsis Enable use of challenge-response authentication
  Context configure router string l2tp group string challenge keyword
  Tree challenge
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string l2tp group string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
destruct-timeout number
  Synopsis Destruction timeout
  Context configure router string l2tp group string destruct-timeout number
  Tree destruct-timeout
  Range 60 to 86400
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ethernet-tunnel
  Synopsis Enter the ethernet-tunnel context
  Context configure router string l2tp group string ethernet-tunnel
  Tree ethernet-tunnel
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
reconnect-timeout (number | keyword)
  Synopsis Timeout for a session setup retry at group level
  Context configure router string l2tp group string ethernet-tunnel reconnect-timeout (number | keyword)
  Tree reconnect-timeout
  Range 10 to 3600
  Units seconds
  Options infinite
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
failover
  Synopsis Enter the failover context
  Context configure router string l2tp group string failover
  Tree failover
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
recovery-method keyword
  Synopsis Recovery method of the sequence numbers after failover
  Context configure router string l2tp group string failover recovery-method keyword
  Tree recovery-method
  Options mcs, recovery-tunnel
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
recovery-time number
  Synopsis Time requested from the L2TP peer before assuming failover as failed
  Context configure router string l2tp group string failover recovery-time number
  Tree recovery-time
  Range 0 to 900
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
hello-interval (number | keyword)
  Synopsis Hello interval
  Context configure router string l2tp group string hello-interval (number | keyword)
  Tree hello-interval
  Range 10 to 3600
  Units seconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
idle-timeout (number | keyword)
  Synopsis Idle timeout
  Context configure router string l2tp group string idle-timeout (number | keyword)
  Tree idle-timeout
  Range 0 to 3600
  Units seconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
l2tpv3
  Synopsis Enter the l2tpv3 context
  Context configure router string l2tp group string l2tpv3
  Tree l2tpv3
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cookie-length (number | keyword)
  Synopsis Cookie field length
  Context configure router string l2tp group string l2tpv3 cookie-length (number | keyword)
  Tree cookie-length
  Range 4 | 8
  Options disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
digest-type keyword
  Synopsis Hashing algorithm that calculates the message digest
  Context configure router string l2tp group string l2tpv3 digest-type keyword
  Tree digest-type
  Options none, md5, sha1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
nonce-length number
  Synopsis Length for the local L2TPv3 nonce (random number)
  Context configure router string l2tp group string l2tpv3 nonce-length number
  Tree nonce-length
  Range 0 | 16 to 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
password string
  Synopsis L2TPv3 password
  Context configure router string l2tp group string l2tpv3 password string
  Tree password
  String Length 1 to 115
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
private-tcp-mss-adjust (number | keyword)
  Synopsis TCP maximum segment size (MSS) on private network
  Context configure router string l2tp group string l2tpv3 private-tcp-mss-adjust (number | keyword)
  Tree private-tcp-mss-adjust
  Range 512 to 9000
  Units octets
  Options disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
public-tcp-mss-adjust (number | keyword)
  Synopsis TCP Maximum Segment Size (MSS) on public network
  Context configure router string l2tp group string l2tpv3 public-tcp-mss-adjust (number | keyword)
  Tree public-tcp-mss-adjust
  Range 512 to 9000
  Units octets
  Options disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pw-cap-list
  Synopsis Enter the pw-cap-list context
  Context configure router string l2tp group string l2tpv3 pw-cap-list
  Tree pw-cap-list
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ethernet boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Advertise Ethernet pseudowire type
  Context configure router string l2tp group string l2tpv3 pw-cap-list ethernet boolean
  Tree ethernet
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ethernet-vlan boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Advertise Ethernet VLAN pseudowire type
  Context configure router string l2tp group string l2tpv3 pw-cap-list ethernet-vlan boolean
  Tree ethernet-vlan
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
rem-router-id string
  Synopsis Filter on remote router ID
  Context configure router string l2tp group string l2tpv3 rem-router-id string
  Tree rem-router-id
  Default 0.0.0.0
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
track-password-change boolean
  Synopsis Enable tracking of password changes
  Context configure router string l2tp group string l2tpv3 track-password-change boolean
  Tree track-password-change
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
lac
  Synopsis Enter the lac context
  Context configure router string l2tp group string lac
  Tree lac
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
df-bit keyword
  Synopsis DF (do not fragment) bit in data traffic transmitted as LAC
  Context configure router string l2tp group string lac df-bit keyword
  Tree df-bit
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
lns
  Synopsis Enter the lns context
  Context configure router string l2tp group string lns
  Tree lns
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
lns-group reference
  Synopsis ISA LNS group
  Context configure router string l2tp group string lns lns-group reference
  Tree lns-group
 

Reference

configure isa lns-group number

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
load-balance-method keyword
  Synopsis New sessions for L2TP ISA MDA
  Context configure router string l2tp group string lns load-balance-method keyword
  Tree load-balance-method
  Default per-session
  Options per-session, per-tunnel
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
mlppp
  Synopsis Enter the mlppp context
  Context configure router string l2tp group string lns mlppp
  Tree mlppp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
admin-state keyword
  Synopsis Administrative state of MLPPP in the L2TP tunnel group
  Context configure router string l2tp group string lns mlppp admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
endpoint
  Synopsis Enter the endpoint context
  Context configure router string l2tp group string lns mlppp endpoint
  Tree endpoint
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
ip (ipv4-address | keyword)
  Synopsis Endpoint ID as an IP address
  Context configure router string l2tp group string lns mlppp endpoint ip (ipv4-address | keyword)
  Tree ip
  Options system
 

Notes

The following elements are part of a choice: ip or mac.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
mac (mac-address | keyword)
  Synopsis Endpoint ID as a MAC address
  Context configure router string l2tp group string lns mlppp endpoint mac (mac-address | keyword)
  Tree mac
  Options system
 

Notes

The following elements are part of a choice: ip or mac.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
interleave boolean
  Synopsis Enable link fragmentation and interleaving
  Context configure router string l2tp group string lns mlppp interleave boolean
  Tree interleave
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
max-fragment-delay (number | keyword)
  Synopsis Maximum fragment delay caused by transmission on a link
  Context configure router string l2tp group string lns mlppp max-fragment-delay (number | keyword)
  Tree max-fragment-delay
  Range 5 to 1000
  Default no-fragmentation
  Units milliseconds
  Options no-fragmentation
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
max-links number
  Synopsis Maximum MLPPP links
  Context configure router string l2tp group string lns mlppp max-links number
  Tree max-links
  Range 1 to 8
  Default 1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
reassembly-timeout number
  Synopsis Reassembly timeout
  Context configure router string l2tp group string lns mlppp reassembly-timeout number
  Tree reassembly-timeout
  Range 100 | 1000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
short-sequence-numbers boolean
  Synopsis Request a peer to send short sequence numbers
  Context configure router string l2tp group string lns mlppp short-sequence-numbers boolean
  Tree short-sequence-numbers
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
ppp
  Synopsis Enter the ppp context
  Context configure router string l2tp group string lns ppp
  Tree ppp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
authentication keyword
  Synopsis PPP authentication protocol to negotiate
  Context configure router string l2tp group string lns ppp authentication keyword
  Tree authentication
  Default pref-chap
  Options pap, chap, pref-chap, pref-pap
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
authentication-policy string
  Synopsis Authentication policy when a DHCP message is received
  Context configure router string l2tp group string lns ppp authentication-policy string
  Tree authentication-policy
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
chap-challenge-length
  Synopsis Enter the chap-challenge-length context
  Context configure router string l2tp group string lns ppp chap-challenge-length
  Tree chap-challenge-length
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
end number
  Synopsis Upper bound of the PPP CHAP challenge length
  Context configure router string l2tp group string lns ppp chap-challenge-length end number
  Tree end
  Range 8 to 64
  Default 64
  Units octets
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
start number
  Synopsis Lower bound of the PPP CHAP challenge length
  Context configure router string l2tp group string lns ppp chap-challenge-length start number
  Tree start
  Range 8 to 64
  Default 32
  Units octets
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
default-group-interface
  Synopsis Enter the default-group-interface context
  Context configure router string l2tp group string lns ppp default-group-interface
  Tree default-group-interface
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
interface string
  Synopsis Group interface
  Context configure router string l2tp group string lns ppp default-group-interface interface string
  Tree interface
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
service-name string
  Synopsis Administrative service name
  Context configure router string l2tp group string lns ppp default-group-interface service-name string
  Tree service-name
  String Length 1 to 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ipcp-subnet-negotiation boolean
  Synopsis Allow IPCP subnet negotiation for PPPoE hosts
  Context configure router string l2tp group string lns ppp ipcp-subnet-negotiation boolean
  Tree ipcp-subnet-negotiation
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
keepalive
  Synopsis Enter the keepalive context
  Context configure router string l2tp group string lns ppp keepalive
  Tree keepalive
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
interval number
  Synopsis PPP keepalive interval
  Context configure router string l2tp group string lns ppp keepalive interval number
  Tree interval
  Range 10 to 300
  Default 30
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
multiplier number
  Synopsis PPP keepalive multiplier
  Context configure router string l2tp group string lns ppp keepalive multiplier number
  Tree multiplier
  Range 1 to 5
  Default 3
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
lcp-force-ack-accm boolean
  Synopsis Force acknowledgement of the LCP Asynchronous Control Character Map (ACCM) option
  Context configure router string l2tp group string lns ppp lcp-force-ack-accm boolean
  Tree lcp-force-ack-accm
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
lcp-ignore-magic-numbers boolean
  Synopsis Check magic number in echo request and reply messages
  Context configure router string l2tp group string lns ppp lcp-ignore-magic-numbers boolean
  Tree lcp-ignore-magic-numbers
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
mtu number
  Synopsis Maximum PPP MTU size
  Context configure router string l2tp group string lns ppp mtu number
  Tree mtu
  Range 512 to 9212
  Default 1500
  Units octets
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
proxy-authentication boolean
  Synopsis Use authentication AVPs that are received from LAC
  Context configure router string l2tp group string lns ppp proxy-authentication boolean
  Tree proxy-authentication
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
proxy-lcp boolean
  Synopsis Proxy LCP AVPs that are received from LAC
  Context configure router string l2tp group string lns ppp proxy-lcp boolean
  Tree proxy-lcp
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
reject-disabled-ncp boolean
  Synopsis Force LCP Protocol Reject for IPv6CP Configure Request
  Context configure router string l2tp group string lns ppp reject-disabled-ncp boolean
  Tree reject-disabled-ncp
  Default false
  Introduced 16.0.R6
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
user-db string
  Synopsis Local user database for PPP PAP and CHAP authentication
  Context configure router string l2tp group string lns ppp user-db string
  Tree user-db
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
local-address string
  Synopsis Local address
  Context configure router string l2tp group string local-address string
  Tree local-address
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
local-name string
  Synopsis Local host name used to distinguish tunnels
  Context configure router string l2tp group string local-name string
  Tree local-name
  String Length 1 to 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
max-retries-estab number
  Synopsis Maximum retries for established tunnels
  Context configure router string l2tp group string max-retries-estab number
  Tree max-retries-estab
  Range 2 to 7
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
max-retries-not-estab number
  Synopsis Maximum retries for unestablished tunnels
  Context configure router string l2tp group string max-retries-not-estab number
  Tree max-retries-not-estab
  Range 2 to 7
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
password string
  Synopsis Password between L2TP LAC and LNS
  Context configure router string l2tp group string password string
  Tree password
  String Length 1 to 115
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
protocol keyword
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Protocol version
  Context configure router string l2tp group string protocol keyword
  Tree protocol
  Default v2
  Options v2, v3, v3draft
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
radius-accounting-policy reference
  Synopsis RADIUS accounting policy
  Context configure router string l2tp group string radius-accounting-policy reference
  Tree radius-accounting-policy
 

Reference

configure aaa radius l2tp-accounting-policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
receive-window-size number
  Synopsis L2TP receive window size
  Context configure router string l2tp group string receive-window-size number
  Tree receive-window-size
  Range 4 to 1024
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
session-assign-method keyword
  Synopsis Session assignment method
  Context configure router string l2tp group string session-assign-method keyword
  Tree session-assign-method
  Options existing-first, weighted, weighted-random
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
session-limit (number | keyword)
  Synopsis Session limit
  Context configure router string l2tp group string session-limit (number | keyword)
  Tree session-limit
  Range 1 to 250000
  Options unlimited
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
tunnel [tunnel-name] string
  Synopsis Enter the tunnel list instance
  Context configure router string l2tp group string tunnel string
  Tree tunnel
  Max. Instances 31
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[tunnel-name] string
  Synopsis Tunnel name
  Context configure router string l2tp group string tunnel string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the L2TP tunnel
  Context configure router string l2tp group string tunnel string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
auto-establish boolean
  Synopsis Allow the tunnel to be automatically set up by the system
  Context configure router string l2tp group string tunnel string auto-establish boolean
  Tree auto-establish
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
avp-hiding keyword
  Synopsis The AVP hiding algorithm
  Context configure router string l2tp group string tunnel string avp-hiding keyword
  Tree avp-hiding
  Options never, sensitive, always
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
challenge keyword
  Synopsis Enable use of challenge-response authentication
  Context configure router string l2tp group string tunnel string challenge keyword
  Tree challenge
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string l2tp group string tunnel string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
destruct-timeout number
  Synopsis Destruction timeout
  Context configure router string l2tp group string tunnel string destruct-timeout number
  Tree destruct-timeout
  Range 60 to 86400
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
failover
  Synopsis Enter the failover context
  Context configure router string l2tp group string tunnel string failover
  Tree failover
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
recovery-method keyword
  Synopsis Recovery method of the sequence numbers after failover
  Context configure router string l2tp group string tunnel string failover recovery-method keyword
  Tree recovery-method
  Options mcs, recovery-tunnel
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
recovery-time number
  Synopsis Time requested from the L2TP peer before assuming failover as failed
  Context configure router string l2tp group string tunnel string failover recovery-time number
  Tree recovery-time
  Range 0 to 900
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
hello-interval (number | keyword)
  Synopsis Hello interval
  Context configure router string l2tp group string tunnel string hello-interval (number | keyword)
  Tree hello-interval
  Range 10 to 3600
  Units seconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
idle-timeout (number | keyword)
  Synopsis Idle timeout
  Context configure router string l2tp group string tunnel string idle-timeout (number | keyword)
  Tree idle-timeout
  Range 0 to 3600
  Units seconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
l2tpv3
  Synopsis Enter the l2tpv3 context
  Context configure router string l2tp group string tunnel string l2tpv3
  Tree l2tpv3
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
private-tcp-mss-adjust (number | keyword)
  Synopsis TCP maximum segment size (MSS) on private network
  Context configure router string l2tp group string tunnel string l2tpv3 private-tcp-mss-adjust (number | keyword)
  Tree private-tcp-mss-adjust
  Range 512 to 9000
  Units octets
  Options disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
public-tcp-mss-adjust (number | keyword)
  Synopsis TCP maximum segment size (MSS) on public network
  Context configure router string l2tp group string tunnel string l2tpv3 public-tcp-mss-adjust (number | keyword)
  Tree public-tcp-mss-adjust
  Range 512 to 9000
  Units octets
  Options disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
lac
  Synopsis Enter the lac context
  Context configure router string l2tp group string tunnel string lac
  Tree lac
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
df-bit keyword
  Synopsis DF (do not fragment) bit in data traffic transmitted as LAC
  Context configure router string l2tp group string tunnel string lac df-bit keyword
  Tree df-bit
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
lns
  Synopsis Enter the lns context
  Context configure router string l2tp group string tunnel string lns
  Tree lns
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
lns-group reference
  Synopsis ISA LNS group
  Context configure router string l2tp group string tunnel string lns lns-group reference
  Tree lns-group
 

Reference

configure isa lns-group number

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
load-balance-method keyword
  Synopsis New sessions for L2TP ISA MDA
  Context configure router string l2tp group string tunnel string lns load-balance-method keyword
  Tree load-balance-method
  Options per-session, per-tunnel
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
mlppp
  Synopsis Enter the mlppp context
  Context configure router string l2tp group string tunnel string lns mlppp
  Tree mlppp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
admin-state keyword
  Synopsis Administrative state of MLPPP in the L2TP tunnel
  Context configure router string l2tp group string tunnel string lns mlppp admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
endpoint
  Synopsis Enter the endpoint context
  Context configure router string l2tp group string tunnel string lns mlppp endpoint
  Tree endpoint
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
ip (ipv4-address | keyword)
  Synopsis Endpoint ID as an IP address
  Context configure router string l2tp group string tunnel string lns mlppp endpoint ip (ipv4-address | keyword)
  Tree ip
  Options system
 

Notes

The following elements are part of a choice: ip or mac.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
mac (mac-address | keyword)
  Synopsis Endpoint ID as a MAC address
  Context configure router string l2tp group string tunnel string lns mlppp endpoint mac (mac-address | keyword)
  Tree mac
  Options system
 

Notes

The following elements are part of a choice: ip or mac.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
interleave keyword
  Synopsis Use of Link fragmentation and interleaving
  Context configure router string l2tp group string tunnel string lns mlppp interleave keyword
  Tree interleave
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
max-fragment-delay number
  Synopsis Maximum fragment delay caused by transmission on a link
  Context configure router string l2tp group string tunnel string lns mlppp max-fragment-delay number
  Tree max-fragment-delay
  Range 5 to 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
max-links number
  Synopsis Maximum MLPPP links
  Context configure router string l2tp group string tunnel string lns mlppp max-links number
  Tree max-links
  Range 1 to 8
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
reassembly-timeout number
  Synopsis Reassembly timeout
  Context configure router string l2tp group string tunnel string lns mlppp reassembly-timeout number
  Tree reassembly-timeout
  Range 100 | 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
short-sequence-numbers keyword
  Synopsis Request a peer to send short sequence numbers
  Context configure router string l2tp group string tunnel string lns mlppp short-sequence-numbers keyword
  Tree short-sequence-numbers
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
ppp
  Synopsis Enter the ppp context
  Context configure router string l2tp group string tunnel string lns ppp
  Tree ppp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
authentication keyword
  Synopsis PPP authentication protocol to negotiate
  Context configure router string l2tp group string tunnel string lns ppp authentication keyword
  Tree authentication
  Options pap, chap, pref-chap, pref-pap
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
authentication-policy string
  Synopsis Authentication policy when a DHCP message is received
  Context configure router string l2tp group string tunnel string lns ppp authentication-policy string
  Tree authentication-policy
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
chap-challenge-length
  Synopsis Enter the chap-challenge-length context
  Context configure router string l2tp group string tunnel string lns ppp chap-challenge-length
  Tree chap-challenge-length
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
end number
  Synopsis Upper bound of the PPP CHAP challenge length
  Context configure router string l2tp group string tunnel string lns ppp chap-challenge-length end number
  Tree end
  Range 8 to 64
  Units octets
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
start number
  Synopsis Lower bound of the PPP CHAP challenge length
  Context configure router string l2tp group string tunnel string lns ppp chap-challenge-length start number
  Tree start
  Range 8 to 64
  Units octets
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
default-group-interface
  Synopsis Enter the default-group-interface context
  Context configure router string l2tp group string tunnel string lns ppp default-group-interface
  Tree default-group-interface
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
interface string
  Synopsis Group interface
  Context configure router string l2tp group string tunnel string lns ppp default-group-interface interface string
  Tree interface
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
service-name string
  Synopsis Administrative service name
  Context configure router string l2tp group string tunnel string lns ppp default-group-interface service-name string
  Tree service-name
  String Length 1 to 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ipcp-subnet-negotiation keyword
  Synopsis Use of IPCP subnet negotiation for PPPoE hosts
  Context configure router string l2tp group string tunnel string lns ppp ipcp-subnet-negotiation keyword
  Tree ipcp-subnet-negotiation
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
keepalive
  Synopsis Enter the keepalive context
  Context configure router string l2tp group string tunnel string lns ppp keepalive
  Tree keepalive
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
interval number
  Synopsis PPP keepalive interval
  Context configure router string l2tp group string tunnel string lns ppp keepalive interval number
  Tree interval
  Range 10 to 300
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
multiplier number
  Synopsis PPP keepalive multiplier
  Context configure router string l2tp group string tunnel string lns ppp keepalive multiplier number
  Tree multiplier
  Range 1 to 5
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
lcp-force-ack-accm keyword
  Synopsis Forced acknowledgement of the LCP Asynchronous Control Character Map (ACCM) option
  Context configure router string l2tp group string tunnel string lns ppp lcp-force-ack-accm keyword
  Tree lcp-force-ack-accm
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
lcp-ignore-magic-numbers keyword
  Synopsis Magic-Number field in LCP Echo-Request and LCP Echo-Reply messages that are checked
  Context configure router string l2tp group string tunnel string lns ppp lcp-ignore-magic-numbers keyword
  Tree lcp-ignore-magic-numbers
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
mtu number
  Synopsis Maximum PPP MTU size
  Context configure router string l2tp group string tunnel string lns ppp mtu number
  Tree mtu
  Range 512 to 9212
  Units octets
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
proxy-authentication keyword
  Synopsis Authentication AVPs that are received from LAC
  Context configure router string l2tp group string tunnel string lns ppp proxy-authentication keyword
  Tree proxy-authentication
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
proxy-lcp keyword
  Synopsis Use the Proxy LCP AVPs that are received from the LAC
  Context configure router string l2tp group string tunnel string lns ppp proxy-lcp keyword
  Tree proxy-lcp
  Options false, true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
reject-disabled-ncp keyword
  Synopsis Force LCP Project Reject for IPv6CP Configure Request
  Context configure router string l2tp group string tunnel string lns ppp reject-disabled-ncp keyword
  Tree reject-disabled-ncp
  Options false, true
  Introduced 16.0.R6
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
user-db string
  Synopsis Local user database for PPP PAP and CHAP authentication
  Context configure router string l2tp group string tunnel string lns ppp user-db string
  Tree user-db
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
local-address string
  Synopsis Local address
  Context configure router string l2tp group string tunnel string local-address string
  Tree local-address
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
local-name string
  Synopsis Local host name used to distinguish tunnels
  Context configure router string l2tp group string tunnel string local-name string
  Tree local-name
  String Length 1 to 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
max-retries-estab number
  Synopsis Maximum retries for established tunnels
  Context configure router string l2tp group string tunnel string max-retries-estab number
  Tree max-retries-estab
  Range 2 to 7
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
max-retries-not-estab number
  Synopsis Maximum retries for unestablished tunnels
  Context configure router string l2tp group string tunnel string max-retries-not-estab number
  Tree max-retries-not-estab
  Range 2 to 7
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
password string
  Synopsis Password between L2TP LAC and LNS
  Context configure router string l2tp group string tunnel string password string
  Tree password
  String Length 1 to 115
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer string
  Synopsis Peer address
  Context configure router string l2tp group string tunnel string peer string
  Tree peer
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
preference number
  Synopsis Tunnel preference number with its group
  Context configure router string l2tp group string tunnel string preference number
  Tree preference
  Range 0 to 16777215
  Default 50
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
radius-accounting-policy reference
  Synopsis RADIUS accounting policy
  Context configure router string l2tp group string tunnel string radius-accounting-policy reference
  Tree radius-accounting-policy
 

Reference

configure aaa radius l2tp-accounting-policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
receive-window-size number
  Synopsis L2TP receive window size
  Context configure router string l2tp group string tunnel string receive-window-size number
  Tree receive-window-size
  Range 4 to 1024
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
remote-name string
  Synopsis Remote tunnel host name
  Context configure router string l2tp group string tunnel string remote-name string
  Tree remote-name
  String Length 1 to 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
session-limit (number | keyword)
  Synopsis L2TP session limit for each tunnel of this router
  Context configure router string l2tp group string tunnel string session-limit (number | keyword)
  Tree session-limit
  Range 1 to 65534
  Options unlimited
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
group-session-limit number
  Synopsis L2TP session limit for each group of this router
  Context configure router string l2tp group-session-limit number
  Tree group-session-limit
  Range 1 to 250000
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
hello-interval (number | keyword)
  Synopsis Hello interval
  Context configure router string l2tp hello-interval (number | keyword)
  Tree hello-interval
  Range 10 to 3600
  Default 300
  Units seconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
idle-timeout (number | keyword)
  Synopsis Idle timeout
  Context configure router string l2tp idle-timeout (number | keyword)
  Tree idle-timeout
  Range 0 to 3600
  Default infinite
  Units seconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ignore-avps
  Synopsis Enter the ignore-avps context
  Context configure router string l2tp ignore-avps
  Tree ignore-avps
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
sequencing-required boolean
  Synopsis Ignore Sequencing Required AVP
  Context configure router string l2tp ignore-avps sequencing-required boolean
  Tree sequencing-required
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
l2tpv3
  Synopsis Enter the l2tpv3 context
  Context configure router string l2tp l2tpv3
  Tree l2tpv3
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cookie-length number
  Synopsis Cookie field length
  Context configure router string l2tp l2tpv3 cookie-length number
  Tree cookie-length
  Range 4 | 8
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
digest-type keyword
  Synopsis Hashing algorithm that calculates the message digest
  Context configure router string l2tp l2tpv3 digest-type keyword
  Tree digest-type
  Options md5, sha1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
nonce-length number
  Synopsis Length of the local L2TPv3 nonce (random number)
  Context configure router string l2tp l2tpv3 nonce-length number
  Tree nonce-length
  Range 0 | 16 to 64
  Default 0
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
password string
  Synopsis L2TPv3 password
  Context configure router string l2tp l2tpv3 password string
  Tree password
  String Length 1 to 115
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
private-tcp-mss-adjust number
  Synopsis TCP maximum segment size (MSS) on private network
  Context configure router string l2tp l2tpv3 private-tcp-mss-adjust number
  Tree private-tcp-mss-adjust
  Range 512 to 9000
  Units octets
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
public-tcp-mss-adjust number
  Synopsis TCP maximum segment size (MSS) on public network
  Context configure router string l2tp l2tpv3 public-tcp-mss-adjust number
  Tree public-tcp-mss-adjust
  Range 512 to 9000
  Units octets
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
transport-type
  Synopsis Enter the transport-type context
  Context configure router string l2tp l2tpv3 transport-type
  Tree transport-type
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ip boolean
  Synopsis Use IP as the transport type for the L2TPv3 tunnel
  Context configure router string l2tp l2tpv3 transport-type ip boolean
  Tree ip
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
lac
  Synopsis Enter the lac context
  Context configure router string l2tp lac
  Tree lac
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
calling-number-format string
  Synopsis Calling Number AVP for L2TP control messages
  Context configure router string l2tp lac calling-number-format string
  Tree calling-number-format
  String Length 1 to 255
  Default %S %s
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cisco-nas-port
  Synopsis Enter the cisco-nas-port context
  Context configure router string l2tp lac cisco-nas-port
  Tree cisco-nas-port
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ethernet string
  Synopsis L2TP Cisco NAS port AVP with binary patterns for Ethernet
  Context configure router string l2tp lac cisco-nas-port ethernet string
  Tree ethernet
  String Length 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
df-bit boolean
  Synopsis Send all L2TP packets with DF bit set to 1
  Context configure router string l2tp lac df-bit boolean
  Tree df-bit
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
local-address string
  Synopsis Local address
  Context configure router string l2tp local-address string
  Tree local-address
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
local-name string
  Synopsis Local host name
  Context configure router string l2tp local-name string
  Tree local-name
  String Length 1 to 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
max-retries-estab number
  Synopsis Maximum retries for established tunnels
  Context configure router string l2tp max-retries-estab number
  Tree max-retries-estab
  Range 2 to 7
  Default 5
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
max-retries-not-estab number
  Synopsis Maximum retries for unestablished tunnels
  Context configure router string l2tp max-retries-not-estab number
  Tree max-retries-not-estab
  Range 2 to 7
  Default 5
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
next-attempt keyword
  Synopsis Tunnel that is selected when previous session setup failed
  Context configure router string l2tp next-attempt keyword
  Tree next-attempt
  Default next-preference-level
  Options same-preference-level, next-preference-level
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
password string
  Synopsis L2TP password
  Context configure router string l2tp password string
  Tree password
  String Length 1 to 115
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer-address-change-policy keyword
  Synopsis Reaction for L2TP response from a different address
  Context configure router string l2tp peer-address-change-policy keyword
  Tree peer-address-change-policy
  Default reject
  Options accept, ignore, reject
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
radius-accounting-policy reference
  Synopsis RADIUS accounting policy
  Context configure router string l2tp radius-accounting-policy reference
  Tree radius-accounting-policy
 

Reference

configure aaa radius l2tp-accounting-policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
receive-window-size number
  Synopsis L2TP receive window size
  Context configure router string l2tp receive-window-size number
  Tree receive-window-size
  Range 4 to 1024
  Default 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
replace-result-code
  Synopsis Enter the replace-result-code context
  Context configure router string l2tp replace-result-code
  Tree replace-result-code
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cdn-invalid-dst boolean
  Synopsis Replace result code with general error code
  Context configure router string l2tp replace-result-code cdn-invalid-dst boolean
  Tree cdn-invalid-dst
  Default false
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cdn-permanent-no-facilities boolean
  Synopsis Replace result code with general error
  Context configure router string l2tp replace-result-code cdn-permanent-no-facilities boolean
  Tree cdn-permanent-no-facilities
  Default false
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cdn-temporary-no-facilities boolean
  Synopsis Replace result code with general error
  Context configure router string l2tp replace-result-code cdn-temporary-no-facilities boolean
  Tree cdn-temporary-no-facilities
  Default false
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
rtm-debounce-time (number | keyword)
  Synopsis Debounce timer that declares L2TP action for route table management events
  Context configure router string l2tp rtm-debounce-time (number | keyword)
  Tree rtm-debounce-time
  Range 0 to 5000
  Default infinite
  Units milliseconds
  Options infinite
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
session-assign-method keyword
  Synopsis Session assignment method
  Context configure router string l2tp session-assign-method keyword
  Tree session-assign-method
  Default existing-first
  Options existing-first, weighted, weighted-random
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
session-limit number
  Synopsis L2TP session limit of this router
  Context configure router string l2tp session-limit number
  Tree session-limit
  Range 1 to 250000
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
tunnel-selection-blacklist
  Synopsis Enter the tunnel-selection-blacklist context
  Context configure router string l2tp tunnel-selection-blacklist
  Tree tunnel-selection-blacklist
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
add-tunnel-on
  Synopsis Enter the add-tunnel-on context
  Context configure router string l2tp tunnel-selection-blacklist add-tunnel-on
  Tree add-tunnel-on
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
address-change-timeout boolean
  Synopsis Enable a timed-out tunnel to be forced to the denylist
  Context configure router string l2tp tunnel-selection-blacklist add-tunnel-on address-change-timeout boolean
  Tree address-change-timeout
  Default false
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cdn-err-code boolean
  Synopsis Add to deny if CDN is received with code: General error
  Context configure router string l2tp tunnel-selection-blacklist add-tunnel-on cdn-err-code boolean
  Tree cdn-err-code
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cdn-invalid-dst boolean
  Synopsis Force tunnel to the denylist in case of Result Codes 6
  Context configure router string l2tp tunnel-selection-blacklist add-tunnel-on cdn-invalid-dst boolean
  Tree cdn-invalid-dst
  Default false
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cdn-permanent-no-facilities boolean
  Synopsis Force tunnel to the denylist in case of Result Codes 5
  Context configure router string l2tp tunnel-selection-blacklist add-tunnel-on cdn-permanent-no-facilities boolean
  Tree cdn-permanent-no-facilities
  Default false
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cdn-temporary-no-facilities boolean
  Synopsis Force tunnel to the denylist in case of Result Codes 4
  Context configure router string l2tp tunnel-selection-blacklist add-tunnel-on cdn-temporary-no-facilities boolean
  Tree cdn-temporary-no-facilities
  Default false
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
stop-ccn-err-code boolean
  Synopsis Add to denylist if received with general error code
  Context configure router string l2tp tunnel-selection-blacklist add-tunnel-on stop-ccn-err-code boolean
  Tree stop-ccn-err-code
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
stop-ccn-other boolean
  Synopsis Add to denylist if StopCCN received with general error
  Context configure router string l2tp tunnel-selection-blacklist add-tunnel-on stop-ccn-other boolean
  Tree stop-ccn-other
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
tx-cdn-not-established-in-time boolean
  Synopsis Add to denylist if CDN transmitted with result code
  Context configure router string l2tp tunnel-selection-blacklist add-tunnel-on tx-cdn-not-established-in-time boolean
  Tree tx-cdn-not-established-in-time
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
max-list-length (number | keyword)
  Synopsis Number of tunnels or peers in the denylist
  Context configure router string l2tp tunnel-selection-blacklist max-list-length (number | keyword)
  Tree max-list-length
  Range 1 to 65535
  Default infinite
  Options infinite
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
max-time number
  Synopsis Time that a tunnel or peer can remain in the denylist
  Context configure router string l2tp tunnel-selection-blacklist max-time number
  Tree max-time
  Range 1 to 60
  Default 5
  Units minutes
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
timeout-action keyword
  Synopsis Action when a tunnel or peer exceeds time in denylist
  Context configure router string l2tp tunnel-selection-blacklist timeout-action keyword
  Tree timeout-action
  Default remove-from-blacklist
  Options remove-from-blacklist, try-one-session
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
tunnel-session-limit number
  Synopsis L2TP session limit for each tunnel of this router
  Context configure router string l2tp tunnel-session-limit number
  Tree tunnel-session-limit
  Range 1 to 65534
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR

ldp

  Synopsis Enable the ldp context
  Context configure router string ldp
  Tree ldp
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of LDP
  Context configure router string ldp admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
aggregate-prefix-match
  Synopsis Enable the aggregate-prefix-match context
  Context configure router string ldp aggregate-prefix-match
  Tree aggregate-prefix-match
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LDP aggregate prefix match
  Context configure router string ldp aggregate-prefix-match admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
prefix-exclude reference
  Synopsis Import policies to filter LDP label bindings received from LDP peers
  Context configure router string ldp aggregate-prefix-match prefix-exclude reference
  Tree prefix-exclude
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
class-forwarding keyword
  Synopsis Allow class-based forwarding for LDP over RSVP
  Context configure router string ldp class-forwarding keyword
  Tree class-forwarding
  Options lsr, ler, lsr-and-ler
  Introduced 16.0.R1
 

Platforms

All
consider-system-ip-in-gep boolean
  Synopsis Use Global Export Policies to determine whether to create a FEC for the system IP addresses
  Context configure router string ldp consider-system-ip-in-gep boolean
  Tree consider-system-ip-in-gep
  Default false
  Introduced 16.0.R1
 

Platforms

All
egress-statistics
  Synopsis Enter the egress-statistics context
  Context configure router string ldp egress-statistics
  Tree egress-statistics
  Introduced 16.0.R1
 

Platforms

All
fec-prefix [ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the fec-prefix list instance
  Context configure router string ldp egress-statistics fec-prefix (ipv4-prefix | ipv6-prefix)
  Tree fec-prefix
  Introduced 16.0.R1
 

Platforms

All
[ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis IP prefix
  Context configure router string ldp egress-statistics fec-prefix (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
accounting-policy reference
  Synopsis Accounting policy ID
  Context configure router string ldp egress-statistics fec-prefix (ipv4-prefix | ipv6-prefix) accounting-policy reference
  Tree accounting-policy
 

Reference

configure log accounting-policy number

  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LDP egress statistics
  Context configure router string ldp egress-statistics fec-prefix (ipv4-prefix | ipv6-prefix) admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
collect-stats boolean
  Synopsis Collect statistics
  Context configure router string ldp egress-statistics fec-prefix (ipv4-prefix | ipv6-prefix) collect-stats boolean
  Tree collect-stats
  Default false
  Introduced 16.0.R1
 

Platforms

All
entropy-label-capability boolean
  Synopsis Enable entropy label capability on the LDP instance
  Context configure router string ldp entropy-label-capability boolean
  Tree entropy-label-capability
  Default false
  Introduced 16.0.R1
 

Platforms

All
export-policy reference
  Synopsis Export policies to determine routes exported to LDP
  Context configure router string ldp export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
export-tunnel-table reference
  Synopsis Tunnel table export policies to export tunneled routes
  Context configure router string ldp export-tunnel-table reference
  Tree export-tunnel-table
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
fast-reroute
  Synopsis Enable the fast-reroute context
  Context configure router string ldp fast-reroute
  Tree fast-reroute
  Introduced 16.0.R1
 

Platforms

All
backup-sr-tunnel boolean
  Synopsis Use SR tunnel as a remote LFA backup tunnel next-hop by an LDP FEC
  Context configure router string ldp fast-reroute backup-sr-tunnel boolean
  Tree backup-sr-tunnel
  Default false
  Introduced 16.0.R1
 

Platforms

All
fec-originate [fec-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the fec-originate list instance
  Context configure router string ldp fec-originate (ipv4-prefix | ipv6-prefix)
  Tree fec-originate
  Introduced 16.0.R1
 

Platforms

All
[fec-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Static FEC IP prefix
  Context configure router string ldp fec-originate (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertised-label number
  Synopsis Label that is advertised to upstream peer
  Context configure router string ldp fec-originate (ipv4-prefix | ipv6-prefix) advertised-label number
  Tree advertised-label
  Range 32 to 1048575
  Introduced 16.0.R1
 

Platforms

All
interface string
  Synopsis Interface name for this static FEC prefix
  Context configure router string ldp fec-originate (ipv4-prefix | ipv6-prefix) interface string
  Tree interface
  String Length 0 to 32
 

Notes

The following elements are part of a choice: (interface, next-hop, and swap-label) or pop.
  Introduced 16.0.R1
 

Platforms

All
next-hop (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis IP address of the next hop
  Context configure router string ldp fec-originate (ipv4-prefix | ipv6-prefix) next-hop (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree next-hop
 

Notes

The following elements are part of a choice: (interface, next-hop, and swap-label) or pop.
  Introduced 16.0.R1
 

Platforms

All
pop boolean
  Synopsis Pop the label and transmit without the label
  Context configure router string ldp fec-originate (ipv4-prefix | ipv6-prefix) pop boolean
  Tree pop
 

Notes

The following elements are part of a choice: (interface, next-hop, and swap-label) or pop.
  Introduced 16.0.R1
 

Platforms

All
swap-label number
  Synopsis Value mapped to egress label associated with next-hop entry that LSR uses to swap incoming label
  Context configure router string ldp fec-originate (ipv4-prefix | ipv6-prefix) swap-label number
  Tree swap-label
  Range 6 to 1048575
 

Notes

The following elements are part of a choice: (interface, next-hop, and swap-label) or pop.
  Introduced 16.0.R1
 

Platforms

All
generate-basic-fec-only boolean
  Synopsis Enable mLDP to generate a basic FEC
  Context configure router string ldp generate-basic-fec-only boolean
  Tree generate-basic-fec-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
graceful-restart
  Synopsis Enter the graceful-restart context
  Context configure router string ldp graceful-restart
  Tree graceful-restart
  Introduced 16.0.R1
 

Platforms

All
helper-mode boolean
  Synopsis Enable graceful restart helper
  Context configure router string ldp graceful-restart helper-mode boolean
  Tree helper-mode
  Default false
  Introduced 16.0.R1
 

Platforms

All
maximum-recovery-time number
  Synopsis Value for the local maximum recovery time
  Context configure router string ldp graceful-restart maximum-recovery-time number
  Tree maximum-recovery-time
  Range 15 to 1800
  Default 120
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
neighbor-liveness-time number
  Synopsis Value for the neighbor liveness timer
  Context configure router string ldp graceful-restart neighbor-liveness-time number
  Tree neighbor-liveness-time
  Range 5 to 300
  Default 120
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
implicit-null-label boolean
  Synopsis Signal the implicit null label value for all LDP FECs for which the node is the egress LER
  Context configure router string ldp implicit-null-label boolean
  Tree implicit-null-label
  Default false
  Introduced 16.0.R1
 

Platforms

All
import-mcast-policy reference
  Synopsis Import policy for mLDP FECs arriving on the node
  Context configure router string ldp import-mcast-policy reference
  Tree import-mcast-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 19.5.R1
 

Platforms

All
import-pmsi-routes
  Synopsis Enter the import-pmsi-routes context
  Context configure router string ldp import-pmsi-routes
  Tree import-pmsi-routes
  Introduced 19.5.R1
 

Platforms

All
mvpn boolean
  Synopsis Import BGP MVPN inter-AS routes
  Context configure router string ldp import-pmsi-routes mvpn boolean
  Tree mvpn
  Default false
  Introduced 19.5.R1
 

Platforms

All
mvpn-no-export-community boolean
  Synopsis Import BGP MVPN intra-AS routes
  Context configure router string ldp import-pmsi-routes mvpn-no-export-community boolean
  Tree mvpn-no-export-community
  Default false
  Introduced 19.5.R1
 

Platforms

All
import-policy reference
  Synopsis Import policies to filter LDP label bindings received from LDP peers
  Context configure router string ldp import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
import-tunnel-table reference
  Synopsis Tunnel table import policies to control the insertion of non-host prefixes resolved by LDP
  Context configure router string ldp import-tunnel-table reference
  Tree import-tunnel-table
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
interface-parameters
  Synopsis Enter the interface-parameters context
  Context configure router string ldp interface-parameters
  Tree interface-parameters
  Introduced 16.0.R1
 

Platforms

All
interface [ip-int-name] reference
  Synopsis Enter the interface list instance
  Context configure router string ldp interface-parameters interface reference
  Tree interface
  Introduced 16.0.R1
 

Platforms

All
[ip-int-name] reference
  Synopsis Interface name
  Context configure router string ldp interface-parameters interface reference
 

Reference

configure router string interface string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LDP interface
  Context configure router string ldp interface-parameters interface reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness
  Synopsis Enter the bfd-liveness context
  Context configure router string ldp interface-parameters interface reference bfd-liveness
  Tree bfd-liveness
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Allow BFD tracking of IPv4 LDP Session for interface
  Context configure router string ldp interface-parameters interface reference bfd-liveness ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Allow BFD tracking of IPv6 LDP session for interface
  Context configure router string ldp interface-parameters interface reference bfd-liveness ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv4
  Synopsis Enable the ipv4 context
  Context configure router string ldp interface-parameters interface reference ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LDP interface
  Context configure router string ldp interface-parameters interface reference ipv4 admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
fec-type-capability
  Synopsis Enter the fec-type-capability context
  Context configure router string ldp interface-parameters interface reference ipv4 fec-type-capability
  Tree fec-type-capability
  Introduced 16.0.R1
 

Platforms

All
p2mp-ipv4 boolean
  Synopsis Enable IPv4 P2MP FEC capability
  Context configure router string ldp interface-parameters interface reference ipv4 fec-type-capability p2mp-ipv4 boolean
  Tree p2mp-ipv4
  Default true
  Introduced 16.0.R1
 

Platforms

All
p2mp-ipv6 boolean
  Synopsis Enable IPv6 P2MP FEC capability
  Context configure router string ldp interface-parameters interface reference ipv4 fec-type-capability p2mp-ipv6 boolean
  Tree p2mp-ipv6
  Default true
  Introduced 16.0.R1
 

Platforms

All
prefix-ipv4 boolean
  Synopsis Enable IPv4 prefix FEC capability
  Context configure router string ldp interface-parameters interface reference ipv4 fec-type-capability prefix-ipv4 boolean
  Tree prefix-ipv4
  Default true
  Introduced 16.0.R1
 

Platforms

All
prefix-ipv6 boolean
  Synopsis Enable IPv6 prefix FEC capability
  Context configure router string ldp interface-parameters interface reference ipv4 fec-type-capability prefix-ipv6 boolean
  Tree prefix-ipv6
  Default true
  Introduced 16.0.R1
 

Platforms

All
hello
  Synopsis Enable the hello context
  Context configure router string ldp interface-parameters interface reference ipv4 hello
  Tree hello
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for Hello
  Context configure router string ldp interface-parameters interface reference ipv4 hello factor number
  Tree factor
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for Hello
  Context configure router string ldp interface-parameters interface reference ipv4 hello timeout number
  Tree timeout
  Range 3 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
keepalive
  Synopsis Enable the keepalive context
  Context configure router string ldp interface-parameters interface reference ipv4 keepalive
  Tree keepalive
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for keepalive
  Context configure router string ldp interface-parameters interface reference ipv4 keepalive factor number
  Tree factor
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Time that LDP waits before tearing down session
  Context configure router string ldp interface-parameters interface reference ipv4 keepalive timeout number
  Tree timeout
  Range 3 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
local-lsr-id
  Synopsis Enter the local-lsr-id context
  Context configure router string ldp interface-parameters interface reference ipv4 local-lsr-id
  Tree local-lsr-id
  Introduced 16.0.R1
 

Platforms

All
interface-name reference
  Synopsis Name of network IP interface from which to obtain IP address to use as LSR-ID of LDP LSP
  Context configure router string ldp interface-parameters interface reference ipv4 local-lsr-id interface-name reference
  Tree interface-name
 

Reference

configure router string interface string

  Introduced 16.0.R1
 

Platforms

All
transport-address keyword
  Synopsis Transport address to set up the LDP TCP sessions
  Context configure router string ldp interface-parameters interface reference ipv4 transport-address keyword
  Tree transport-address
  Options interface, system
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enable the ipv6 context
  Context configure router string ldp interface-parameters interface reference ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LDP interface
  Context configure router string ldp interface-parameters interface reference ipv6 admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
fec-type-capability
  Synopsis Enter the fec-type-capability context
  Context configure router string ldp interface-parameters interface reference ipv6 fec-type-capability
  Tree fec-type-capability
  Introduced 16.0.R1
 

Platforms

All
p2mp-ipv4 boolean
  Synopsis Enable IPv4 P2MP FEC capability
  Context configure router string ldp interface-parameters interface reference ipv6 fec-type-capability p2mp-ipv4 boolean
  Tree p2mp-ipv4
  Default true
  Introduced 16.0.R1
 

Platforms

All
p2mp-ipv6 boolean
  Synopsis Enable IPv6 P2MP FEC capability
  Context configure router string ldp interface-parameters interface reference ipv6 fec-type-capability p2mp-ipv6 boolean
  Tree p2mp-ipv6
  Default true
  Introduced 16.0.R1
 

Platforms

All
prefix-ipv4 boolean
  Synopsis Enable IPv4 prefix FEC capability
  Context configure router string ldp interface-parameters interface reference ipv6 fec-type-capability prefix-ipv4 boolean
  Tree prefix-ipv4
  Default true
  Introduced 16.0.R1
 

Platforms

All
prefix-ipv6 boolean
  Synopsis Enable IPv6 prefix FEC capability
  Context configure router string ldp interface-parameters interface reference ipv6 fec-type-capability prefix-ipv6 boolean
  Tree prefix-ipv6
  Default true
  Introduced 16.0.R1
 

Platforms

All
hello
  Synopsis Enable the hello context
  Context configure router string ldp interface-parameters interface reference ipv6 hello
  Tree hello
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for Hello
  Context configure router string ldp interface-parameters interface reference ipv6 hello factor number
  Tree factor
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for Hello
  Context configure router string ldp interface-parameters interface reference ipv6 hello timeout number
  Tree timeout
  Range 3 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
keepalive
  Synopsis Enable the keepalive context
  Context configure router string ldp interface-parameters interface reference ipv6 keepalive
  Tree keepalive
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for keepalive
  Context configure router string ldp interface-parameters interface reference ipv6 keepalive factor number
  Tree factor
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Time that LDP waits before tearing down session
  Context configure router string ldp interface-parameters interface reference ipv6 keepalive timeout number
  Tree timeout
  Range 3 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
local-lsr-id
  Synopsis Enter the local-lsr-id context
  Context configure router string ldp interface-parameters interface reference ipv6 local-lsr-id
  Tree local-lsr-id
  Introduced 16.0.R1
 

Platforms

All
format-32bit boolean
  Synopsis Use IPv4 address of local LSR-ID interface as LSR-ID of the LDP LSR
  Context configure router string ldp interface-parameters interface reference ipv6 local-lsr-id format-32bit boolean
  Tree format-32bit
  Default false
  Introduced 16.0.R1
 

Platforms

All
interface-name reference
  Synopsis Name of network IP interface from which to obtain IP address to use as LSR-ID of LDP LSP
  Context configure router string ldp interface-parameters interface reference ipv6 local-lsr-id interface-name reference
  Tree interface-name
 

Reference

configure router string interface string

  Introduced 16.0.R1
 

Platforms

All
transport-address keyword
  Synopsis Transport address to set up the LDP TCP sessions
  Context configure router string ldp interface-parameters interface reference ipv6 transport-address keyword
  Tree transport-address
  Options interface, system
  Introduced 16.0.R1
 

Platforms

All
load-balancing-weight number
  Synopsis Load balancing weight for the LDP interface
  Context configure router string ldp interface-parameters interface reference load-balancing-weight number
  Tree load-balancing-weight
  Max. Range 0 to 4294967295
  Introduced 20.2.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string ldp interface-parameters ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
hello
  Synopsis Enter the hello context
  Context configure router string ldp interface-parameters ipv4 hello
  Tree hello
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Value for the Hello factor
  Context configure router string ldp interface-parameters ipv4 hello factor number
  Tree factor
  Range 1 to 255
  Default 3
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for Hello
  Context configure router string ldp interface-parameters ipv4 hello timeout number
  Tree timeout
  Range 3 to 65535
  Default 15
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
keepalive
  Synopsis Enter the keepalive context
  Context configure router string ldp interface-parameters ipv4 keepalive
  Tree keepalive
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Value for the keep-alive factor
  Context configure router string ldp interface-parameters ipv4 keepalive factor number
  Tree factor
  Range 1 to 255
  Default 3
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for keepalive
  Context configure router string ldp interface-parameters ipv4 keepalive timeout number
  Tree timeout
  Range 3 to 65535
  Default 30
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
transport-address keyword
  Synopsis Transport address to set up the LDP TCP sessions
  Context configure router string ldp interface-parameters ipv4 transport-address keyword
  Tree transport-address
  Default system
  Options interface, system
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string ldp interface-parameters ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
hello
  Synopsis Enter the hello context
  Context configure router string ldp interface-parameters ipv6 hello
  Tree hello
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Value for the Hello factor
  Context configure router string ldp interface-parameters ipv6 hello factor number
  Tree factor
  Range 1 to 255
  Default 3
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for Hello
  Context configure router string ldp interface-parameters ipv6 hello timeout number
  Tree timeout
  Range 3 to 65535
  Default 15
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
keepalive
  Synopsis Enter the keepalive context
  Context configure router string ldp interface-parameters ipv6 keepalive
  Tree keepalive
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Value for the keep-alive factor
  Context configure router string ldp interface-parameters ipv6 keepalive factor number
  Tree factor
  Range 1 to 255
  Default 3
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for keepalive
  Context configure router string ldp interface-parameters ipv6 keepalive timeout number
  Tree timeout
  Range 3 to 65535
  Default 30
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
transport-address keyword
  Synopsis Transport address to set up the LDP TCP sessions
  Context configure router string ldp interface-parameters ipv6 transport-address keyword
  Tree transport-address
  Default system
  Options interface, system
  Introduced 16.0.R1
 

Platforms

All
label-withdrawal-delay number
  Synopsis Time interval during which LDP delays for the withdrawal of FEC-label binding
  Context configure router string ldp label-withdrawal-delay number
  Tree label-withdrawal-delay
  Range 3 to 120
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
ldp-shortcut
  Synopsis Enter the ldp-shortcut context
  Context configure router string ldp ldp-shortcut
  Tree ldp-shortcut
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Forward IPv4 packets by using LDP shortcuts
  Context configure router string ldp ldp-shortcut ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Forward IPv6 packets by using LDP shortcuts
  Context configure router string ldp ldp-shortcut ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
legacy-ipv4-lsr-interop boolean
  Synopsis Allow interoperability with legacy IPv4 LSR implementations
  Context configure router string ldp legacy-ipv4-lsr-interop boolean
  Tree legacy-ipv4-lsr-interop
  Default false
  Introduced 16.0.R1
 

Platforms

All
lsp-bfd [prefix-list] reference
  Synopsis Enter the lsp-bfd list instance
  Context configure router string ldp lsp-bfd reference
  Tree lsp-bfd
  Max. Instances 16
  Introduced 16.0.R1
 

Platforms

All
[prefix-list] reference
  Synopsis Name of a router policy options prefix list
  Context configure router string ldp lsp-bfd reference
 

Reference

configure policy-options prefix-list string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD on LDP LSPs with FECs that match the prefix list
  Context configure router string ldp lsp-bfd reference bfd-liveness boolean
  Tree bfd-liveness
  Default false
  Introduced 16.0.R1
 

Platforms

All
bfd-template reference
  Synopsis BFD template to apply to BFD sessions associated with the prefix list
  Context configure router string ldp lsp-bfd reference bfd-template reference
  Tree bfd-template
 

Reference

configure bfd bfd-template string

  Introduced 16.0.R1
 

Platforms

All
failure-action keyword
  Synopsis Reaction to BFD session failure for the prefix list
  Context configure router string ldp lsp-bfd reference failure-action keyword
  Tree failure-action
  Options down
  Introduced 16.0.R1
 

Platforms

All
lsp-ping-interval (number | keyword)
  Synopsis LSP ping transmit interval for periodic verification
  Context configure router string ldp lsp-bfd reference lsp-ping-interval (number | keyword)
  Tree lsp-ping-interval
  Range 60 to 300
  Default 60
  Units seconds
  Options none
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis Prefix list to control the search order
  Context configure router string ldp lsp-bfd reference priority number
  Tree priority
  Range 1 to 99
  Default 1
  Introduced 16.0.R1
 

Platforms

All
source-address (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Source address in LSP ping packets and BFD control packets associated with prefix list
  Context configure router string ldp lsp-bfd reference source-address (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree source-address
  Introduced 16.0.R1
 

Platforms

All
max-ecmp-routes number
  Synopsis Maximum ECMP value for LDP
  Context configure router string ldp max-ecmp-routes number
  Tree max-ecmp-routes
 

Description

This command sets the maximum number of ECMP routes that LDP may use to resolve the next hop for a FEC as permitted by the RTM or TTM.

The system-wide maximum number of ECMP routes is set by the configure router ecmp command; therefore, the operational maximum number used by LDP is set to the lesser of the values configured by this command and the configure router ecmp command.
  Range 1 to 64
  Default 32
  Introduced 19.10.R1
 

Platforms

All
mcast-upstream-asbr-frr boolean
  Synopsis Enable ASBR MoFRR to allow local leaf to perform MoFRR for multiple ASBRs
  Context configure router string ldp mcast-upstream-asbr-frr boolean
  Tree mcast-upstream-asbr-frr
  Default false
  Introduced 16.0.R1
 

Platforms

All
mcast-upstream-frr boolean
  Synopsis Use fast upstream switchover for mLDP FECs
  Context configure router string ldp mcast-upstream-frr boolean
  Tree mcast-upstream-frr
  Default false
  Introduced 16.0.R1
 

Platforms

All
mp-mbb-time number
  Synopsis MP MBB time
  Context configure router string ldp mp-mbb-time number
  Tree mp-mbb-time
  Range 0 to 10
  Default 3
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
prefer-mcast-tunnel-in-tunnel boolean
  Synopsis Use T-LDP session to the peer for FEC resolution
  Context configure router string ldp prefer-mcast-tunnel-in-tunnel boolean
  Tree prefer-mcast-tunnel-in-tunnel
  Default true
  Introduced 21.2.R1
 

Platforms

All
prefer-protocol-stitching boolean
  Synopsis Stitch LDP ILM to SR NHLFE even if LDP NHLFE exists
  Context configure router string ldp prefer-protocol-stitching boolean
  Tree prefer-protocol-stitching
 

Description

When configured to true, an LDP ILM stitches to an SR NHLFE, even if an LDP NHLFE exists.

When configured to false, the stitching preference of an LDP ILM is to an LDP NHLFE.
  Default false
  Introduced 21.7.R1
 

Platforms

All
prefer-tunnel-in-tunnel boolean
  Synopsis Preference tunnel-in-tunnel over a simple LDP tunnel
  Context configure router string ldp prefer-tunnel-in-tunnel boolean
  Tree prefer-tunnel-in-tunnel
  Default true
  Introduced 16.0.R1
 

Platforms

All
resolve-root-using keyword
  Synopsis Resolution route table for multicast FECs
  Context configure router string ldp resolve-root-using keyword
  Tree resolve-root-using
  Default ucast-rtm
  Options ucast-rtm, mcast-rtm
  Introduced 16.0.R1
 

Platforms

All
session-parameters
  Synopsis Enter the session-parameters context
  Context configure router string ldp session-parameters
  Tree session-parameters
  Introduced 16.0.R1
 

Platforms

All
peer [ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the peer list instance
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree peer
  Introduced 16.0.R1
 

Platforms

All
[ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis IP address of the LDP peer
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
adv-adj-addr-only boolean
  Synopsis Distribute only the local addresses used to establish the Hello adjacencies with a peer
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) adv-adj-addr-only boolean
  Tree adv-adj-addr-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
adv-local-lsr-id boolean
  Synopsis Advertise local LSR ID over a specified LDP session
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) adv-local-lsr-id boolean
  Tree adv-local-lsr-id
  Default false
  Introduced 16.0.R1
 

Platforms

All
community string
  Synopsis Community string associated with a session to a specified peer
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) community string
  Tree community
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

All
dod-label-distribution boolean
  Synopsis Use LDP Downstream-on-Demand (DoD) label distribution procedures
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) dod-label-distribution boolean
  Tree dod-label-distribution
  Default false
  Introduced 16.0.R1
 

Platforms

All
export-addresses reference
  Synopsis Export policies to determine which local addresses should be distributed to this peer
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) export-addresses reference
  Tree export-addresses
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
export-prefixes reference
  Synopsis Export policies to determine which FEC prefixes are redistributed to LDP and TLDP peers
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) export-prefixes reference
  Tree export-prefixes
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
fec-limit
  Synopsis Enter the fec-limit context
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) fec-limit
  Tree fec-limit
  Introduced 16.0.R1
 

Platforms

All
limit number
  Synopsis Maximum number of FECs to be accepted from this peer LSR
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) fec-limit limit number
  Tree limit
  Range 0 | 1 to 4294967295
  Default 0
  Introduced 16.0.R1
 

Platforms

All
log-only boolean
  Synopsis Trap and syslog message to generate when reaching the threshold and limit
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) fec-limit log-only boolean
  Tree log-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
threshold number
  Synopsis Threshold that generates trap and warning when reached
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) fec-limit threshold number
  Tree threshold
  Range 1 to 100
  Default 90
  Introduced 16.0.R1
 

Platforms

All
fec-type-capability
  Synopsis Enter the fec-type-capability context
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) fec-type-capability
  Tree fec-type-capability
  Introduced 16.0.R1
 

Platforms

All
p2mp boolean
  Synopsis Enable P2MP FEC capability for the session
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) fec-type-capability p2mp boolean
  Tree p2mp
  Default true
  Introduced 16.0.R1
 

Platforms

All
prefix-ipv4 boolean
  Synopsis Enable IPv4 prefix FEC capability for the session
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) fec-type-capability prefix-ipv4 boolean
  Tree prefix-ipv4
  Default true
  Introduced 16.0.R1
 

Platforms

All
prefix-ipv6 boolean
  Synopsis Enable IPv6 prefix FEC capability
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) fec-type-capability prefix-ipv6 boolean
  Tree prefix-ipv6
  Default true
  Introduced 16.0.R1
 

Platforms

All
fec129-cisco-interop boolean
  Synopsis Allow translation between non-compliant FEC 129 formats of Cisco
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) fec129-cisco-interop boolean
  Tree fec129-cisco-interop
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
import-prefixes reference
  Synopsis FEC prefixes to be redistributed to this LDP peer
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) import-prefixes reference
  Tree import-prefixes
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
pe-id-mac-flush-interop boolean
  Synopsis LDP to send the non-standard PE-ID TLV in an address withdraw message
  Context configure router string ldp session-parameters peer (ipv4-address-no-zone | ipv6-address-no-zone) pe-id-mac-flush-interop boolean
  Tree pe-id-mac-flush-interop
  Default false
  Introduced 16.0.R1
 

Platforms

All
shortcut-local-ttl-propagate boolean
  Synopsis Propagate TTL over LSP shortcut for local packets
  Context configure router string ldp shortcut-local-ttl-propagate boolean
  Tree shortcut-local-ttl-propagate
  Default true
  Introduced 16.0.R1
 

Platforms

All
shortcut-transit-ttl-propagate boolean
  Synopsis Enable TTL propagation over LSP shortcut
  Context configure router string ldp shortcut-transit-ttl-propagate boolean
  Tree shortcut-transit-ttl-propagate
  Default true
  Introduced 16.0.R1
 

Platforms

All
targeted-session
  Synopsis Enter the targeted-session context
  Context configure router string ldp targeted-session
  Tree targeted-session
  Introduced 16.0.R1
 

Platforms

All
auto-rx
  Synopsis Enter the auto-rx context
  Context configure router string ldp targeted-session auto-rx
  Tree auto-rx
 

Description

Commands in this context specify the LDP session configuration to accept targeted Hello messages from any peer.
  Introduced 20.10.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string ldp targeted-session auto-rx ipv4
  Tree ipv4
  Introduced 20.10.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of IPv4 capabilities for peers
  Context configure router string ldp targeted-session auto-rx ipv4 admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 20.10.R1
 

Platforms

All
tunneling boolean
  Synopsis Enable tunneling for targeted peers
  Context configure router string ldp targeted-session auto-rx ipv4 tunneling boolean
  Tree tunneling
 

Description

When configured to true, this command enables the local system to use the targeted LDP session to send FEC label bindings that are advertised to other LDP peers. For LDP rLFA, the source node requires the PQ node's label binding information in order to reach the destination.

If the auto-rx and auto-tx contexts are both administratively enabled, this command must be set to true for LDP rLFA to function properly.

When configured to false, FEC label bindings are not sent via the LDP session.
  Default false
  Introduced 20.10.R1
 

Platforms

All
auto-tx
  Synopsis Enter the auto-tx context
  Context configure router string ldp targeted-session auto-tx
  Tree auto-tx
 

Description

Commands in this context specify the LDP session configuration to send targeted Hello messages toward PQ nodes determined by the rLFA algorithm.
  Introduced 20.10.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string ldp targeted-session auto-tx ipv4
  Tree ipv4
  Introduced 20.10.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of IPv4 capabilities for peers
  Context configure router string ldp targeted-session auto-tx ipv4 admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 20.10.R1
 

Platforms

All
tunneling boolean
  Synopsis Enable tunneling for targeted peers
  Context configure router string ldp targeted-session auto-tx ipv4 tunneling boolean
  Tree tunneling
 

Description

When configured to true, this command enables the local system to use the targeted LDP session to send FEC label bindings that are advertised to other LDP peers. For LDP rLFA, the source node requires the PQ node's label binding information in order to reach the destination.

If the auto-rx context is administratively disabled, this command should be set to true for LDP rLFA to function properly.

When configured to false, FEC label bindings are not sent via the LDP session.
  Default false
  Introduced 20.10.R1
 

Platforms

All
export-prefixes reference
  Synopsis Export route policy to determine which routes are exported to this targeted LDP session
  Context configure router string ldp targeted-session export-prefixes reference
  Tree export-prefixes
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
import-prefixes reference
  Synopsis Import route policy to determine which routes are accepted from targeted LDP neighbors
  Context configure router string ldp targeted-session import-prefixes reference
  Tree import-prefixes
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string ldp targeted-session ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
hello
  Synopsis Enter the hello context
  Context configure router string ldp targeted-session ipv4 hello
  Tree hello
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for Hello
  Context configure router string ldp targeted-session ipv4 hello factor number
  Tree factor
  Range 1 to 255
  Default 3
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for Hello
  Context configure router string ldp targeted-session ipv4 hello timeout number
  Tree timeout
  Range 3 to 65535
  Default 45
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
hello-reduction
  Synopsis Enter the hello-reduction context
  Context configure router string ldp targeted-session ipv4 hello-reduction
  Tree hello-reduction
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of suppression of Hello messages
  Context configure router string ldp targeted-session ipv4 hello-reduction admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R3
 

Platforms

All
factor number
  Synopsis Hello reduction dampening factor
  Context configure router string ldp targeted-session ipv4 hello-reduction factor number
  Tree factor
  Range 3 to 20
  Default 3
  Introduced 16.0.R1
 

Platforms

All
keepalive
  Synopsis Enter the keepalive context
  Context configure router string ldp targeted-session ipv4 keepalive
  Tree keepalive
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for keepalive
  Context configure router string ldp targeted-session ipv4 keepalive factor number
  Tree factor
  Range 1 to 255
  Default 4
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for keepalive
  Context configure router string ldp targeted-session ipv4 keepalive timeout number
  Tree timeout
  Range 3 to 65535
  Default 40
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string ldp targeted-session ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
hello
  Synopsis Enter the hello context
  Context configure router string ldp targeted-session ipv6 hello
  Tree hello
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for Hello
  Context configure router string ldp targeted-session ipv6 hello factor number
  Tree factor
  Range 1 to 255
  Default 3
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for Hello
  Context configure router string ldp targeted-session ipv6 hello timeout number
  Tree timeout
  Range 3 to 65535
  Default 45
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
hello-reduction
  Synopsis Enter the hello-reduction context
  Context configure router string ldp targeted-session ipv6 hello-reduction
  Tree hello-reduction
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of suppression of Hello messages
  Context configure router string ldp targeted-session ipv6 hello-reduction admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R3
 

Platforms

All
factor number
  Synopsis Hello reduction dampening factor
  Context configure router string ldp targeted-session ipv6 hello-reduction factor number
  Tree factor
  Range 3 to 20
  Default 3
  Introduced 16.0.R1
 

Platforms

All
keepalive
  Synopsis Enter the keepalive context
  Context configure router string ldp targeted-session ipv6 keepalive
  Tree keepalive
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for keepalive
  Context configure router string ldp targeted-session ipv6 keepalive factor number
  Tree factor
  Range 1 to 255
  Default 4
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for keepalive
  Context configure router string ldp targeted-session ipv6 keepalive timeout number
  Tree timeout
  Range 3 to 65535
  Default 40
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
peer [ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the peer list instance
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree peer
  Introduced 16.0.R1
 

Platforms

All
[ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis IP address of the LDP peer
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LDP peer
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD tracking of LDP session for the peer
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) bfd-liveness boolean
  Tree bfd-liveness
  Default false
  Introduced 16.0.R1
 

Platforms

All
hello
  Synopsis Enable the hello context
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) hello
  Tree hello
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for Hello
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) hello factor number
  Tree factor
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for Hello
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) hello timeout number
  Tree timeout
  Range 3 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
hello-reduction
  Synopsis Enable the hello-reduction context
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) hello-reduction
  Tree hello-reduction
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of suppression of Hello messages
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) hello-reduction admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 16.0.R3
 

Platforms

All
factor number
  Synopsis Hello reduction dampening factor
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) hello-reduction factor number
  Tree factor
  Range 3 to 20
  Introduced 16.0.R1
 

Platforms

All
keepalive
  Synopsis Enable the keepalive context
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) keepalive
  Tree keepalive
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for keepalive
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) keepalive factor number
  Tree factor
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Time that LDP waits before tearing down session
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) keepalive timeout number
  Tree timeout
  Range 3 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
local-lsr-id
  Synopsis Enter the local-lsr-id context
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) local-lsr-id
  Tree local-lsr-id
  Introduced 16.0.R1
 

Platforms

All
format-32bit boolean
  Synopsis Use IPv4 address of local LSR-ID interface as LSR-ID of the LDP LSR
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) local-lsr-id format-32bit boolean
  Tree format-32bit
  Default false
  Introduced 16.0.R1
 

Platforms

All
interface-name reference
  Synopsis Name of network IP interface from which to obtain IP address to use as LSR-ID of LDP LSP
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) local-lsr-id interface-name reference
  Tree interface-name
 

Reference

configure router string interface string

  Introduced 16.0.R1
 

Platforms

All
mcast-tunneling
  Synopsis Enable the mcast-tunneling context
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) mcast-tunneling
  Tree mcast-tunneling
  Introduced 21.2.R1
 

Platforms

All
lsp [lsp-name] string
  Synopsis Add a list entry for lsp
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) mcast-tunneling lsp string
  Tree lsp
  Max. Instances 4
  Introduced 21.2.R1
 

Platforms

All
[lsp-name] string
  Synopsis LSP name
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) mcast-tunneling lsp string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 21.2.R1
 

Platforms

All
tunneling
  Synopsis Enable the tunneling context
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) tunneling
  Tree tunneling
  Introduced 16.0.R1
 

Platforms

All
lsp [lsp-name] string
  Synopsis Add a list entry for lsp
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) tunneling lsp string
  Tree lsp
  Max. Instances 4
  Introduced 16.0.R1
 

Platforms

All
[lsp-name] string
  Synopsis LSP name
  Context configure router string ldp targeted-session peer (ipv4-address-no-zone | ipv6-address-no-zone) tunneling lsp string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
peer-template [template-name] string
  Synopsis Enter the peer-template list instance
  Context configure router string ldp targeted-session peer-template string
  Tree peer-template
  Max. Instances 500
  Introduced 16.0.R1
 

Platforms

All
[template-name] string
  Synopsis Name for the targeted peer template
  Context configure router string ldp targeted-session peer-template string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the peer template
  Context configure router string ldp targeted-session peer-template string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
adv-local-lsr-id boolean
  Synopsis Advertise local LSR ID over a specified LDP session
  Context configure router string ldp targeted-session peer-template string adv-local-lsr-id boolean
  Tree adv-local-lsr-id
  Default false
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD tracking of LDP session for sessions created by peer template
  Context configure router string ldp targeted-session peer-template string bfd-liveness boolean
  Tree bfd-liveness
  Default false
  Introduced 16.0.R1
 

Platforms

All
community string
  Synopsis Community string associated with a session to a specified peer
  Context configure router string ldp targeted-session peer-template string community string
  Tree community
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

All
hello
  Synopsis Enable the hello context
  Context configure router string ldp targeted-session peer-template string hello
  Tree hello
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for Hello
  Context configure router string ldp targeted-session peer-template string hello factor number
  Tree factor
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Timeout value for Hello
  Context configure router string ldp targeted-session peer-template string hello timeout number
  Tree timeout
  Range 3 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
hello-reduction
  Synopsis Enable the hello-reduction context
  Context configure router string ldp targeted-session peer-template string hello-reduction
  Tree hello-reduction
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of suppression of Hello messages
  Context configure router string ldp targeted-session peer-template string hello-reduction admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 16.0.R3
 

Platforms

All
factor number
  Synopsis Hello reduction dampening factor
  Context configure router string ldp targeted-session peer-template string hello-reduction factor number
  Tree factor
  Range 3 to 20
  Introduced 16.0.R1
 

Platforms

All
keepalive
  Synopsis Enable the keepalive context
  Context configure router string ldp targeted-session peer-template string keepalive
  Tree keepalive
  Introduced 16.0.R1
 

Platforms

All
factor number
  Synopsis Factor value for keepalive
  Context configure router string ldp targeted-session peer-template string keepalive factor number
  Tree factor
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Time that LDP waits before tearing down session
  Context configure router string ldp targeted-session peer-template string keepalive timeout number
  Tree timeout
  Range 3 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
local-lsr-id
  Synopsis Enter the local-lsr-id context
  Context configure router string ldp targeted-session peer-template string local-lsr-id
  Tree local-lsr-id
  Introduced 16.0.R1
 

Platforms

All
interface-name reference
  Synopsis Name of network IP interface from which to obtain IP address to use as LSR-ID of LDP LSP
  Context configure router string ldp targeted-session peer-template string local-lsr-id interface-name reference
  Tree interface-name
 

Reference

configure router string interface string

  Introduced 16.0.R1
 

Platforms

All
mcast-tunneling boolean
  Synopsis Enable MLDP over RSVP-TE tunnels for the template
  Context configure router string ldp targeted-session peer-template string mcast-tunneling boolean
  Tree mcast-tunneling
  Default false
  Introduced 21.2.R1
 

Platforms

All
tunneling boolean
  Synopsis Allow LDP over tunnels
  Context configure router string ldp targeted-session peer-template string tunneling boolean
  Tree tunneling
  Default false
  Introduced 16.0.R1
 

Platforms

All
peer-template-map [template-map-name] reference
  Synopsis Enter the peer-template-map list instance
  Context configure router string ldp targeted-session peer-template-map reference
  Tree peer-template-map
  Max. Instances 500
  Introduced 16.0.R1
 

Platforms

All
[template-map-name] reference
  Synopsis Name to identify the targeted peer template
  Context configure router string ldp targeted-session peer-template-map reference
 

Reference

configure router string ldp targeted-session peer-template string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
policy-map reference
  Synopsis Targeted peer template to apply to the given policies
  Context configure router string ldp targeted-session peer-template-map reference policy-map reference
  Tree policy-map
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
  Min. Instances 1
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
resolve-v6-prefix-over-shortcut boolean
  Synopsis Resolve IPv6 prefix over IGP shortcuts
  Context configure router string ldp targeted-session resolve-v6-prefix-over-shortcut boolean
  Tree resolve-v6-prefix-over-shortcut
 

Description

When configured to true, the system enables the resolution of IPv6 LDP unicast prefix FECs over IGP shortcuts.

When configured to false, the resolution is not allowed.
  Default false
  Introduced 22.7.R1
 

Platforms

All
sdp-auto-targeted-session boolean
  Synopsis Allow auto-creation of targeted sessions by SDP
  Context configure router string ldp targeted-session sdp-auto-targeted-session boolean
  Tree sdp-auto-targeted-session
  Default true
  Introduced 16.0.R1
 

Platforms

All
tcp-session-parameters
  Synopsis Enter the tcp-session-parameters context
  Context configure router string ldp tcp-session-parameters
  Tree tcp-session-parameters
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis Authentication key between LDP peers
  Context configure router string ldp tcp-session-parameters authentication-key string
  Tree authentication-key
 

Description

This command specifies the authentication key used to establish a session between LDP peers.

Authentication uses the MD-5 message-based digest. The peer address used in authentication must be the TCP session transport address. If one or more transport addresses used in the Hello adjacencies to the same peer LSR are different from the LSR ID value, the user must add each transport address to the authentication key configuration as a separate peer. As a result, when the TCP connection is bootstrapped by a specific Hello adjacency, the authentication can operate over that TCP connection by using its specific transport address.

The per-peer authentication configuration takes precedence over global authentication configuration, and authentication keychain configuration takes precedence over authentication key configuration.
  String Length 1 to 370
  Introduced 21.2.R1
 

Platforms

All
authentication-keychain reference
  Synopsis Authentication keychain to use for the TCP session
  Context configure router string ldp tcp-session-parameters authentication-keychain reference
  Tree authentication-keychain
 

Description

This command configures the authentication keychain to use for the TCP session.

The per-peer authentication configuration takes precedence over the global authentication configuration.
 

Reference

configure system security keychains keychain string

  Introduced 21.2.R1
 

Platforms

All
peer-transport [ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the peer-transport list instance
  Context configure router string ldp tcp-session-parameters peer-transport (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree peer-transport
  Introduced 16.0.R1
 

Platforms

All
[ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis IP address of the TCP connection to the LDP peer
  Context configure router string ldp tcp-session-parameters peer-transport (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis Authentication key for the peer
  Context configure router string ldp tcp-session-parameters peer-transport (ipv4-address-no-zone | ipv6-address-no-zone) authentication-key string
  Tree authentication-key
  String Length 1 to 370
  Introduced 16.0.R1
 

Platforms

All
authentication-keychain reference
  Synopsis TCP authentication keychain to use for the session
  Context configure router string ldp tcp-session-parameters peer-transport (ipv4-address-no-zone | ipv6-address-no-zone) authentication-keychain reference
  Tree authentication-keychain
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
path-mtu-discovery boolean
  Synopsis Allow Path MTU Discovery for associated TCP connections
  Context configure router string ldp tcp-session-parameters peer-transport (ipv4-address-no-zone | ipv6-address-no-zone) path-mtu-discovery boolean
  Tree path-mtu-discovery
  Default false
  Introduced 16.0.R1
 

Platforms

All
ttl-security number
  Synopsis Minimum TTL value for incoming packets
  Context configure router string ldp tcp-session-parameters peer-transport (ipv4-address-no-zone | ipv6-address-no-zone) ttl-security number
  Tree ttl-security
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

All
tunnel-down-damp-time number
  Synopsis Time interval for an LDP to damp a tunnel down event before posting to the Route Table Manager (RTM)
  Context configure router string ldp tunnel-down-damp-time number
  Tree tunnel-down-damp-time
  Range 0 to 20
  Default 3
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
tunnel-table-pref number
  Synopsis Tunnel table preference value for address FECs
  Context configure router string ldp tunnel-table-pref number
  Tree tunnel-table-pref
 

Description

This command configures the tunnel table preference for an LDP tunnel type.

The tunnel table preference applies to next-hop resolution of BGP routes for: EVPN, IPv4, IPv6, VPN-IPv4, VPN-IPv6, label-IPv4, and label-IPV6 in the tunnel table.

This feature does not apply to a VPRN, VPLS, or VLL service with explicit binding to an SDP that enabled the mixed-lsp-mode option. The service manager controls and fixes the tunnel preference in such an SDP. The tunnel table preference configuration does not modify the SDP behavior, nor the services that bind to it.

It is recommended to not set two or more tunnel types to the same preference value. In such a situation, the tunnel table prefers the tunnel type which was first introduced in SR OS implementation historically.
  Range 1 to 255
  Default 9
  Introduced 21.10.R1
 

Platforms

All
weighted-ecmp boolean
  Synopsis Allow weighted ECMP load-balancing
  Context configure router string ldp weighted-ecmp boolean
  Tree weighted-ecmp
 

Description

When configured to true, the system allows weighted ECMP on LDP using RSVP LSPs or SR-TE LSPs. LDP labeled packets are sprayed across the RSVP or SR-TE LSP ECMP set in proportion to the configured load-balancing weight of LSPs.

When configured to false, the system removes weighted ECMP load-balancing.
  Default false
  Introduced 16.0.R1
 

Platforms

All

leak-export

  Synopsis Enter the leak-export context
  Context configure router string leak-export
  Tree leak-export
  Introduced 16.0.R4
 

Platforms

All
leak-export-limit number
  Synopsis Maximum limit on number of GRT routes leaked into VPRNs
  Context configure router string leak-export leak-export-limit number
  Tree leak-export-limit
  Range 1 to 10000
  Default 5
  Introduced 16.0.R4
 

Platforms

All
policy-name (policy-expr-string | string)
  Synopsis Route policy name
  Context configure router string leak-export policy-name (policy-expr-string | string)
  Tree policy-name
  String Length 1 to 255
  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All

lsp-bfd

  Synopsis Enter the lsp-bfd context
  Context configure router string lsp-bfd
  Tree lsp-bfd
  Introduced 16.0.R1
 

Platforms

All
bfd-sessions number
  Synopsis Maximum number of LSP BFD session tail-ends
  Context configure router string lsp-bfd bfd-sessions number
  Tree bfd-sessions
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
tail-end
  Synopsis Enter the tail-end context
  Context configure router string lsp-bfd tail-end
  Tree tail-end
  Introduced 20.10.R1
 

Platforms

All
multiplier number
  Synopsis Missed message threshold before session is set to down
  Context configure router string lsp-bfd tail-end multiplier number
  Tree multiplier
  Range 1 to 20
  Default 3
  Introduced 20.10.R1
 

Platforms

All
receive-interval number
  Synopsis The BFD receive interval for LSP tail-end
  Context configure router string lsp-bfd tail-end receive-interval number
  Tree receive-interval
  Range 100 to 1000
  Default 1000
  Units milliseconds
  Introduced 20.10.R1
 

Platforms

All
transmit-interval number
  Synopsis The BFD transmit interval for LSP tail-end
  Context configure router string lsp-bfd tail-end transmit-interval number
  Tree transmit-interval
  Range 100 to 1000
  Default 1000
  Units milliseconds
  Introduced 20.10.R1
 

Platforms

All

mc-maximum-routes

  Synopsis Enter the mc-maximum-routes context
  Context configure router string mc-maximum-routes
  Tree mc-maximum-routes
  Introduced 16.0.R1
 

Platforms

All
log-only boolean
  Synopsis Action when the maximum number of multicast routes, held within a VRF context, is reached
  Context configure router string mc-maximum-routes log-only boolean
  Tree log-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
threshold number
  Synopsis Mid-level water marker for the number of multicast routes which this VRF holds
  Context configure router string mc-maximum-routes threshold number
  Tree threshold
  Range 1 to 100
  Units percent
  Introduced 16.0.R1
 

Platforms

All
value number
  Synopsis Maximum multicast routes configured on virtual router
  Context configure router string mc-maximum-routes value number
  Tree value
  Range 1 to 2147483647
  Introduced 16.0.R1
 

Platforms

All

mld

  Synopsis Enable the mld context
  Context configure router string mld
  Tree mld
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of MLD
  Context configure router string mld admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
forwarding-group-interface forwarding-service string group-interface-name reference
  Synopsis Enter the forwarding-group-interface list instance
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference
  Tree forwarding-group-interface
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
forwarding-service string
  Synopsis Forwarding service for the subscriber interface
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
group-interface-name reference
  Synopsis Group interface name
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference
 

Reference

configure service vprn string subscriber-interface string group-interface string

 

Notes

This element is part of a list key.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the MLD interface
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
import-policy reference
  Synopsis Import policy to filter MLD packets
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-group-sources number
  Synopsis Maximum number of group sources for this interface
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference maximum-number-group-sources number
  Tree maximum-number-group-sources
 

Description

This command configures the maximum number of group sources for which IGMP or MLD can have local receiver information based on received IGMP or MLD reports on this interface. When this configuration is changed dynamically to a lower value than the currently accepted number of group sources, the group sources that are already accepted are not deleted. Only new group sources are not allowed.
  Range 1 to 32000
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-groups number
  Synopsis Maximum number of groups for this interface
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference maximum-number-groups number
  Tree maximum-number-groups
  Range 1 to 16000
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-sources number
  Synopsis Maximum number of sources that are allowed per group
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference maximum-number-sources number
  Tree maximum-number-sources
  Range 1 to 1000
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
mcac
  Synopsis Enter the mcac context
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference mcac
  Tree mcac
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
bandwidth
  Synopsis Enter the bandwidth context
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference mcac bandwidth
  Tree bandwidth
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
mandatory (number | keyword)
  Synopsis Pre-reserved bandwidth for all mandatory channels
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference mcac bandwidth mandatory (number | keyword)
  Tree mandatory
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
total (number | keyword)
  Synopsis Maximum allowed bandwidth
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference mcac bandwidth total (number | keyword)
  Tree total
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
interface-policy reference
  Synopsis Name of multicast CAC interface policy
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference mcac interface-policy reference
  Tree interface-policy
 

Reference

configure mcac interface-policy string

  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
policy reference
  Synopsis Multicast CAC policy name
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference mcac policy reference
  Tree policy
 

Description

This command configures the name of the global channel bandwidth definition policy that is used for (H)MCAC and HQoS adjustment.

Within the scope of HQoS adjustment, the channel definition policy under the group interface is used if redirection is unconfigured. In this case, the HQoS adjustment can be applied to IPoE subscribers in per-SAP replication mode.

If redirection is configured, the channel bandwidth definition policy applied under the Layer 3 redirected interface is in effect.

Hierarchical MCAC (HMCAC) is supported on two levels simultaneously:

  • subscriber level and redirected interface when redirection is configured

  • subscriber level and group-interface level when redirection is unconfigured

In HMCAC, the subscriber is checked against its bandwidth limits first, then against the bandwidth limits of the redirected or group interface. If redirection is configured but the policy is referenced only under the group interface, no admission control is executed (HMCAC or MCAC).
 

Reference

configure mcac policy string

  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-interval number
  Synopsis Time between two consecutive host-query messages
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference query-interval number
  Tree query-interval
  Range 2 to 1024
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-last-member-interval number
  Synopsis Time between group-specific query messages
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference query-last-member-interval number
  Tree query-last-member-interval
  Range 1 to 1023
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-response-interval number
  Synopsis Time to wait for a response to the host-query messages
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference query-response-interval number
  Tree query-response-interval
  Range 1 to 1023
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-source-address string
  Synopsis Source address for MLD queries
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference query-source-address string
  Tree query-source-address
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
router-alert-check boolean
  Synopsis Enable router alert checking for IGMP or MLD messages
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference router-alert-check boolean
  Tree router-alert-check
  Default true
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
sub-hosts-only boolean
  Synopsis Allow MLD traffic from known hosts only
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference sub-hosts-only boolean
  Tree sub-hosts-only
  Default true
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
subnet-check boolean
  Synopsis Enable subnet checking
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference subnet-check boolean
  Tree subnet-check
  Default true
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
version keyword
  Synopsis MLD protocol version
  Context configure router string mld forwarding-group-interface forwarding-service string group-interface-name reference version keyword
  Tree version
  Default 2
  Options 1, 2
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
group-if-query-source-address string
  Synopsis Source address in queries for group interfaces when not configured at group interface level
  Context configure router string mld group-if-query-source-address string
  Tree group-if-query-source-address
  Introduced 16.0.R1
 

Platforms

All
group-interface [group-interface-name] reference
  Synopsis Enter the group-interface list instance
  Context configure router string mld group-interface reference
  Tree group-interface
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[group-interface-name] reference
  Synopsis Group interface name
  Context configure router string mld group-interface reference
 

Reference

configure service ies string subscriber-interface string group-interface string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the MLD interface
  Context configure router string mld group-interface reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
import-policy reference
  Synopsis Import policy to filter MLD packets
  Context configure router string mld group-interface reference import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-group-sources number
  Synopsis Maximum number of group sources for this interface
  Context configure router string mld group-interface reference maximum-number-group-sources number
  Tree maximum-number-group-sources
 

Description

This command configures the maximum number of group sources for which IGMP or MLD can have local receiver information based on received IGMP or MLD reports on this interface. When this configuration is changed dynamically to a lower value than the currently accepted number of group sources, the group sources that are already accepted are not deleted. Only new group sources are not allowed.
  Range 1 to 32000
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-groups number
  Synopsis Maximum number of groups for this interface
  Context configure router string mld group-interface reference maximum-number-groups number
  Tree maximum-number-groups
  Range 1 to 16000
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
maximum-number-sources number
  Synopsis Maximum number of sources that are allowed per group
  Context configure router string mld group-interface reference maximum-number-sources number
  Tree maximum-number-sources
  Range 1 to 1000
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
mcac
  Synopsis Enter the mcac context
  Context configure router string mld group-interface reference mcac
  Tree mcac
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
bandwidth
  Synopsis Enter the bandwidth context
  Context configure router string mld group-interface reference mcac bandwidth
  Tree bandwidth
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
mandatory (number | keyword)
  Synopsis Pre-reserved bandwidth for all mandatory channels
  Context configure router string mld group-interface reference mcac bandwidth mandatory (number | keyword)
  Tree mandatory
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
total (number | keyword)
  Synopsis Maximum allowed bandwidth
  Context configure router string mld group-interface reference mcac bandwidth total (number | keyword)
  Tree total
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
interface-policy reference
  Synopsis Name of multicast CAC interface policy
  Context configure router string mld group-interface reference mcac interface-policy reference
  Tree interface-policy
 

Reference

configure mcac interface-policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
policy reference
  Synopsis Multicast CAC policy name
  Context configure router string mld group-interface reference mcac policy reference
  Tree policy
 

Description

This command configures the name of the global channel bandwidth definition policy that is used for (H)MCAC and HQoS adjustment.

Within the scope of HQoS adjustment, the channel definition policy under the group interface is used if redirection is unconfigured. In this case, the HQoS adjustment can be applied to IPoE subscribers in per-SAP replication mode.

If redirection is configured, the channel bandwidth definition policy applied under the Layer 3 redirected interface is in effect.

Hierarchical MCAC (HMCAC) is supported on two levels simultaneously:

  • subscriber level and redirected interface when redirection is configured

  • subscriber level and group-interface level when redirection is unconfigured

In HMCAC, the subscriber is checked against its bandwidth limits first, then against the bandwidth limits of the redirected or group interface. If redirection is configured but the policy is referenced only under the group interface, no admission control is executed (HMCAC or MCAC).
 

Reference

configure mcac policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-interval number
  Synopsis Time between two consecutive host-query messages
  Context configure router string mld group-interface reference query-interval number
  Tree query-interval
  Range 2 to 1024
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-last-member-interval number
  Synopsis Time between group-specific query messages
  Context configure router string mld group-interface reference query-last-member-interval number
  Tree query-last-member-interval
  Range 1 to 1023
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-response-interval number
  Synopsis Time to wait for a response to the host-query messages
  Context configure router string mld group-interface reference query-response-interval number
  Tree query-response-interval
  Range 1 to 1023
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
query-source-address string
  Synopsis Source address for MLD queries
  Context configure router string mld group-interface reference query-source-address string
  Tree query-source-address
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
router-alert-check boolean
  Synopsis Enable router alert checking for IGMP or MLD messages
  Context configure router string mld group-interface reference router-alert-check boolean
  Tree router-alert-check
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
sub-hosts-only boolean
  Synopsis Allow MLD traffic from known hosts only
  Context configure router string mld group-interface reference sub-hosts-only boolean
  Tree sub-hosts-only
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
subnet-check boolean
  Synopsis Enable subnet checking
  Context configure router string mld group-interface reference subnet-check boolean
  Tree subnet-check
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
version keyword
  Synopsis MLD protocol version
  Context configure router string mld group-interface reference version keyword
  Tree version
  Default 2
  Options 1, 2
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
interface [ip-interface-name] string
  Synopsis Enter the interface list instance
  Context configure router string mld interface string
  Tree interface
  Introduced 16.0.R1
 

Platforms

All
[ip-interface-name] string
  Synopsis IP interface name
  Context configure router string mld interface string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the MLD interface
  Context configure router string mld interface string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
import-policy reference
  Synopsis Import policy to filter MLD packets
  Context configure router string mld interface string import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Introduced 16.0.R1
 

Platforms

All
maximum-number-group-sources number
  Synopsis Maximum number of group sources for this interface
  Context configure router string mld interface string maximum-number-group-sources number
  Tree maximum-number-group-sources
 

Description

This command configures the maximum number of group sources for which IGMP or MLD can have local receiver information based on received IGMP or MLD reports on this interface. When this configuration is changed dynamically to a lower value than the currently accepted number of group sources, the group sources that are already accepted are not deleted. Only new group sources are not allowed.
  Range 1 to 32000
  Introduced 16.0.R1
 

Platforms

All
maximum-number-groups number
  Synopsis Maximum number of groups for this interface
  Context configure router string mld interface string maximum-number-groups number
  Tree maximum-number-groups
  Range 1 to 16000
  Introduced 16.0.R1
 

Platforms

All
maximum-number-sources number
  Synopsis Maximum number of sources that are allowed per group
  Context configure router string mld interface string maximum-number-sources number
  Tree maximum-number-sources
  Range 1 to 1000
  Introduced 16.0.R1
 

Platforms

All
mcac
  Synopsis Enter the mcac context
  Context configure router string mld interface string mcac
  Tree mcac
  Introduced 16.0.R1
 

Platforms

All
bandwidth
  Synopsis Enter the bandwidth context
  Context configure router string mld interface string mcac bandwidth
  Tree bandwidth
  Introduced 16.0.R1
 

Platforms

All
mandatory (number | keyword)
  Synopsis Pre-reserved bandwidth for all mandatory channels
  Context configure router string mld interface string mcac bandwidth mandatory (number | keyword)
  Tree mandatory
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 16.0.R1
 

Platforms

All
total (number | keyword)
  Synopsis Maximum allowed bandwidth
  Context configure router string mld interface string mcac bandwidth total (number | keyword)
  Tree total
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 16.0.R1
 

Platforms

All
interface-policy reference
  Synopsis Name of multicast CAC interface policy
  Context configure router string mld interface string mcac interface-policy reference
  Tree interface-policy
 

Reference

configure mcac interface-policy string

  Introduced 16.0.R1
 

Platforms

All
mc-constraints
  Synopsis Enter the mc-constraints context
  Context configure router string mld interface string mcac mc-constraints
  Tree mc-constraints
  Introduced 16.0.R1
 

Platforms

All
level [level-id] number
  Synopsis Enter the level list instance
  Context configure router string mld interface string mcac mc-constraints level number
  Tree level
  Introduced 16.0.R1
 

Platforms

All
[level-id] number
  Synopsis Bandwidth level ID for an MCAC constraint
  Context configure router string mld interface string mcac mc-constraints level number
  Range 1 to 8
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
bandwidth number
  Synopsis Bandwidth available for this level
  Context configure router string mld interface string mcac mc-constraints level number bandwidth number
  Tree bandwidth
  Range 0 to 2147483647
  Units kilobps
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
number-down [number-lag-port-down] number
  Synopsis Enter the number-down list instance
  Context configure router string mld interface string mcac mc-constraints number-down number
  Tree number-down
  Introduced 16.0.R1
 

Platforms

All
[number-lag-port-down] number
  Synopsis Number of ports that are down in this LAG link
  Context configure router string mld interface string mcac mc-constraints number-down number
  Range 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
level number
  Synopsis Level ID to associate with number of down LAG ports
  Context configure router string mld interface string mcac mc-constraints number-down number level number
  Tree level
 

Description

This command specifies the bandwidth for a given level. Level 1 has the highest priority and level 8 has the lowest priority.
  Range 1 to 8
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
use-lag-port-weight boolean
  Synopsis Use LAG port weight in calculating MCAC constraints
  Context configure router string mld interface string mcac mc-constraints use-lag-port-weight boolean
  Tree use-lag-port-weight
 

Description

When configured to true, port weight is used when determining available bandwidth per level when LAG ports go down or come up. This command is required for proper operation on mixed port-speed LAGs and can also be used for unmixed port-speed LAGs.
  Default false
  Introduced 16.0.R1
 

Platforms

All
policy reference
  Synopsis Multicast CAC policy name
  Context configure router string mld interface string mcac policy reference
  Tree policy
 

Description

This command configures the name of the global channel bandwidth definition policy that is used for (H)MCAC and HQoS adjustment.

Within the scope of HQoS adjustment, the channel definition policy under the group interface is used if redirection is unconfigured. In this case, the HQoS adjustment can be applied to IPoE subscribers in per-SAP replication mode.

If redirection is configured, the channel bandwidth definition policy applied under the Layer 3 redirected interface is in effect.

Hierarchical MCAC (HMCAC) is supported on two levels simultaneously:

  • subscriber level and redirected interface when redirection is configured

  • subscriber level and group-interface level when redirection is unconfigured

In HMCAC, the subscriber is checked against its bandwidth limits first, then against the bandwidth limits of the redirected or group interface. If redirection is configured but the policy is referenced only under the group interface, no admission control is executed (HMCAC or MCAC).
 

Reference

configure mcac policy string

  Introduced 16.0.R1
 

Platforms

All
query-interval number
  Synopsis Time between two consecutive host-query messages
  Context configure router string mld interface string query-interval number
  Tree query-interval
  Range 2 to 1024
  Introduced 16.0.R1
 

Platforms

All
query-last-member-interval number
  Synopsis Time between group-specific query messages
  Context configure router string mld interface string query-last-member-interval number
  Tree query-last-member-interval
  Range 1 to 1023
  Introduced 16.0.R1
 

Platforms

All
query-response-interval number
  Synopsis Time to wait for a response to the host-query messages
  Context configure router string mld interface string query-response-interval number
  Tree query-response-interval
  Range 1 to 1023
  Introduced 16.0.R1
 

Platforms

All
router-alert-check boolean
  Synopsis Enable router alert checking for IGMP or MLD messages
  Context configure router string mld interface string router-alert-check boolean
  Tree router-alert-check
  Default true
  Introduced 16.0.R1
 

Platforms

All
ssm-translate
  Synopsis Enter the ssm-translate context
  Context configure router string mld interface string ssm-translate
  Tree ssm-translate
  Introduced 16.0.R1
 

Platforms

All
group-range start string end string
  Synopsis Enter the group-range list instance
  Context configure router string mld interface string ssm-translate group-range start string end string
  Tree group-range
  Introduced 16.0.R1
 

Platforms

All
start string
  Synopsis Lower bound of the group range
  Context configure router string mld interface string ssm-translate group-range start string end string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
end string
  Synopsis Upper bound of the group range
  Context configure router string mld interface string ssm-translate group-range start string end string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
source [source-address] string
  Synopsis Add a list entry for source
  Context configure router string mld interface string ssm-translate group-range start string end string source string
  Tree source
  Min. Instances 1
  Introduced 16.0.R1
 

Platforms

All
[source-address] string
  Synopsis Source IP address
  Context configure router string mld interface string ssm-translate group-range start string end string source string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
static
  Synopsis Enter the static context
  Context configure router string mld interface string static
  Tree static
  Introduced 16.0.R1
 

Platforms

All
group [group-address] string
  Synopsis Enter the group list instance
  Context configure router string mld interface string static group string
  Tree group
  Introduced 16.0.R1
 

Platforms

All
[group-address] string
  Synopsis Group address of multicast channel
  Context configure router string mld interface string static group string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
source [source-address] string
  Synopsis Add a list entry for source
  Context configure router string mld interface string static group string source string
  Tree source
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R1
 

Platforms

All
[source-address] string
  Synopsis Source IP address
  Context configure router string mld interface string static group string source string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
starg
  Synopsis any source address (*,G)
  Context configure router string mld interface string static group string starg
  Tree starg
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R2
 

Platforms

All
group-range start string end string step string
  Synopsis Enter the group-range list instance
  Context configure router string mld interface string static group-range start string end string step string
  Tree group-range
  Introduced 16.0.R1
 

Platforms

All
start string
  Synopsis Lower bound of the static multicast group
  Context configure router string mld interface string static group-range start string end string step string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
end string
  Synopsis Upper bound of the static multicast group
  Context configure router string mld interface string static group-range start string end string step string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
step string
  Synopsis Step interval for the group-range addresses
  Context configure router string mld interface string static group-range start string end string step string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
source [source-address] string
  Synopsis Add a list entry for source
  Context configure router string mld interface string static group-range start string end string step string source string
  Tree source
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R1
 

Platforms

All
[source-address] string
  Synopsis Source IP address
  Context configure router string mld interface string static group-range start string end string step string source string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
starg
  Synopsis any source address (*,G)
  Context configure router string mld interface string static group-range start string end string step string starg
  Tree starg
 

Notes

The following elements are part of a mandatory choice: source or starg.
  Introduced 16.0.R2
 

Platforms

All
version keyword
  Synopsis MLD protocol version
  Context configure router string mld interface string version keyword
  Tree version
  Default 2
  Options 1, 2
  Introduced 16.0.R1
 

Platforms

All
query-interval number
  Synopsis Time between two consecutive host-query messages
  Context configure router string mld query-interval number
  Tree query-interval
  Range 2 to 1024
  Default 125
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
query-last-member-interval number
  Synopsis Time between group-specific query messages
  Context configure router string mld query-last-member-interval number
  Tree query-last-member-interval
  Range 1 to 1023
  Default 1
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
query-response-interval number
  Synopsis Time to wait for a response to the host-query messages
  Context configure router string mld query-response-interval number
  Tree query-response-interval
  Range 1 to 1023
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
robust-count number
  Synopsis Number of retries after expected message loss
  Context configure router string mld robust-count number
  Tree robust-count
  Range 2 to 10
  Default 2
  Introduced 16.0.R1
 

Platforms

All
ssm-translate
  Synopsis Enter the ssm-translate context
  Context configure router string mld ssm-translate
  Tree ssm-translate
  Introduced 16.0.R1
 

Platforms

All
group-range start string end string
  Synopsis Enter the group-range list instance
  Context configure router string mld ssm-translate group-range start string end string
  Tree group-range
  Introduced 16.0.R1
 

Platforms

All
start string
  Synopsis Lower bound of the group range
  Context configure router string mld ssm-translate group-range start string end string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
end string
  Synopsis Upper bound of the group range
  Context configure router string mld ssm-translate group-range start string end string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
source [source-address] string
  Synopsis Add a list entry for source
  Context configure router string mld ssm-translate group-range start string end string source string
  Tree source
  Min. Instances 1
  Introduced 16.0.R1
 

Platforms

All
[source-address] string
  Synopsis Source IP address
  Context configure router string mld ssm-translate group-range start string end string source string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All

mpls

  Synopsis Enable the mpls context
  Context configure router string mpls
  Tree mpls
  Introduced 16.0.R1
 

Platforms

All
admin-group-frr boolean
  Synopsis Use admin group constraints for FRR path computation
  Context configure router string mpls admin-group-frr boolean
  Tree admin-group-frr
  Default false
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the MPLS instance
  Context configure router string mpls admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
auto-bandwidth-multipliers
  Synopsis Enter the auto-bandwidth-multipliers context
  Context configure router string mpls auto-bandwidth-multipliers
  Tree auto-bandwidth-multipliers
  Introduced 16.0.R1
 

Platforms

All
adjust-multiplier number
  Synopsis Collection intervals in a sample interval
  Context configure router string mpls auto-bandwidth-multipliers adjust-multiplier number
  Tree adjust-multiplier
  Range 1 to 16383
  Default 288
  Introduced 16.0.R1
 

Platforms

All
sample-multiplier number
  Synopsis Collection intervals in a sample interval
  Context configure router string mpls auto-bandwidth-multipliers sample-multiplier number
  Tree sample-multiplier
  Range 1 to 511
  Default 1
  Introduced 16.0.R1
 

Platforms

All
auto-lsp [template-name] reference
  Synopsis Enter the auto-lsp list instance
  Context configure router string mpls auto-lsp reference
  Tree auto-lsp
  Max. Instances 500
  Introduced 16.0.R1
 

Platforms

All
[template-name] reference
  Synopsis LSP template name
  Context configure router string mpls auto-lsp reference
 

Reference

configure router string mpls lsp-template string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
one-hop boolean
  Synopsis Enable the automatic signaling of one-hop point-to-point LSPs
  Context configure router string mpls auto-lsp reference one-hop boolean
  Tree one-hop
  Default false
 

Notes

The following elements are part of a choice: one-hop or policy.
  Introduced 16.0.R1
 

Platforms

All
policy reference
  Synopsis Peer prefix policy name
  Context configure router string mpls auto-lsp reference policy reference
  Tree policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

The following elements are part of a choice: one-hop or policy.

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
aux-stats
  Synopsis Enable the aux-stats context
  Context configure router string mpls aux-stats
  Tree aux-stats
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
sr boolean
  Synopsis Count Segment Routing (SR) traffic in the auxiliary MPLS statistics table
  Context configure router string mpls aux-stats sr boolean
  Tree sr
  Default false
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
bypass-resignal-timer number
  Synopsis Resignal timer for bypass
  Context configure router string mpls bypass-resignal-timer number
  Tree bypass-resignal-timer
  Range 1 to 10080
  Units minutes
  Introduced 16.0.R1
 

Platforms

All
class-forwarding-policy [policy-name] string
  Synopsis Enter the class-forwarding-policy list instance
  Context configure router string mpls class-forwarding-policy string
  Tree class-forwarding-policy
  Max. Instances 15
  Introduced 16.0.R1
 

Platforms

All
[policy-name] string
  Synopsis Name of class forwarding policy
  Context configure router string mpls class-forwarding-policy string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
default-set number
  Synopsis Default forwarding set ID
  Context configure router string mpls class-forwarding-policy string default-set number
  Tree default-set
  Range 1 to 6
  Default 1
  Introduced 16.0.R1
 

Platforms

All
fc [fc-name] keyword
  Synopsis Enter the fc list instance
  Context configure router string mpls class-forwarding-policy string fc keyword
  Tree fc
  Introduced 16.0.R1
 

Platforms

All
[fc-name] keyword
  Synopsis Forwarding class name for LSP
  Context configure router string mpls class-forwarding-policy string fc keyword
  Options be, l2, af, l1, h2, ef, h1, nc
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
forwarding-set number
  Synopsis Forwarding set ID for forwarding classes
  Context configure router string mpls class-forwarding-policy string fc keyword forwarding-set number
  Tree forwarding-set
  Range 1 to 6
  Default 1
  Introduced 16.0.R1
 

Platforms

All
cspf-on-loose-hop boolean
  Synopsis Calculate CSPF until next loose hop on LSR
  Context configure router string mpls cspf-on-loose-hop boolean
  Tree cspf-on-loose-hop
  Default false
  Introduced 16.0.R1
 

Platforms

All
dynamic-bypass boolean
  Synopsis Create dynamic bypass LSPs in FRR
  Context configure router string mpls dynamic-bypass boolean
  Tree dynamic-bypass
  Default true
  Introduced 16.0.R1
 

Platforms

All
entropy-label
  Synopsis Enter the entropy-label context
  Context configure router string mpls entropy-label
  Tree entropy-label
  Introduced 16.0.R1
 

Platforms

All
rsvp-te boolean
  Synopsis Apply entropy labels to RSVP-TE LSPs
  Context configure router string mpls entropy-label rsvp-te boolean
  Tree rsvp-te
  Introduced 16.0.R1
 

Platforms

All
sr-te boolean
  Synopsis Apply entropy labels to SR-TE LSPs
  Context configure router string mpls entropy-label sr-te boolean
  Tree sr-te
  Introduced 16.0.R1
 

Platforms

All
exponential-backoff-retry boolean
  Synopsis Use exponential back-off timer when retrying an LSP
  Context configure router string mpls exponential-backoff-retry boolean
  Tree exponential-backoff-retry
  Default false
  Introduced 16.0.R1
 

Platforms

All
forwarding-policies
  Synopsis Enable the forwarding-policies context
  Context configure router string mpls forwarding-policies
  Tree forwarding-policies
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of MPLS forwarding policies
  Context configure router string mpls forwarding-policies admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
forwarding-policy [policy-name] string
  Synopsis Enter the forwarding-policy list instance
  Context configure router string mpls forwarding-policies forwarding-policy string
  Tree forwarding-policy
  Max. Instances 65536
  Introduced 16.0.R1
 

Platforms

All
[policy-name] string
  Synopsis Forwarding policy name
  Context configure router string mpls forwarding-policies forwarding-policy string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the MPLS forwarding policy
  Context configure router string mpls forwarding-policies forwarding-policy string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
binding-label number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Binding label
  Context configure router string mpls forwarding-policies forwarding-policy string binding-label number
  Tree binding-label
  Range 32 to 1048575
  Introduced 16.0.R1
 

Platforms

All
egress-statistics
  Synopsis Enable the egress-statistics context
  Context configure router string mpls forwarding-policies forwarding-policy string egress-statistics
  Tree egress-statistics
  Introduced 19.7.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of egress or ingress statistics
  Context configure router string mpls forwarding-policies forwarding-policy string egress-statistics admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 19.7.R1
 

Platforms

All
endpoint (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Configure endpoint address.
  Context configure router string mpls forwarding-policies forwarding-policy string endpoint (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree endpoint
  Introduced 16.0.R4
 

Platforms

All
ingress-statistics
  Synopsis Enable the ingress-statistics context
  Context configure router string mpls forwarding-policies forwarding-policy string ingress-statistics
  Tree ingress-statistics
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of egress or ingress statistics
  Context configure router string mpls forwarding-policies forwarding-policy string ingress-statistics admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
metric number
  Synopsis Metric of an MPLS forwarding policy
  Context configure router string mpls forwarding-policies forwarding-policy string metric number
  Tree metric
  Range 1 to 16777215
  Introduced 16.0.R4
 

Platforms

All
next-hop-group [index] number
  Synopsis Enter the next-hop-group list instance
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number
  Tree next-hop-group
  Max. Instances 32
  Introduced 16.0.R1
 

Platforms

All
[index] number
  Synopsis Index for next hop group
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number
  Range 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of NHG in MPLS forwarding policy
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
backup-next-hop
  Synopsis Enable the backup-next-hop context
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number backup-next-hop
  Tree backup-next-hop
  Introduced 16.0.R1
 

Platforms

All
next-hop (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Next hop address
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number backup-next-hop next-hop (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree next-hop
  Introduced 16.0.R1
 

Platforms

All
pushed-labels [index] number
  Synopsis Enter the pushed-labels list instance
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number backup-next-hop pushed-labels number
  Tree pushed-labels
  Max. Instances 10
  Introduced 16.0.R4
 

Platforms

All
[index] number
  Synopsis Index for push label
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number backup-next-hop pushed-labels number
  Range 1 to 10
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
label number
  Synopsis Label value
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number backup-next-hop pushed-labels number label number
  Tree label
  Range 1 to 1048575
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
load-balancing-weight number
  Synopsis Load balancing weight of an NHG entry
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number load-balancing-weight number
  Tree load-balancing-weight
  Range 1 to 4294967295
  Introduced 16.0.R4
 

Platforms

All
primary-next-hop
  Synopsis Enable the primary-next-hop context
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number primary-next-hop
  Tree primary-next-hop
  Introduced 16.0.R1
 

Platforms

All
next-hop (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Next hop address
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number primary-next-hop next-hop (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree next-hop
  Introduced 16.0.R1
 

Platforms

All
pushed-labels [index] number
  Synopsis Enter the pushed-labels list instance
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number primary-next-hop pushed-labels number
  Tree pushed-labels
  Max. Instances 10
  Introduced 16.0.R4
 

Platforms

All
[index] number
  Synopsis Index for push label
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number primary-next-hop pushed-labels number
  Range 1 to 10
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
label number
  Synopsis Label value
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number primary-next-hop pushed-labels number label number
  Tree label
  Range 1 to 1048575
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
resolution-type keyword
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Resolution type for next hop group
  Context configure router string mpls forwarding-policies forwarding-policy string next-hop-group number resolution-type keyword
  Tree resolution-type
  Options direct, indirect
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
preference number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Preference number
  Context configure router string mpls forwarding-policies forwarding-policy string preference number
  Tree preference
  Range 1 to 255
  Default 255
  Introduced 16.0.R1
 

Platforms

All
revert-timer number
  Synopsis Revert timer
  Context configure router string mpls forwarding-policies forwarding-policy string revert-timer number
  Tree revert-timer
  Range 1 to 600
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
tunnel-table-pref number
  Synopsis Tunnel table preference
  Context configure router string mpls forwarding-policies forwarding-policy string tunnel-table-pref number
  Tree tunnel-table-pref
 

Description

This command configures the TTM preference value of an MPLS forwarding policy.

The preference-value parameter is used by applications to select one tunnel type to bind to in TTM when multiple tunnel types are enabled for the application.

It is recommended to not set two or more tunnel types to the same preference value. In such a situation, the tunnel table prefers the tunnel type which was first introduced in SR OS implementation historically.
  Range 1 to 255
  Default 255
  Introduced 16.0.R4
 

Platforms

All
reserved-label-block reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Reserved label block
  Context configure router string mpls forwarding-policies reserved-label-block reference
  Tree reserved-label-block
 

Reference

configure router string mpls-labels reserved-label-block string

  Introduced 16.0.R1
 

Platforms

All
frr-object boolean
  Synopsis Signal with fast reroute object
  Context configure router string mpls frr-object boolean
  Tree frr-object
  Default true
  Introduced 16.0.R1
 

Platforms

All
hold-timer number
  Synopsis Hold timer value
  Context configure router string mpls hold-timer number
  Tree hold-timer
  Range 0 to 1000
  Default 1
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
ingress-statistics
  Synopsis Enter the ingress-statistics context
  Context configure router string mpls ingress-statistics
  Tree ingress-statistics
  Introduced 16.0.R1
 

Platforms

All
lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) lsp-name string
  Synopsis Enter the lsp list instance
  Context configure router string mpls ingress-statistics lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) lsp-name string
  Tree lsp
  Introduced 16.0.R1
 

Platforms

All
sender (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Sender address
  Context configure router string mpls ingress-statistics lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) lsp-name string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
lsp-name string
  Synopsis LSP name
  Context configure router string mpls ingress-statistics lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) lsp-name string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
accounting-policy reference
  Synopsis Accounting policy ID
  Context configure router string mpls ingress-statistics lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) lsp-name string accounting-policy reference
  Tree accounting-policy
 

Reference

configure log accounting-policy number

  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of statistics for the LSP
  Context configure router string mpls ingress-statistics lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) lsp-name string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
collect-stats boolean
  Synopsis Collect statistics
  Context configure router string mpls ingress-statistics lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) lsp-name string collect-stats boolean
  Tree collect-stats
  Default false
  Introduced 16.0.R1
 

Platforms

All
stat-mode keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Stat mode
  Context configure router string mpls ingress-statistics lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) lsp-name string stat-mode keyword
  Tree stat-mode
  Options per-fc, aggregate
  Introduced 21.10.R1
 

Platforms

All
p2mp-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string
  Synopsis Enter the p2mp-template-lsp list instance
  Context configure router string mpls ingress-statistics p2mp-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string
  Tree p2mp-template-lsp
  Introduced 16.0.R1
 

Platforms

All
sender (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Sender address
  Context configure router string mpls ingress-statistics p2mp-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
rsvp-session-name string
  Synopsis RSVP session name
  Context configure router string mpls ingress-statistics p2mp-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
accounting-policy reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Accounting policy ID
  Context configure router string mpls ingress-statistics p2mp-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string accounting-policy reference
  Tree accounting-policy
 

Reference

configure log accounting-policy number

  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of statistics for the LSP
  Context configure router string mpls ingress-statistics p2mp-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
collect-stats boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Collect statistics
  Context configure router string mpls ingress-statistics p2mp-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string collect-stats boolean
  Tree collect-stats
  Default false
  Introduced 16.0.R1
 

Platforms

All
max-stats number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum number of statistic indices
  Context configure router string mpls ingress-statistics p2mp-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string max-stats number
  Tree max-stats
  Range 1 to 8191
  Default 8191
  Introduced 16.0.R1
 

Platforms

All
stat-mode keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Stat mode
  Context configure router string mpls ingress-statistics p2mp-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string stat-mode keyword
  Tree stat-mode
  Options per-fc, aggregate
  Introduced 21.10.R1
 

Platforms

All
p2p-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string
  Synopsis Enter the p2p-template-lsp list instance
  Context configure router string mpls ingress-statistics p2p-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string
  Tree p2p-template-lsp
  Introduced 16.0.R1
 

Platforms

All
sender (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Sender address
  Context configure router string mpls ingress-statistics p2p-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
rsvp-session-name string
  Synopsis RSVP session name
  Context configure router string mpls ingress-statistics p2p-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
accounting-policy reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Accounting policy ID
  Context configure router string mpls ingress-statistics p2p-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string accounting-policy reference
  Tree accounting-policy
 

Reference

configure log accounting-policy number

  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of statistics for the LSP
  Context configure router string mpls ingress-statistics p2p-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
collect-stats boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Collect statistics
  Context configure router string mpls ingress-statistics p2p-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string collect-stats boolean
  Tree collect-stats
  Default false
  Introduced 16.0.R1
 

Platforms

All
max-stats number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum number of statistic indices
  Context configure router string mpls ingress-statistics p2p-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string max-stats number
  Tree max-stats
  Range 1 to 8191
  Default 8191
  Introduced 16.0.R1
 

Platforms

All
stat-mode keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Stat mode
  Context configure router string mpls ingress-statistics p2p-template-lsp sender (ipv4-address-no-zone | ipv6-address-no-zone) rsvp-session-name string stat-mode keyword
  Tree stat-mode
  Options per-fc, aggregate
  Introduced 21.10.R1
 

Platforms

All
interface [interface-name] reference
  Synopsis Enter the interface list instance
  Context configure router string mpls interface reference
  Tree interface
 

Description

Commands in this context configure the attributes for MPLS protocol support on an IP interface. 

MPLS commands are not executed on an IP interface where MPLS is not enabled. An MPLS interface must be explicitly enabled (admin-state enabled).

The MPLS interface must be admin-state disabled to delete the interface definition.

A corresponding RSVP interface must also be configured. The MPLS interface cannot be deleted without also deleting the RSVP interface.
  Introduced 16.0.R1
 

Platforms

All
[interface-name] reference
  Synopsis Router interface name
  Context configure router string mpls interface reference
 

Reference

configure router string interface string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-group reference
  Synopsis Administrative groups supported by the interface
  Context configure router string mpls interface reference admin-group reference
  Tree admin-group
 

Description

This command specifies the administrative groups that the interface supports.

This information is advertised as part of OSPF and IS-IS to help CSPF compute constrained LSPs that must include or exclude certain administrative groups. An MPLS interface is assumed to belong to all the administrative groups unless this command is issued under the interface configuration. With this command configured, the interface is assumed to belong to only the groups specifically configured in this command.

Only the administrative groups bound to an MPLS interface are advertised in TE link TLVs and sub-TLVs when the traffic-engineering option is enabled in IS-IS or OSPF. IES and VPRN interfaces do not have their attributes advertised in TE TLVs.
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the MPLS interface
  Context configure router string mpls interface reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
label-map [in-label] number
  Synopsis Enter the label-map list instance
  Context configure router string mpls interface reference label-map number
  Tree label-map
  Introduced 16.0.R1
 

Platforms

All
[in-label] number
  Synopsis Match the incoming MPLS label
  Context configure router string mpls interface reference label-map number
  Range 32 to 1048575
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the label map
  Context configure router string mpls interface reference label-map number admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
pop
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Pop (remove) the incoming label and forward packet based on service header
  Context configure router string mpls interface reference label-map number pop
  Tree pop
 

Notes

The following elements are part of a choice: pop or swap.
  Introduced 16.0.R1
 

Platforms

All
swap
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the swap context
  Context configure router string mpls interface reference label-map number swap
  Tree swap
 

Notes

The following elements are part of a choice: pop or swap.
  Introduced 16.0.R1
 

Platforms

All
next-hop string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis IP address for the next hop
  Context configure router string mpls interface reference label-map number swap next-hop string
  Tree next-hop
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
out-label (number | keyword)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Push specific label onto the top of the outgoing packet's label stack
  Context configure router string mpls interface reference label-map number swap out-label (number | keyword)
  Tree out-label
  Range 16 to 1048575
  Options implicit-null-label
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
srlg-group [name] reference
  Synopsis Add a list entry for srlg-group
  Context configure router string mpls interface reference srlg-group reference
  Tree srlg-group
  Max. Instances 64
  Introduced 16.0.R1
 

Platforms

All
[name] reference
  Synopsis Shared Risk Link Group (SRLG) name
  Context configure router string mpls interface reference srlg-group reference
 

Reference

configure routing-options if-attribute srlg-group string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
te-metric number
  Synopsis TE metric for the interface
  Context configure router string mpls interface reference te-metric number
  Tree te-metric
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
least-fill-min-thd number
  Synopsis Percentage of the least fill minimum threshold value
  Context configure router string mpls least-fill-min-thd number
  Tree least-fill-min-thd
  Range 0 to 100
  Default 5
  Units percent
  Introduced 16.0.R1
 

Platforms

All
least-fill-reoptim-thd number
  Synopsis Percentage of the least fill reoptimization threshold value
  Context configure router string mpls least-fill-reoptim-thd number
  Tree least-fill-reoptim-thd
  Range 0 to 100
  Default 10
  Units percent
  Introduced 16.0.R1
 

Platforms

All
logger-event-bundling boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Merge and bundle MPLS traps
  Context configure router string mpls logger-event-bundling boolean
  Tree logger-event-bundling
  Default false
  Introduced 16.0.R1
 

Platforms

All
lsp [lsp-name] string
  Synopsis Enter the lsp list instance
  Context configure router string mpls lsp string
  Tree lsp
  Introduced 16.0.R1
 

Platforms

All
[lsp-name] string
  Synopsis Labeled Switch path name
  Context configure router string mpls lsp string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
adaptive boolean
  Synopsis Enable make-before-break functionality
  Context configure router string mpls lsp string adaptive boolean
  Tree adaptive
  Default true
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LSP
  Context configure router string mpls lsp string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
admin-tag [name] reference
  Synopsis Add a list entry for admin-tag
  Context configure router string mpls lsp string admin-tag reference
  Tree admin-tag
  Max. Instances 4
  Introduced 16.0.R1
 

Platforms

All
[name] reference
  Synopsis Name of the admin tags
  Context configure router string mpls lsp string admin-tag reference
 

Reference

configure routing-options admin-tags admin-tag string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
adspec boolean
  Synopsis Include ADSPEC object in RSVP messages
  Context configure router string mpls lsp string adspec boolean
  Tree adspec
  Default false
  Introduced 16.0.R1
 

Platforms

All
auto-bandwidth
  Synopsis Enable the auto-bandwidth context
  Context configure router string mpls lsp string auto-bandwidth
  Tree auto-bandwidth
  Introduced 16.0.R1
 

Platforms

All
adjust-down
  Synopsis Enter the adjust-down context
  Context configure router string mpls lsp string auto-bandwidth adjust-down
  Tree adjust-down
  Introduced 16.0.R1
 

Platforms

All
bw number
  Synopsis Minimum difference in absolute bandwidth
  Context configure router string mpls lsp string auto-bandwidth adjust-down bw number
  Tree bw
  Range 0 to 6400000
  Default 0
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
percent number
  Synopsis Minimum difference in percent
  Context configure router string mpls lsp string auto-bandwidth adjust-down percent number
  Tree percent
  Range 0 to 100
  Default 5
  Units percent
  Introduced 16.0.R1
 

Platforms

All
adjust-up
  Synopsis Enter the adjust-up context
  Context configure router string mpls lsp string auto-bandwidth adjust-up
  Tree adjust-up
  Introduced 16.0.R1
 

Platforms

All
bw number
  Synopsis Minimum difference in absolute bandwidth
  Context configure router string mpls lsp string auto-bandwidth adjust-up bw number
  Tree bw
  Range 0 to 6400000
  Default 0
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
percent number
  Synopsis Minimum difference in percent
  Context configure router string mpls lsp string auto-bandwidth adjust-up percent number
  Tree percent
  Range 0 to 100
  Default 5
  Units percent
  Introduced 16.0.R1
 

Platforms

All
fc [fc-name] keyword
  Synopsis Enter the fc list instance
  Context configure router string mpls lsp string auto-bandwidth fc keyword
  Tree fc
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

All
[fc-name] keyword
  Synopsis Forwarding class name for LSP
  Context configure router string mpls lsp string auto-bandwidth fc keyword
  Options be, l2, af, l1, h2, ef, h1, nc
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
sampling-weight number
  Synopsis Forwarding class weight for LSP
  Context configure router string mpls lsp string auto-bandwidth fc keyword sampling-weight number
  Tree sampling-weight
  Range 0 to 100
  Default 100
  Units percent
  Introduced 16.0.R1
 

Platforms

All
max-bandwidth number
  Synopsis Maximum bandwidth of auto-bandwidth to request for the LSP
  Context configure router string mpls lsp string auto-bandwidth max-bandwidth number
  Tree max-bandwidth
  Range 0 to 6400000
  Default 100000
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
min-bandwidth number
  Synopsis Minimum bandwidth of auto-bandwidth to request for the LSP
  Context configure router string mpls lsp string auto-bandwidth min-bandwidth number
  Tree min-bandwidth
  Range 0 to 6400000
  Default 0
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
monitor-bandwidth boolean
  Synopsis Collect and display auto-bandwidth measurements for the LSP
  Context configure router string mpls lsp string auto-bandwidth monitor-bandwidth boolean
  Tree monitor-bandwidth
  Default false
  Introduced 16.0.R1
 

Platforms

All
multipliers
  Synopsis Enter the multipliers context
  Context configure router string mpls lsp string auto-bandwidth multipliers
  Tree multipliers
  Introduced 16.0.R1
 

Platforms

All
adjust-multiplier number
  Synopsis Number of collection intervals in the adjust interval
  Context configure router string mpls lsp string auto-bandwidth multipliers adjust-multiplier number
  Tree adjust-multiplier
  Range 1 to 16383
  Introduced 16.0.R1
 

Platforms

All
sample-multiplier number
  Synopsis Multiplier for collection intervals in a sample interval
  Context configure router string mpls lsp string auto-bandwidth multipliers sample-multiplier number
  Tree sample-multiplier
  Range 1 to 511
  Introduced 16.0.R1
 

Platforms

All
overflow-limit
  Synopsis Enable the overflow-limit context
  Context configure router string mpls lsp string auto-bandwidth overflow-limit
  Tree overflow-limit
  Introduced 16.0.R1
 

Platforms

All
bw number
  Synopsis Minimum difference in absolute bandwidth
  Context configure router string mpls lsp string auto-bandwidth overflow-limit bw number
  Tree bw
  Range 1 to 6400000
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Number of overflow samples to trigger an overflow auto-bandwidth adjustment attempt
  Context configure router string mpls lsp string auto-bandwidth overflow-limit number number
  Tree number
  Range 1 to 10
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
threshold number
  Synopsis Minimum difference in percent between the LSP bandwidth and the sampled data rate
  Context configure router string mpls lsp string auto-bandwidth overflow-limit threshold number
  Tree threshold
  Range 0 to 100
  Default 0
  Units percent
  Introduced 16.0.R1
 

Platforms

All
underflow-limit
  Synopsis Enable the underflow-limit context
  Context configure router string mpls lsp string auto-bandwidth underflow-limit
  Tree underflow-limit
  Introduced 16.0.R1
 

Platforms

All
bw number
  Synopsis Minimum difference in absolute bandwidth
  Context configure router string mpls lsp string auto-bandwidth underflow-limit bw number
  Tree bw
  Range 1 to 6400000
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Number of overflow samples to trigger an overflow auto-bandwidth adjustment attempt
  Context configure router string mpls lsp string auto-bandwidth underflow-limit number number
  Tree number
  Range 1 to 10
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
threshold number
  Synopsis Minimum difference in percent between the LSP bandwidth and the sampled data rate
  Context configure router string mpls lsp string auto-bandwidth underflow-limit threshold number
  Tree threshold
  Range 0 to 100
  Default 0
  Units percent
  Introduced 16.0.R1
 

Platforms

All
use-last-adj-bw
  Synopsis Enable the use-last-adj-bw context
  Context configure router string mpls lsp string auto-bandwidth use-last-adj-bw
  Tree use-last-adj-bw
  Introduced 16.0.R5
 

Platforms

All
secondary-retry-limit (number | keyword)
  Synopsis Maximum number of retry limits for secondary paths
  Context configure router string mpls lsp string auto-bandwidth use-last-adj-bw secondary-retry-limit (number | keyword)
  Tree secondary-retry-limit
 

Description

This command configures the maximum number of retry attempts for secondary paths. After each successful attempt, the counter is reset to zero.

  Range 1 to 10000
  Default 5
  Options infinite
  Introduced 16.0.R5
 

Platforms

All
bfd
  Synopsis Enter the bfd context
  Context configure router string mpls lsp string bfd
  Tree bfd
 

Description

Commands in this context configure BFD on RSVP LSPs or Seamless BFD on SR-TE LSPs. 
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD on the RSVP LSP or S-BFD on the SR-TE LSP
  Context configure router string mpls lsp string bfd bfd-liveness boolean
  Tree bfd-liveness
  Default false
  Introduced 16.0.R1
 

Platforms

All
bfd-template reference
  Synopsis BFD template to be used by LSP BFD sessions
  Context configure router string mpls lsp string bfd bfd-template reference
  Tree bfd-template
 

Reference

configure bfd bfd-template string

  Introduced 16.0.R1
 

Platforms

All
failure-action keyword
  Synopsis Action when LSP BFD fails on the RSVP SR-TE LSP
  Context configure router string mpls lsp string bfd failure-action keyword
  Tree failure-action
 

Description

The command specifies the action when LSP BFD fails on an RSVP, SR-TE, or LDP LSP.

Regardless of the failure action specified, when the BFD session goes down on the LSP, the system generates an SNMP trap.
  Default none
  Options none, down, failover, failover-or-down
  Introduced 16.0.R1
 

Platforms

All
lsp-ping-interval (number | keyword)
  Synopsis Interval for periodic LSP ping for BFD bootstrapping
  Context configure router string mpls lsp string bfd lsp-ping-interval (number | keyword)
  Tree lsp-ping-interval
  Range 60 to 300
  Default 60
  Units seconds
  Options none
  Introduced 16.0.R1
 

Platforms

All
return-path-label number
  Synopsis S-BFD return path label
  Context configure router string mpls lsp string bfd return-path-label number
  Tree return-path-label
 

Description

This command configures the S-BFD session to echo mode and adds an additional MPLS label to the bottom of the label stack for the S-BFD packet. 

The command applies to the initiator of the S-BFD sessions. The return path label may be a binding SID for an SR policy or other MPLS path configured on the reflector router. Instead of being routed through the IGP path, the S-BFD packet returns to the initiator through this MPLS return path. 

If the command is deleted, S-BFD returns to asynchronous mode and no return path label is pushed by the initiator node. Any S-BFD packets for this LSP or path that the reflector receives are routed through the IGP path.
  Range 32 to 1048512
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
wait-for-up-timer number
  Synopsis Time to wait for BFD to become operationally available
  Context configure router string mpls lsp string bfd wait-for-up-timer number
  Tree wait-for-up-timer
 

Description

This command configures the time to wait for BFD to become operationally up. The timer is applicable to SR-TE LSPs, including auto LSPs and PCE-initiated LSPS, as well RSVP-TE LSPs.

For SR-TE LSPs, the timer takes effect when BFD is first enabled on a path or when BFD transitions from up to down. Upon expiration, if BFD is not up, the path is torn down, removed from the TTM and the IOM, and the system starts the retry timer.

For RSVP-TE LSPs, the timer controls the following:

  • a path undergoing MBB when BFD is up

  • the initial administrative state of the LSP

  • the retry signaling of non-standby secondary paths
  Range 1 to 60
  Default 4
  Units seconds
  Introduced 19.7.R1
 

Platforms

All
bgp-shortcut boolean
  Synopsis Include LSP for BGP routes
  Context configure router string mpls lsp string bgp-shortcut boolean
  Tree bgp-shortcut
  Introduced 16.0.R1
 

Platforms

All
bgp-transport-tunnel boolean
  Synopsis Include LSP as transport LSP for labeled BGP routes
  Context configure router string mpls lsp string bgp-transport-tunnel boolean
  Tree bgp-transport-tunnel
  Introduced 16.0.R1
 

Platforms

All
class-forwarding
  Synopsis Enable the class-forwarding context
  Context configure router string mpls lsp string class-forwarding
  Tree class-forwarding
  Introduced 16.0.R1
 

Platforms

All
forwarding-set
  Synopsis Enter the forwarding-set context
  Context configure router string mpls lsp string class-forwarding forwarding-set
  Tree forwarding-set
 

Notes

The following elements are part of a choice: (default-lsp and fc) or forwarding-set.
  Introduced 16.0.R1
 

Platforms

All
policy reference
  Synopsis Name for the class based forwarding policy for LSP instances
  Context configure router string mpls lsp string class-forwarding forwarding-set policy reference
  Tree policy
 

Reference

configure router string mpls class-forwarding-policy string

  Introduced 16.0.R1
 

Platforms

All
set number
  Synopsis Forwarding set ID
  Context configure router string mpls lsp string class-forwarding forwarding-set set number
  Tree set
  Range 1 to 6
  Introduced 16.0.R1
 

Platforms

All
class-type number
  Synopsis Class type for an LSP
  Context configure router string mpls lsp string class-type number
  Tree class-type
  Range 0 to 7
  Default 0
  Introduced 16.0.R1
 

Platforms

All
egress-statistics
  Synopsis Enable the egress-statistics context
  Context configure router string mpls lsp string egress-statistics
  Tree egress-statistics
  Introduced 16.0.R1
 

Platforms

All
accounting-policy reference
  Synopsis Accounting policy ID
  Context configure router string mpls lsp string egress-statistics accounting-policy reference
  Tree accounting-policy
 

Reference

configure log accounting-policy number

  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of statistics for the LSP
  Context configure router string mpls lsp string egress-statistics admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
collect-stats boolean
  Synopsis Collect LSP statistics
  Context configure router string mpls lsp string egress-statistics collect-stats boolean
  Tree collect-stats
 

Description

When configured to true, this command enables LSP statistics collection. When you apply accounting policies, the forwarding engine collects data in the appropriate records and by default the CPU obtains and writes the results to the designated billing file.

When configured to false, the forwarding engine still accumulates statistics. However, the CPU does not write them to the billing file. If you subsequently re-enable this command, the counters written to the billing file include all the traffic collected while the command was disabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
stat-mode keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Statistics collection mode
  Context configure router string mpls lsp string egress-statistics stat-mode keyword
  Tree stat-mode
  Options per-fc, aggregate
  Introduced 21.10.R1
 

Platforms

All
entropy-label keyword
  Synopsis Entropy label
  Context configure router string mpls lsp string entropy-label keyword
  Tree entropy-label
  Options false, true
  Introduced 16.0.R1
 

Platforms

All
exclude-admin-group reference
  Synopsis Name of admin group excluded when LSP is set up
  Context configure router string mpls lsp string exclude-admin-group reference
  Tree exclude-admin-group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Introduced 16.0.R1
 

Platforms

All
exclude-node (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Exclude Routers object to be included in the bypass path message
  Context configure router string mpls lsp string exclude-node (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree exclude-node
  Introduced 16.0.R1
 

Platforms

All
fallback-path-computation-method keyword
  Synopsis Fallback path computation method
  Context configure router string mpls lsp string fallback-path-computation-method keyword
  Tree fallback-path-computation-method
 

Description

This command specifies the fallback path computation method used if all configured PCEs are down or are signaling overload and the redelegation timer has expired. This method is used regardless of whether the LSP is PCE-controlled and PCE-computed, or only PCE-computed.
  Options none, local-cspf
  Introduced 21.2.R1
 

Platforms

All
fast-reroute
  Synopsis Enable the fast-reroute context
  Context configure router string mpls lsp string fast-reroute
  Tree fast-reroute
  Introduced 16.0.R1
 

Platforms

All
frr-method keyword
  Synopsis Fast Reroute method
  Context configure router string mpls lsp string fast-reroute frr-method keyword
  Tree frr-method
  Options one-to-one, facility
  Introduced 16.0.R1
 

Platforms

All
hop-limit number
  Synopsis Total number of hops a detour or backup LSP can take
  Context configure router string mpls lsp string fast-reroute hop-limit number
  Tree hop-limit
  Range 0 to 255
  Default 16
  Introduced 16.0.R1
 

Platforms

All
node-protect boolean
  Synopsis Enable node and link protection for the specified LSP
  Context configure router string mpls lsp string fast-reroute node-protect boolean
  Tree node-protect
  Introduced 16.0.R1
 

Platforms

All
propagate-admin-group boolean
  Synopsis Enable admin group constraints on a FRR backup LSP
  Context configure router string mpls lsp string fast-reroute propagate-admin-group boolean
  Tree propagate-admin-group
  Default false
  Introduced 16.0.R1
 

Platforms

All
from (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Source IP address of this LSP
  Context configure router string mpls lsp string from (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree from
  Introduced 16.0.R1
 

Platforms

All
hop-limit number
  Synopsis Maximum number of hops that an LSP can traverse including ingress and egress routers
  Context configure router string mpls lsp string hop-limit number
  Tree hop-limit
  Range 2 to 255
  Default 255
  Introduced 16.0.R1
 

Platforms

All
igp-shortcut
  Synopsis Enter the igp-shortcut context
  Context configure router string mpls lsp string igp-shortcut
  Tree igp-shortcut
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of LSP for shortcut or forwarding
  Context configure router string mpls lsp string igp-shortcut admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
lfa-type keyword
  Synopsis LSP usage in LFA SPF
  Context configure router string mpls lsp string igp-shortcut lfa-type keyword
  Tree lfa-type
  Options lfa-protect, lfa-only
 

Notes

The following elements are part of a choice: lfa-type or relative-metric.
  Introduced 16.0.R1
 

Platforms

All
relative-metric number
  Synopsis Shortest IGP cost between the endpoints of the LSP plus the configured offset
  Context configure router string mpls lsp string igp-shortcut relative-metric number
  Tree relative-metric
  Range -10 to 10
 

Notes

The following elements are part of a choice: lfa-type or relative-metric.
  Introduced 16.0.R1
 

Platforms

All
include-admin-group reference
  Synopsis Admin group name included when LSP is set up
  Context configure router string mpls lsp string include-admin-group reference
  Tree include-admin-group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Introduced 16.0.R1
 

Platforms

All
label-stack-reduction boolean
  Synopsis Enable/disable label compression for LSP path.
  Context configure router string mpls lsp string label-stack-reduction boolean
  Tree label-stack-reduction
  Default false
  Introduced 19.7.R1
 

Platforms

All
ldp-over-rsvp boolean
  Synopsis Include this LSP in LDP over RSVP
  Context configure router string mpls lsp string ldp-over-rsvp boolean
  Tree ldp-over-rsvp
  Introduced 16.0.R1
 

Platforms

All
least-fill boolean
  Synopsis Enable least-fill path selection for this LSP
  Context configure router string mpls lsp string least-fill boolean
  Tree least-fill
  Default false
  Introduced 16.0.R1
 

Platforms

All
load-balancing-weight number
  Synopsis Load balancing weight for an MPLS LSP
  Context configure router string mpls lsp string load-balancing-weight number
  Tree load-balancing-weight
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
local-sr-protection keyword
  Synopsis Local SR protection preference for LSP path computation
  Context configure router string mpls lsp string local-sr-protection keyword
  Tree local-sr-protection
  Default preferred
  Options none, preferred, mandatory
  Introduced 19.7.R1
 

Platforms

All
lsp-self-ping keyword
  Synopsis LSP Self Ping activation status on the RSVP-TE LSP
  Context configure router string mpls lsp string lsp-self-ping keyword
  Tree lsp-self-ping
 

Description

When configured, the system uses this setting for the LSP regardless of the value configured under configure router mpls lsp-self-ping rsvp-te.

When unconfigured, the command inherits the value configured under configure router mpls lsp-self-ping rsvp-te.
  Options false, true
  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
main-ct-retry-limit number
  Synopsis Maximum number of retries before reverting to backup CT
  Context configure router string mpls lsp string main-ct-retry-limit number
  Tree main-ct-retry-limit
  Range 1 to 10000
  Introduced 16.0.R1
 

Platforms

All
max-sr-labels
  Synopsis Enter the max-sr-labels context
  Context configure router string mpls lsp string max-sr-labels
  Tree max-sr-labels
  Introduced 16.0.R1
 

Platforms

All
additional-frr-labels number
  Synopsis Value for the maximum additional overhead labels
  Context configure router string mpls lsp string max-sr-labels additional-frr-labels number
  Tree additional-frr-labels
  Range 0 to 4
  Default 1
  Introduced 16.0.R1
 

Platforms

All
label-stack-size number
  Synopsis Maximum Label Stack size
  Context configure router string mpls lsp string max-sr-labels label-stack-size number
  Tree label-stack-size
  Range 1 to 11
  Introduced 16.0.R1
 

Platforms

All
metric number
  Synopsis LSP metric that forces to a constant value
  Context configure router string mpls lsp string metric number
  Tree metric
  Range 0 to 16777215
  Introduced 16.0.R1
 

Platforms

All
metric-type keyword
  Synopsis Metric type used for LSP path computation
  Context configure router string mpls lsp string metric-type keyword
  Tree metric-type
  Default igp
  Options igp, te
  Introduced 19.7.R1
 

Platforms

All
override-tunnel-elc boolean
  Synopsis Override any received entropy label capability
  Context configure router string mpls lsp string override-tunnel-elc boolean
  Tree override-tunnel-elc
 

Description

When configured to true, this command allows the system to override any received entropy label capability advertisement.

When configured to false, this command disables the override.
  Default false
  Introduced 21.10.R1
 

Platforms

All
p2mp-id number
  Synopsis Unique identifier as Point-to-Multipoint (P2MP) identifier
  Context configure router string mpls lsp string p2mp-id number
  Tree p2mp-id
  Range 1 to 65535
  Introduced 16.0.R1
 

Platforms

All
path-computation-method keyword
  Synopsis Path computation method
  Context configure router string mpls lsp string path-computation-method keyword
  Tree path-computation-method
 

Description

This command configures the path computation method of an RSVP-TE or SR-TE LSP.

If this command is not configured to one of the supported options, the default path computation method is used depending on the type of LSP; the hop-to-label translation is used for for the SR-TE LSP template and the IGP-based path is used for the RSVP-TE-LSP.
  Options local-cspf, pce
  Introduced 19.7.R1
 

Platforms

All
path-profile [profile-id] number
  Synopsis Enter the path-profile list instance
  Context configure router string mpls lsp string path-profile number
  Tree path-profile
 

Description

Commands in this context configure the attributes of the PCE path profile.
  Max. Instances 5
  Introduced 16.0.R1
 

Platforms

All
[profile-id] number
  Synopsis Profile ID for the specified LSP
  Context configure router string mpls lsp string path-profile number
  Range 1 to 4294967295
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
path-group number
  Synopsis Path-group ID for the specified LSP
  Context configure router string mpls lsp string path-profile number path-group number
  Tree path-group
  Max. Range 0 to 4294967295
  Default 0
  Introduced 16.0.R1
 

Platforms

All
pce-associations
  Synopsis Enter the pce-associations context
  Context configure router string mpls lsp string pce-associations
  Tree pce-associations
 

Description

Commands in this context configure the LSP binding with one or more PCEP associations.
  Introduced 22.5.R1
 

Platforms

All
diversity [diversity-name] reference
  Synopsis Add a list entry for diversity
  Context configure router string mpls lsp string pce-associations diversity reference
  Tree diversity
 

Description

Commands in this context bind the LSP to a named diversity association. The diversity association must exist under the PCC.
  Max. Instances 5
  Introduced 22.5.R1
 

Platforms

All
[diversity-name] reference
  Synopsis Name of the PCE association configured under the PCC
  Context configure router string mpls lsp string pce-associations diversity reference
 

Reference

configure router string pcep pcc pce-associations diversity string

 

Notes

This element is part of a list key.
  Introduced 22.5.R1
 

Platforms

All
policy [policy-name] reference
  Synopsis Add a list entry for policy
  Context configure router string mpls lsp string pce-associations policy reference
  Tree policy
 

Description

Commands in this context bind the LSP to a named policy association. The policy association name must exist under the PCC.
  Max. Instances 5
  Introduced 22.5.R1
 

Platforms

All
[policy-name] reference
  Synopsis Name of the PCE association configured under the PCC
  Context configure router string mpls lsp string pce-associations policy reference
 

Reference

configure router string pcep pcc pce-associations policy string

 

Notes

This element is part of a list key.
  Introduced 22.5.R1
 

Platforms

All
pce-control boolean
  Synopsis Enable PCE controlled LSP mode of operation
  Context configure router string mpls lsp string pce-control boolean
  Tree pce-control
 

Description

When configured to true, this command enables a PCE-controlled mode of operation for the LSP. In this mode, the router delegates full control of the LSP to the PCE (PCE controlled). The PCE acts in stateful-active mode for this LSP and is able to reroute the path following a failure or to re-optimize the path and update the router without a request from the router.

When configured to false, the PCE-controlled mode of operation for the LSP has no effect.

  Default false
  Introduced 16.0.R1
 

Platforms

All
pce-report keyword
  Synopsis Global configuration of reporting to PCE to override
  Context configure router string mpls lsp string pce-report keyword
  Tree pce-report
  Options false, true
  Introduced 16.0.R1
 

Platforms

All
primary [path-name] reference
  Synopsis Enter the primary list instance
  Context configure router string mpls lsp string primary reference
  Tree primary
  Max. Instances 1
  Introduced 16.0.R1
 

Platforms

All
[path-name] reference
  Synopsis Path name
  Context configure router string mpls lsp string primary reference
 

Reference

configure router string mpls path string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
adaptive boolean
  Synopsis Enable make-before-break functionality
  Context configure router string mpls lsp string primary reference adaptive boolean
  Tree adaptive
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LSP path
  Context configure router string mpls lsp string primary reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
backup-class-type number
  Synopsis Class-type for the LSP or LSP path
  Context configure router string mpls lsp string primary reference backup-class-type number
  Tree backup-class-type
  Range 0 to 7
  Introduced 16.0.R1
 

Platforms

All
bandwidth number
  Synopsis Amount of bandwidth to be reserved
  Context configure router string mpls lsp string primary reference bandwidth number
  Tree bandwidth
  Range 0 to 6400000
  Default 0
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
bfd
  Synopsis Enter the bfd context
  Context configure router string mpls lsp string primary reference bfd
  Tree bfd
 

Description

Commands in this context configure BFD on RSVP LSPs or Seamless BFD on SR-TE LSPs. 
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD on the RSVP LSP or S-BFD on the SR-TE LSP
  Context configure router string mpls lsp string primary reference bfd bfd-liveness boolean
  Tree bfd-liveness
  Default false
  Introduced 16.0.R1
 

Platforms

All
bfd-template reference
  Synopsis BFD template to be used by LSP BFD sessions
  Context configure router string mpls lsp string primary reference bfd bfd-template reference
  Tree bfd-template
 

Reference

configure bfd bfd-template string

  Introduced 16.0.R1
 

Platforms

All
lsp-ping-interval (number | keyword)
  Synopsis Interval for periodic LSP ping for BFD bootstrapping
  Context configure router string mpls lsp string primary reference bfd lsp-ping-interval (number | keyword)
  Tree lsp-ping-interval
  Range 60 to 300
  Default 60
  Units seconds
  Options none
  Introduced 16.0.R1
 

Platforms

All
return-path-label number
  Synopsis S-BFD return path label
  Context configure router string mpls lsp string primary reference bfd return-path-label number
  Tree return-path-label
 

Description

This command configures the S-BFD session to echo mode and adds an additional MPLS label to the bottom of the label stack for the S-BFD packet. 

The command applies to the initiator of the S-BFD sessions. The return path label may be a binding SID for an SR policy or other MPLS path configured on the reflector router. Instead of being routed through the IGP path, the S-BFD packet returns to the initiator through this MPLS return path. 

If the command is deleted, S-BFD returns to asynchronous mode and no return path label is pushed by the initiator node. Any S-BFD packets for this LSP or path that the reflector receives are routed through the IGP path.
  Range 32 to 1048512
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
wait-for-up-timer number
  Synopsis Time to wait for BFD to become operationally available
  Context configure router string mpls lsp string primary reference bfd wait-for-up-timer number
  Tree wait-for-up-timer
 

Description

This command configures the time to wait for BFD to become operationally up. The timer is applicable to SR-TE LSPs, including auto LSPs and PCE-initiated LSPS, as well RSVP-TE LSPs.

For SR-TE LSPs, the timer takes effect when BFD is first enabled on a path or when BFD transitions from up to down. Upon expiration, if BFD is not up, the path is torn down, removed from the TTM and the IOM, and the system starts the retry timer.

For RSVP-TE LSPs, the timer controls the following:

  • a path undergoing MBB when BFD is up

  • the initial administrative state of the LSP

  • the retry signaling of non-standby secondary paths
  Range 1 to 60
  Default 4
  Units seconds
  Introduced 19.7.R1
 

Platforms

All
class-type number
  Synopsis Class-type
  Context configure router string mpls lsp string primary reference class-type number
  Tree class-type
  Range 0 to 7
  Introduced 16.0.R1
 

Platforms

All
exclude-admin-group
  Synopsis Enable the exclude-admin-group context
  Context configure router string mpls lsp string primary reference exclude-admin-group
  Tree exclude-admin-group
  Introduced 16.0.R1
 

Platforms

All
group reference
  Synopsis Groups to exclude when the LSP path is setup
  Context configure router string mpls lsp string primary reference exclude-admin-group group reference
  Tree group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Min. Instances 1
  Introduced 16.0.R1
 

Platforms

All
hop-limit number
  Synopsis Total number of hops that an LSP traverses
  Context configure router string mpls lsp string primary reference hop-limit number
  Tree hop-limit
  Range 2 to 255
  Introduced 16.0.R1
 

Platforms

All
include-admin-group
  Synopsis Enable the include-admin-group context
  Context configure router string mpls lsp string primary reference include-admin-group
  Tree include-admin-group
  Introduced 16.0.R1
 

Platforms

All
group reference
  Synopsis Groups that are included when LSP path is setup
  Context configure router string mpls lsp string primary reference include-admin-group group reference
  Tree group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Min. Instances 1
  Introduced 16.0.R1
 

Platforms

All
priority
  Synopsis Enter the priority context
  Context configure router string mpls lsp string primary reference priority
  Tree priority
  Introduced 16.0.R1
 

Platforms

All
hold-priority number
  Synopsis Priority of an LSP session at preemption action
  Context configure router string mpls lsp string primary reference priority hold-priority number
  Tree hold-priority
  Range 0 to 7
  Default 0
  Introduced 16.0.R1
 

Platforms

All
setup-priority number
  Synopsis Priority when insufficient bandwidth for LSP setup
  Context configure router string mpls lsp string primary reference priority setup-priority number
  Tree setup-priority
  Range 0 to 7
  Default 7
  Introduced 16.0.R1
 

Platforms

All
record boolean
  Synopsis Enable recording of all hops that an LSP path traverses
  Context configure router string mpls lsp string primary reference record boolean
  Tree record
  Default true
  Introduced 16.0.R1
 

Platforms

All
record-label boolean
  Synopsis Enable recording of labels at each node or instance
  Context configure router string mpls lsp string primary reference record-label boolean
  Tree record-label
  Default true
  Introduced 16.0.R1
 

Platforms

All
primary-p2mp-instance [instance-name] string
  Synopsis Enter the primary-p2mp-instance list instance
  Context configure router string mpls lsp string primary-p2mp-instance string
  Tree primary-p2mp-instance
  Max. Instances 1
  Introduced 16.0.R4
 

Platforms

All
[instance-name] string
  Synopsis P2MP LSP instance name
  Context configure router string mpls lsp string primary-p2mp-instance string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
adaptive boolean
  Synopsis Enable make-before-break functionality
  Context configure router string mpls lsp string primary-p2mp-instance string adaptive boolean
  Tree adaptive
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LSP path
  Context configure router string mpls lsp string primary-p2mp-instance string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
bandwidth number
  Synopsis Amount of bandwidth to be reserved
  Context configure router string mpls lsp string primary-p2mp-instance string bandwidth number
  Tree bandwidth
  Range 0 to 6400000
  Default 0
  Units megabps
  Introduced 16.0.R4
 

Platforms

All
exclude-admin-group
  Synopsis Enable the exclude-admin-group context
  Context configure router string mpls lsp string primary-p2mp-instance string exclude-admin-group
  Tree exclude-admin-group
  Introduced 16.0.R4
 

Platforms

All
group reference
  Synopsis Groups to exclude when the LSP path is setup
  Context configure router string mpls lsp string primary-p2mp-instance string exclude-admin-group group reference
  Tree group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Min. Instances 1
  Introduced 16.0.R4
 

Platforms

All
hop-limit number
  Synopsis Total number of hops that an LSP traverses
  Context configure router string mpls lsp string primary-p2mp-instance string hop-limit number
  Tree hop-limit
  Range 2 to 255
  Introduced 16.0.R4
 

Platforms

All
include-admin-group
  Synopsis Enable the include-admin-group context
  Context configure router string mpls lsp string primary-p2mp-instance string include-admin-group
  Tree include-admin-group
  Introduced 16.0.R4
 

Platforms

All
group reference
  Synopsis Groups that are included when LSP path is setup
  Context configure router string mpls lsp string primary-p2mp-instance string include-admin-group group reference
  Tree group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Min. Instances 1
  Introduced 16.0.R4
 

Platforms

All
priority
  Synopsis Enter the priority context
  Context configure router string mpls lsp string primary-p2mp-instance string priority
  Tree priority
  Introduced 21.10.R1
 

Platforms

All
hold-priority number
  Synopsis Hold priority when not enough bandwidth for LSP setup
  Context configure router string mpls lsp string primary-p2mp-instance string priority hold-priority number
  Tree hold-priority
  Range 0 to 7
  Default 0
  Introduced 21.10.R1
 

Platforms

All
setup-priority number
  Synopsis Priority when insufficient bandwidth for LSP setup
  Context configure router string mpls lsp string primary-p2mp-instance string priority setup-priority number
  Tree setup-priority
  Range 0 to 7
  Default 7
  Introduced 21.10.R1
 

Platforms

All
record boolean
  Synopsis Enable recording of all hops that an LSP path traverses
  Context configure router string mpls lsp string primary-p2mp-instance string record boolean
  Tree record
  Default true
  Introduced 16.0.R4
 

Platforms

All
record-label boolean
  Synopsis Enable recording of labels at each node or instance
  Context configure router string mpls lsp string primary-p2mp-instance string record-label boolean
  Tree record-label
  Default true
  Introduced 16.0.R4
 

Platforms

All
s2l-path [path-name] reference to (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the s2l-path list instance
  Context configure router string mpls lsp string primary-p2mp-instance string s2l-path reference to (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree s2l-path
  Max. Instances 650
  Introduced 16.0.R4
 

Platforms

All
[path-name] reference
  Synopsis P2MP LSP name
  Context configure router string mpls lsp string primary-p2mp-instance string s2l-path reference to (ipv4-address-no-zone | ipv6-address-no-zone)
 

Reference

configure router string mpls path string

 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
to (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis System IP address of the egress router
  Context configure router string mpls lsp string primary-p2mp-instance string s2l-path reference to (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the S2L sub-LSP for a P2MP LSP
  Context configure router string mpls lsp string primary-p2mp-instance string s2l-path reference to (ipv4-address-no-zone | ipv6-address-no-zone) admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
propagate-admin-group boolean
  Synopsis Enable admin groups via session attribute object
  Context configure router string mpls lsp string propagate-admin-group boolean
  Tree propagate-admin-group
  Default false
  Introduced 16.0.R1
 

Platforms

All
retry-limit number
  Synopsis Number of attempts to re-establish LSP after it fails
  Context configure router string mpls lsp string retry-limit number
  Tree retry-limit
  Range 1 to 10000
  Introduced 16.0.R1
 

Platforms

All
retry-timer number
  Synopsis Time for LSP re-establishment attempts after failure
  Context configure router string mpls lsp string retry-timer number
  Tree retry-timer
  Range 1 to 600
  Default 30
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
revert-timer number
  Synopsis Revert timer for the LSP
  Context configure router string mpls lsp string revert-timer number
  Tree revert-timer
  Range 1 to 4320
  Units minutes
  Introduced 16.0.R1
 

Platforms

All
rsvp-resv-style keyword
  Synopsis Reservation style for RSVP
  Context configure router string mpls lsp string rsvp-resv-style keyword
  Tree rsvp-resv-style
  Default se
  Options se, ff
  Introduced 16.0.R1
 

Platforms

All
secondary [path-name] reference
  Synopsis Enter the secondary list instance
  Context configure router string mpls lsp string secondary reference
  Tree secondary
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

All
[path-name] reference
  Synopsis Path name
  Context configure router string mpls lsp string secondary reference
 

Reference

configure router string mpls path string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
adaptive boolean
  Synopsis Enable make-before-break functionality
  Context configure router string mpls lsp string secondary reference adaptive boolean
  Tree adaptive
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LSP path
  Context configure router string mpls lsp string secondary reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
bandwidth number
  Synopsis Amount of bandwidth to be reserved
  Context configure router string mpls lsp string secondary reference bandwidth number
  Tree bandwidth
  Range 0 to 6400000
  Default 0
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
bfd
  Synopsis Enter the bfd context
  Context configure router string mpls lsp string secondary reference bfd
  Tree bfd
 

Description

Commands in this context configure BFD on RSVP LSPs or Seamless BFD on SR-TE LSPs.

  Introduced 19.7.R1
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD on the RSVP LSP or S-BFD on the SR-TE LSP
  Context configure router string mpls lsp string secondary reference bfd bfd-liveness boolean
  Tree bfd-liveness
  Default false
  Introduced 19.7.R1
 

Platforms

All
bfd-template reference
  Synopsis BFD template to be used by LSP BFD sessions
  Context configure router string mpls lsp string secondary reference bfd bfd-template reference
  Tree bfd-template
 

Reference

configure bfd bfd-template string

  Introduced 19.7.R1
 

Platforms

All
lsp-ping-interval (number | keyword)
  Synopsis Interval for periodic LSP ping for BFD bootstrapping
  Context configure router string mpls lsp string secondary reference bfd lsp-ping-interval (number | keyword)
  Tree lsp-ping-interval
  Range 60 to 300
  Default 60
  Units seconds
  Options none
  Introduced 19.7.R1
 

Platforms

All
return-path-label number
  Synopsis S-BFD return path label
  Context configure router string mpls lsp string secondary reference bfd return-path-label number
  Tree return-path-label
 

Description

This command configures the S-BFD session to echo mode and adds an additional MPLS label to the bottom of the label stack for the S-BFD packet. 

The command applies to the initiator of the S-BFD sessions. The return path label may be a binding SID for an SR policy or other MPLS path configured on the reflector router. Instead of being routed through the IGP path, the S-BFD packet returns to the initiator through this MPLS return path. 

If the command is deleted, S-BFD returns to asynchronous mode and no return path label is pushed by the initiator node. Any S-BFD packets for this LSP or path that the reflector receives are routed through the IGP path.
  Range 32 to 1048512
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
wait-for-up-timer number
  Synopsis Time to wait for BFD to become operationally available
  Context configure router string mpls lsp string secondary reference bfd wait-for-up-timer number
  Tree wait-for-up-timer
 

Description

This command configures the time to wait for BFD to become operationally up. The timer is applicable to SR-TE LSPs, including auto LSPs and PCE-initiated LSPS, as well RSVP-TE LSPs.

For SR-TE LSPs, the timer takes effect when BFD is first enabled on a path or when BFD transitions from up to down. Upon expiration, if BFD is not up, the path is torn down, removed from the TTM and the IOM, and the system starts the retry timer.

For RSVP-TE LSPs, the timer controls the following:

  • a path undergoing MBB when BFD is up

  • the initial administrative state of the LSP

  • the retry signaling of non-standby secondary paths
  Range 1 to 60
  Default 4
  Units seconds
  Introduced 19.7.R1
 

Platforms

All
class-type number
  Synopsis Class-type
  Context configure router string mpls lsp string secondary reference class-type number
  Tree class-type
  Range 0 to 7
  Introduced 16.0.R1
 

Platforms

All
exclude-admin-group
  Synopsis Enable the exclude-admin-group context
  Context configure router string mpls lsp string secondary reference exclude-admin-group
  Tree exclude-admin-group
  Introduced 16.0.R1
 

Platforms

All
group reference
  Synopsis Groups to exclude when the LSP path is setup
  Context configure router string mpls lsp string secondary reference exclude-admin-group group reference
  Tree group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Min. Instances 1
  Introduced 16.0.R1
 

Platforms

All
hop-limit number
  Synopsis Total number of hops that an LSP traverses
  Context configure router string mpls lsp string secondary reference hop-limit number
  Tree hop-limit
  Range 2 to 255
  Introduced 16.0.R1
 

Platforms

All
include-admin-group
  Synopsis Enable the include-admin-group context
  Context configure router string mpls lsp string secondary reference include-admin-group
  Tree include-admin-group
  Introduced 16.0.R1
 

Platforms

All
group reference
  Synopsis Groups that are included when LSP path is setup
  Context configure router string mpls lsp string secondary reference include-admin-group group reference
  Tree group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Min. Instances 1
  Introduced 16.0.R1
 

Platforms

All
path-preference number
  Synopsis Path preference for the secondary standby path
  Context configure router string mpls lsp string secondary reference path-preference number
  Tree path-preference
  Range 1 to 255
  Default 255
  Introduced 16.0.R1
 

Platforms

All
priority
  Synopsis Enter the priority context
  Context configure router string mpls lsp string secondary reference priority
  Tree priority
  Introduced 16.0.R1
 

Platforms

All
hold-priority number
  Synopsis Priority of an LSP session at preemption action
  Context configure router string mpls lsp string secondary reference priority hold-priority number
  Tree hold-priority
  Range 0 to 7
  Default 0
  Introduced 16.0.R1
 

Platforms

All
setup-priority number
  Synopsis Priority when insufficient bandwidth for LSP setup
  Context configure router string mpls lsp string secondary reference priority setup-priority number
  Tree setup-priority
  Range 0 to 7
  Default 7
  Introduced 16.0.R1
 

Platforms

All
record boolean
  Synopsis Enable recording of all hops that an LSP path traverses
  Context configure router string mpls lsp string secondary reference record boolean
  Tree record
  Default true
  Introduced 16.0.R1
 

Platforms

All
record-label boolean
  Synopsis Enable recording of labels at each node or instance
  Context configure router string mpls lsp string secondary reference record-label boolean
  Tree record-label
  Default true
  Introduced 16.0.R1
 

Platforms

All
srlg boolean
  Synopsis Use SRLG constraint in secondary path computation for an LSP at the head-end LER
  Context configure router string mpls lsp string secondary reference srlg boolean
  Tree srlg
  Default false
  Introduced 16.0.R1
 

Platforms

All
standby boolean
  Synopsis Keep secondary path indefinitely in hot standby state
  Context configure router string mpls lsp string secondary reference standby boolean
  Tree standby
  Default false
  Introduced 16.0.R1
 

Platforms

All
soft-preemption boolean
  Synopsis Enable soft preemption
  Context configure router string mpls lsp string soft-preemption boolean
  Tree soft-preemption
 

Description

When configured to true, the P2MP LSP preemption is governed by the configure router rsvp preemption-timer value.

When configured to false, the preemption timer value is set to 0 and the P2MP LSPs are hard preempted. 

For P2P LSPs, soft preemption is always enabled and cannot be disabled.
  Introduced 22.2.R1
 

Platforms

All
to (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Destination IP address or the egress router for the LSP
  Context configure router string mpls lsp string to (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree to
  Introduced 16.0.R1
 

Platforms

All
type keyword
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis LSP for bypass protection, point to multipoint, segment routing or MPLS-TP static LSP
  Context configure router string mpls lsp string type keyword
  Tree type
  Options p2p-rsvp, p2p-static-mpls, p2p-rsvp-bypass, p2mp-rsvp, p2mp-rsvp-auto, p2p-rsvp-mesh, p2p-rsvp-one-hop, p2p-sr-te, p2p-sr-te-mesh, p2p-sr-te-one-hop, p2p-sr-te-pce-init, p2p-sr-te-on-demand
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
vprn-auto-bind boolean
  Synopsis Include this LSP in auto-bind for VPRN services
  Context configure router string mpls lsp string vprn-auto-bind boolean
  Tree vprn-auto-bind
  Introduced 16.0.R1
 

Platforms

All
lsp-bsid-block reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Reserved label block for binding SID
  Context configure router string mpls lsp-bsid-block reference
  Tree lsp-bsid-block
 

Reference

configure router string mpls-labels reserved-label-block string

  Introduced 22.7.R1
 

Platforms

All
lsp-init-retry-timeout number
  Synopsis LSP initial retry timeout
  Context configure router string mpls lsp-init-retry-timeout number
  Tree lsp-init-retry-timeout
  Range 10 to 600
  Default 30
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
lsp-self-ping
  Synopsis Enter the lsp-self-ping context
  Context configure router string mpls lsp-self-ping
  Tree lsp-self-ping
 

Description

Commands in this context configure LSP Self Ping parameters. 

LSP Self Ping checks that the datapath of an RSVP LSP has been programmed by all LSRs along its path before switching the traffic to it. If enabled, LSP Self Ping packets are sent periodically at a configurable interval following the receipt of the RESV message for an RSVP LSP path following an MBB or other event where the active path changes while the previous active path stayed up. The router will not switch traffic to the new path until an LSP Self Ping reply is received from the far-end LER.

When configured under the MPLS context, LSP Self Ping is enabled for all RSVP LSPs, unless it is explicitly disabled for a given LSP.
  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
interval number
  Synopsis MPLS periodic LSP Self Ping interval
  Context configure router string mpls lsp-self-ping interval number
  Tree interval
 

Description

This command configures the interval at which LSP Self Ping packets are periodically sent on a candidate path of an RSVP LSP.

This value is used for all LSPs that have LSP Self Ping enabled.
  Range 1 to 10
  Default 1
  Units seconds
  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
rsvp-te boolean
  Synopsis Activate LSP Self Ping on RSVP-TE LSPs
  Context configure router string mpls lsp-self-ping rsvp-te boolean
  Tree rsvp-te
 

Description

When configured to true, this command enables LSP Self Ping on all RSVP-TE LSPs, unless an individual LSP has this explicitly disabled under the configure router mpls lsp lsp-self-ping command or in the LSP template.

When configured to false, this command disables LSP Self Ping on all RSVP-TE LSPs.
  Default false
  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
timeout number
  Synopsis MPLS LSP Self Ping timeout
  Context configure router string mpls lsp-self-ping timeout number
  Tree timeout
 

Description

This command configures a timeout value for the LSP Self Ping timer.

The LSP Self Ping timer starts when the RESV message is received for an LSP. The system periodically sends LSP Self Ping packets until the timer expires or the first LSP Self Ping reply is received, whichever comes first. If the timer expires before an LSP Self Ping packet is received, the configured timeout action is performed.
  Range 3 to 3600
  Default 300
  Units seconds
  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
timeout-action keyword
  Synopsis Action taken when LSP Self Ping timer expires
  Context configure router string mpls lsp-self-ping timeout-action keyword
  Tree timeout-action
  Default retry
  Options retry, switch
  Introduced 20.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
lsp-template [template-name] string
  Synopsis Enter the lsp-template list instance
  Context configure router string mpls lsp-template string
  Tree lsp-template
 

Description

Commands in this context configure the attributes of an LSP template that can be referenced by a client application when dynamic LSPs must be created.
  Max. Instances 4096
  Introduced 16.0.R1
 

Platforms

All
[template-name] string
  Synopsis LSP template name
  Context configure router string mpls lsp-template string
 

Description

This command specifies the name of the LSP template. An LSP template name and LSP name must not be the same.
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
adaptive boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable make-before-break functionality
  Context configure router string mpls lsp-template string adaptive boolean
  Tree adaptive
  Default true
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the LSP template
  Context configure router string mpls lsp-template string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
admin-tag [name] reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Add a list entry for admin-tag
  Context configure router string mpls lsp-template string admin-tag reference
  Tree admin-tag
  Max. Instances 4
  Introduced 16.0.R1
 

Platforms

All
[name] reference
  Synopsis Name of the admin tags
  Context configure router string mpls lsp-template string admin-tag reference
 

Reference

configure routing-options admin-tags admin-tag string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
adspec boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Include ADSPEC objects in RSVP messages
  Context configure router string mpls lsp-template string adspec boolean
  Tree adspec
  Default false
  Introduced 16.0.R1
 

Platforms

All
auto-bandwidth
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the auto-bandwidth context
  Context configure router string mpls lsp-template string auto-bandwidth
  Tree auto-bandwidth
  Introduced 16.0.R1
 

Platforms

All
adjust-down
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the adjust-down context
  Context configure router string mpls lsp-template string auto-bandwidth adjust-down
  Tree adjust-down
  Introduced 16.0.R1
 

Platforms

All
bw number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Minimum difference in absolute bandwidth
  Context configure router string mpls lsp-template string auto-bandwidth adjust-down bw number
  Tree bw
  Range 0 to 6400000
  Default 0
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
percent number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Minimum difference in percent
  Context configure router string mpls lsp-template string auto-bandwidth adjust-down percent number
  Tree percent
  Range 0 to 100
  Default 5
  Units percent
  Introduced 16.0.R1
 

Platforms

All
adjust-up
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the adjust-up context
  Context configure router string mpls lsp-template string auto-bandwidth adjust-up
  Tree adjust-up
  Introduced 16.0.R1
 

Platforms

All
bw number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Minimum difference in absolute bandwidth
  Context configure router string mpls lsp-template string auto-bandwidth adjust-up bw number
  Tree bw
  Range 0 to 6400000
  Default 0
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
percent number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Minimum difference in percent
  Context configure router string mpls lsp-template string auto-bandwidth adjust-up percent number
  Tree percent
  Range 0 to 100
  Default 5
  Units percent
  Introduced 16.0.R1
 

Platforms

All
fc [fc-name] keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the fc list instance
  Context configure router string mpls lsp-template string auto-bandwidth fc keyword
  Tree fc
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

All
[fc-name] keyword
  Synopsis Forwarding class name for LSP
  Context configure router string mpls lsp-template string auto-bandwidth fc keyword
  Options be, l2, af, l1, h2, ef, h1, nc
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
sampling-weight number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Forwarding class weight for LSP
  Context configure router string mpls lsp-template string auto-bandwidth fc keyword sampling-weight number
  Tree sampling-weight
  Range 0 to 100
  Default 100
  Units percent
  Introduced 16.0.R1
 

Platforms

All
max-bandwidth number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum bandwidth of auto-bandwidth to request for the LSP
  Context configure router string mpls lsp-template string auto-bandwidth max-bandwidth number
  Tree max-bandwidth
  Range 0 to 6400000
  Default 100000
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
min-bandwidth number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Minimum bandwidth of auto-bandwidth to request for the LSP
  Context configure router string mpls lsp-template string auto-bandwidth min-bandwidth number
  Tree min-bandwidth
  Range 0 to 6400000
  Default 0
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
monitor-bandwidth boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Collect and display auto-bandwidth measurements for the LSP
  Context configure router string mpls lsp-template string auto-bandwidth monitor-bandwidth boolean
  Tree monitor-bandwidth
  Default false
  Introduced 16.0.R1
 

Platforms

All
multipliers
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the multipliers context
  Context configure router string mpls lsp-template string auto-bandwidth multipliers
  Tree multipliers
  Introduced 16.0.R1
 

Platforms

All
adjust-multiplier number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Number of collection intervals in the adjust interval
  Context configure router string mpls lsp-template string auto-bandwidth multipliers adjust-multiplier number
  Tree adjust-multiplier
  Range 1 to 16383
  Introduced 16.0.R1
 

Platforms

All
sample-multiplier number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Multiplier for collection intervals in a sample interval
  Context configure router string mpls lsp-template string auto-bandwidth multipliers sample-multiplier number
  Tree sample-multiplier
  Range 1 to 511
  Introduced 16.0.R1
 

Platforms

All
overflow-limit
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the overflow-limit context
  Context configure router string mpls lsp-template string auto-bandwidth overflow-limit
  Tree overflow-limit
  Introduced 16.0.R1
 

Platforms

All
bw number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Minimum difference in absolute bandwidth
  Context configure router string mpls lsp-template string auto-bandwidth overflow-limit bw number
  Tree bw
  Range 1 to 6400000
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
number number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Number of overflow samples to trigger an overflow auto-bandwidth adjustment attempt
  Context configure router string mpls lsp-template string auto-bandwidth overflow-limit number number
  Tree number
  Range 1 to 10
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
threshold number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Minimum difference in percent between the LSP bandwidth and the sampled data rate
  Context configure router string mpls lsp-template string auto-bandwidth overflow-limit threshold number
  Tree threshold
  Range 0 to 100
  Default 0
  Units percent
  Introduced 16.0.R1
 

Platforms

All
underflow-limit
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the underflow-limit context
  Context configure router string mpls lsp-template string auto-bandwidth underflow-limit
  Tree underflow-limit
  Introduced 16.0.R1
 

Platforms

All
bw number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Minimum difference in absolute bandwidth
  Context configure router string mpls lsp-template string auto-bandwidth underflow-limit bw number
  Tree bw
  Range 1 to 6400000
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
number number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Number of overflow samples to trigger an overflow auto-bandwidth adjustment attempt
  Context configure router string mpls lsp-template string auto-bandwidth underflow-limit number number
  Tree number
  Range 1 to 10
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
threshold number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Minimum difference in percent between the LSP bandwidth and the sampled data rate
  Context configure router string mpls lsp-template string auto-bandwidth underflow-limit threshold number
  Tree threshold
  Range 0 to 100
  Default 0
  Units percent
  Introduced 16.0.R1
 

Platforms

All
backup-class-type number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Backup class type for this LSP template
  Context configure router string mpls lsp-template string backup-class-type number
  Tree backup-class-type
  Range 0 to 7
  Default 0
  Introduced 16.0.R1
 

Platforms

All
bandwidth number
  Synopsis Amount of bandwidth reserved for the P2MP instance
  Context configure router string mpls lsp-template string bandwidth number
  Tree bandwidth
  Range 0 to 6400000
  Default 0
  Units megabps
  Introduced 16.0.R1
 

Platforms

All
bfd
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the bfd context
  Context configure router string mpls lsp-template string bfd
  Tree bfd
 

Description

Commands in this context configure BFD on RSVP LSPs or Seamless BFD on SR-TE LSPs. 
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD on the RSVP LSP or S-BFD on the SR-TE LSP
  Context configure router string mpls lsp-template string bfd bfd-liveness boolean
  Tree bfd-liveness
  Default false
  Introduced 16.0.R1
 

Platforms

All
bfd-template reference
  Synopsis BFD template to be used by LSP BFD sessions
  Context configure router string mpls lsp-template string bfd bfd-template reference
  Tree bfd-template
 

Reference

configure bfd bfd-template string

  Introduced 16.0.R1
 

Platforms

All
failure-action keyword
  Synopsis Action to take when LSP BFD session fails
  Context configure router string mpls lsp-template string bfd failure-action keyword
  Tree failure-action
  Default none
  Options none, down, failover-or-down
  Introduced 16.0.R1
 

Platforms

All
lsp-ping-interval (number | keyword)
  Synopsis Interval for periodic LSP ping for BFD bootstrapping
  Context configure router string mpls lsp-template string bfd lsp-ping-interval (number | keyword)
  Tree lsp-ping-interval
  Range 60 to 300
  Default 60
  Units seconds
  Options none
  Introduced 16.0.R1
 

Platforms

All
return-path-label number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis S-BFD return path label
  Context configure router string mpls lsp-template string bfd return-path-label number
  Tree return-path-label
 

Description

This command configures the S-BFD session to echo mode and adds an additional MPLS label to the bottom of the label stack for the S-BFD packet. 

The command applies to the initiator of the S-BFD sessions. The return path label may be a binding SID for an SR policy or other MPLS path configured on the reflector router. Instead of being routed through the IGP path, the S-BFD packet returns to the initiator through this MPLS return path. 

If the command is deleted, S-BFD returns to asynchronous mode and no return path label is pushed by the initiator node. Any S-BFD packets for this LSP or path that the reflector receives are routed through the IGP path.
  Range 32 to 1048512
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
wait-for-up-timer number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Time to wait for BFD to become operationally available
  Context configure router string mpls lsp-template string bfd wait-for-up-timer number
  Tree wait-for-up-timer
 

Description

This command configures the time to wait for BFD to become operationally up. The timer is applicable to SR-TE LSPs, including auto LSPs and PCE-initiated LSPS, as well RSVP-TE LSPs.

For SR-TE LSPs, the timer takes effect when BFD is first enabled on a path or when BFD transitions from up to down. Upon expiration, if BFD is not up, the path is torn down, removed from the TTM and the IOM, and the system starts the retry timer.

For RSVP-TE LSPs, the timer controls the following:

  • a path undergoing MBB when BFD is up

  • the initial administrative state of the LSP

  • the retry signaling of non-standby secondary paths
  Range 1 to 60
  Default 4
  Units seconds
  Introduced 19.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
bgp-shortcut boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable/disable use of RSVP LSP for IPv4 BGP routes.
  Context configure router string mpls lsp-template string bgp-shortcut boolean
  Tree bgp-shortcut
  Introduced 16.0.R1
 

Platforms

All
bgp-transport-tunnel boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Allow use of RSVP-TE LSP as transport for tunnel routes
  Context configure router string mpls lsp-template string bgp-transport-tunnel boolean
  Tree bgp-transport-tunnel
  Default true
  Introduced 16.0.R1
 

Platforms

All
class-forwarding
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the class-forwarding context
  Context configure router string mpls lsp-template string class-forwarding
  Tree class-forwarding
  Introduced 16.0.R1
 

Platforms

All
forwarding-set
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the forwarding-set context
  Context configure router string mpls lsp-template string class-forwarding forwarding-set
  Tree forwarding-set
 

Notes

The following elements are part of a choice: (default-lsp and fc) or forwarding-set.
  Introduced 16.0.R1
 

Platforms

All
policy reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Name for the class based forwarding policy for LSP instances
  Context configure router string mpls lsp-template string class-forwarding forwarding-set policy reference
  Tree policy
 

Reference

configure router string mpls class-forwarding-policy string

  Introduced 16.0.R1
 

Platforms

All
set number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Forwarding set ID
  Context configure router string mpls lsp-template string class-forwarding forwarding-set set number
  Tree set
  Range 1 to 6
  Introduced 16.0.R1
 

Platforms

All
class-type number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Class type for an LSP template
  Context configure router string mpls lsp-template string class-type number
  Tree class-type
  Range 0 to 7
  Default 0
  Introduced 16.0.R1
 

Platforms

All
default-path reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Default path to be used for signaling LSP instances
  Context configure router string mpls lsp-template string default-path reference
  Tree default-path
 

Reference

configure router string mpls path string

  Introduced 16.0.R1
 

Platforms

All
egress-statistics
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the egress-statistics context
  Context configure router string mpls lsp-template string egress-statistics
  Tree egress-statistics
  Introduced 16.0.R1
 

Platforms

All
accounting-policy reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Accounting policy ID
  Context configure router string mpls lsp-template string egress-statistics accounting-policy reference
  Tree accounting-policy
 

Reference

configure log accounting-policy number

  Introduced 16.0.R1
 

Platforms

All
collect-stats boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Collect LSP statistics
  Context configure router string mpls lsp-template string egress-statistics collect-stats boolean
  Tree collect-stats
 

Description

When configured to true, this command enables LSP statistics collection. When you apply accounting policies, the forwarding engine collects data in the appropriate records and by default the CPU obtains and writes the results to the designated billing file.

When configured to false, the forwarding engine still accumulates statistics. However, the CPU does not write them to the billing file. If you subsequently re-enable this command, the counters written to the billing file include all the traffic collected while the command was disabled.
  Default false
  Introduced 16.0.R1
 

Platforms

All
stat-mode keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Statistics collection mode
  Context configure router string mpls lsp-template string egress-statistics stat-mode keyword
  Tree stat-mode
  Options per-fc, aggregate
  Introduced 21.10.R1
 

Platforms

All
entropy-label keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Entropy label for an LSP template
  Context configure router string mpls lsp-template string entropy-label keyword
  Tree entropy-label
  Options false, true
  Introduced 16.0.R1
 

Platforms

All
exclude-admin-group reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Admin group name excluded when LSP is set up
  Context configure router string mpls lsp-template string exclude-admin-group reference
  Tree exclude-admin-group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Introduced 16.0.R1
 

Platforms

All
fallback-path-computation-method keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Fallback path computation method
  Context configure router string mpls lsp-template string fallback-path-computation-method keyword
  Tree fallback-path-computation-method
 

Description

This command specifies the fallback path computation method used if all configured PCEs are down or are signaling overload and the redelegation timer has expired. This method is used regardless of whether the LSP is PCE-controlled and PCE-computed, or only PCE-computed.
  Options none, local-cspf
  Introduced 21.10.R1
 

Platforms

All
family keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Address family that specifies template use in SR-TE LSP
  Context configure router string mpls lsp-template string family keyword
  Tree family
 

Description

This command specifies the address family for which the LSP template applies in an SR-TE LSP.

An LSP template is required for each address family.
  Default ipv4
  Options ipv4, ipv6
  Introduced 20.5.R1
 

Platforms

All
fast-reroute
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the fast-reroute context
  Context configure router string mpls lsp-template string fast-reroute
  Tree fast-reroute
  Introduced 16.0.R1
 

Platforms

All
frr-method keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Fast Reroute method for the LSPs that are dynamically created using this LSP template
  Context configure router string mpls lsp-template string fast-reroute frr-method keyword
  Tree frr-method
  Default facility
  Options one-to-one, facility
  Introduced 16.0.R1
 

Platforms

All
hop-limit number
  Synopsis Total number of hops a detour or backup LSP can take
  Context configure router string mpls lsp-template string fast-reroute hop-limit number
  Tree hop-limit
  Range 0 to 255
  Default 16
  Introduced 16.0.R1
 

Platforms

All
node-protect boolean
  Synopsis Enable node and link protection for the specified LSP
  Context configure router string mpls lsp-template string fast-reroute node-protect boolean
  Tree node-protect
  Default false
  Introduced 16.0.R1
 

Platforms

All
propagate-admin-group boolean
  Synopsis Enable admin group constraints on a FRR backup LSP
  Context configure router string mpls lsp-template string fast-reroute propagate-admin-group boolean
  Tree propagate-admin-group
  Default false
  Introduced 16.0.R1
 

Platforms

All
from (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis IP address of the ingress router for the LSP template
  Context configure router string mpls lsp-template string from (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree from
  Introduced 16.0.R1
 

Platforms

All
hop-limit number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum hops for an LSP created using this LSP template
  Context configure router string mpls lsp-template string hop-limit number
  Tree hop-limit
  Range 2 to 255
  Introduced 16.0.R1
 

Platforms

All
igp-shortcut
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the igp-shortcut context
  Context configure router string mpls lsp-template string igp-shortcut
  Tree igp-shortcut
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Administrative state of LSP for shortcut or forwarding
  Context configure router string mpls lsp-template string igp-shortcut admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
lfa-type keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis LSP usage in LFA SPF
  Context configure router string mpls lsp-template string igp-shortcut lfa-type keyword
  Tree lfa-type
  Options lfa-protect, lfa-only
 

Notes

The following elements are part of a choice: lfa-type or relative-metric.
  Introduced 16.0.R1
 

Platforms

All
relative-metric number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Shortest IGP cost between the endpoints of the LSP plus the configured offset
  Context configure router string mpls lsp-template string igp-shortcut relative-metric number
  Tree relative-metric
  Range -10 to 10
 

Notes

The following elements are part of a choice: lfa-type or relative-metric.
  Introduced 16.0.R1
 

Platforms

All
include-admin-group reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Admin group name included when LSP is set up
  Context configure router string mpls lsp-template string include-admin-group reference
  Tree include-admin-group
 

Reference

configure routing-options if-attribute admin-group string

  Max. Instances 32
  Introduced 16.0.R1
 

Platforms

All
label-stack-reduction boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable label compression for LSP path
  Context configure router string mpls lsp-template string label-stack-reduction boolean
  Tree label-stack-reduction
  Default false
  Introduced 19.7.R1
 

Platforms

All
ldp-over-rsvp boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Include this LSP in LDP over RSVP
  Context configure router string mpls lsp-template string ldp-over-rsvp boolean
  Tree ldp-over-rsvp
  Default true
  Introduced 16.0.R1
 

Platforms

All
least-fill boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable least-fill path selection for this LSP template
  Context configure router string mpls lsp-template string least-fill boolean
  Tree least-fill
  Default false
  Introduced 16.0.R1
 

Platforms

All
load-balancing-weight number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Load balancing weight for an MPLS LSP template
  Context configure router string mpls lsp-template string load-balancing-weight number
  Tree load-balancing-weight
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
local-sr-protection keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Local SR protection preference for LSP path computation
  Context configure router string mpls lsp-template string local-sr-protection keyword
  Tree local-sr-protection
  Default preferred
  Options none, preferred, mandatory
  Introduced 19.7.R1
 

Platforms

All
lsp-self-ping keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis LSP Self Ping activation status on RSVP-TE LSP template
  Context configure router string mpls lsp-template string lsp-self-ping keyword
  Tree lsp-self-ping
 

Description

When configured, the system uses this setting for the LSP template regardless of the value configured under configure router mpls lsp-self-ping rsvp-te.

When unconfigured, the command inherits the value configured under configure router mpls lsp-self-ping rsvp-te.
  Options false, true
  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
main-ct-retry-limit number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum number of retries before reverting to backup CT
  Context configure router string mpls lsp-template string main-ct-retry-limit number
  Tree main-ct-retry-limit
  Range 1 to 10000
  Introduced 16.0.R1
 

Platforms

All
max-sr-labels
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the max-sr-labels context
  Context configure router string mpls lsp-template string max-sr-labels
  Tree max-sr-labels
  Introduced 16.0.R1
 

Platforms

All
additional-frr-labels number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Maximum number of additional overhead labels
  Context configure router string mpls lsp-template string max-sr-labels additional-frr-labels number
  Tree additional-frr-labels
  Range 0 to 4
  Default 1
  Introduced 16.0.R1
 

Platforms

All
label-stack-size number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Size for the maximum segment routing label stack
  Context configure router string mpls lsp-template string max-sr-labels label-stack-size number
  Tree label-stack-size
  Range 1 to 11
  Introduced 16.0.R1
 

Platforms

All
metric number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis LSP template metric
  Context configure router string mpls lsp-template string metric number
  Tree metric
  Range 0 to 16777215
  Default 0
  Introduced 16.0.R1
 

Platforms

All
metric-type keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Metric type used for LSP path computation
  Context configure router string mpls lsp-template string metric-type keyword
  Tree metric-type
  Default igp
  Options igp, te
  Introduced 19.7.R1
 

Platforms

All
override-tunnel-elc boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Override any received entropy label capability
  Context configure router string mpls lsp-template string override-tunnel-elc boolean
  Tree override-tunnel-elc
 

Description

When configured to true, this command allows the system to override any received entropy label capability advertisement.

When configured to false, this command disables the override.
  Default false
  Introduced 21.10.R1
 

Platforms

All
path-computation-method keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Path computation method
  Context configure router string mpls lsp-template string path-computation-method keyword
  Tree path-computation-method
 

Description

This command configures the path computation method of an RSVP-TE or SR-TE LSP.

If this command is not configured to one of the supported options, the default path computation method is used depending on the type of LSP; the hop-to-label translation is used for for the SR-TE LSP template and the IGP-based path is used for the RSVP-TE-LSP.
  Options local-cspf, pce
  Introduced 19.7.R1
 

Platforms

All
path-profile [profile-id] number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the path-profile list instance
  Context configure router string mpls lsp-template string path-profile number
  Tree path-profile
 

Description

Commands in this context configure the attributes of the PCE path profile.
  Max. Instances 5
  Introduced 21.10.R1
 

Platforms

All
[profile-id] number
  Synopsis Profile ID for the specified LSP
  Context configure router string mpls lsp-template string path-profile number
  Range 1 to 4294967295
 

Notes

This element is part of a list key.
  Introduced 21.10.R1
 

Platforms

All
path-group number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Path-group ID for the specified LSP
  Context configure router string mpls lsp-template string path-profile number path-group number
  Tree path-group
  Max. Range 0 to 4294967295
  Default 0
  Introduced 21.10.R1
 

Platforms

All
pce-associations
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the pce-associations context
  Context configure router string mpls lsp-template string pce-associations
  Tree pce-associations
 

Description

Commands in this context configure the LSP binding with one or more PCEP associations.
  Introduced 22.5.R1
 

Platforms

All
diversity [diversity-name] reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Add a list entry for diversity
  Context configure router string mpls lsp-template string pce-associations diversity reference
  Tree diversity
 

Description

Commands in this context bind the LSP to a named diversity association. The diversity association must exist under the PCC.
  Max. Instances 5
  Introduced 22.5.R1
 

Platforms

All
[diversity-name] reference
  Synopsis Name of the PCE association configured under the PCC
  Context configure router string mpls lsp-template string pce-associations diversity reference
 

Reference

configure router string pcep pcc pce-associations diversity string

 

Notes

This element is part of a list key.
  Introduced 22.5.R1
 

Platforms

All
policy [policy-name] reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Add a list entry for policy
  Context configure router string mpls lsp-template string pce-associations policy reference
  Tree policy
 

Description

Commands in this context bind the LSP to a named policy association. The policy association name must exist under the PCC.
  Max. Instances 5
  Introduced 22.5.R1
 

Platforms

All
[policy-name] reference
  Synopsis Name of the PCE association configured under the PCC
  Context configure router string mpls lsp-template string pce-associations policy reference
 

Reference

configure router string pcep pcc pce-associations policy string

 

Notes

This element is part of a list key.
  Introduced 22.5.R1
 

Platforms

All
pce-control boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable PCE controlled LSP mode of operation
  Context configure router string mpls lsp-template string pce-control boolean
  Tree pce-control
 

Description

When configured to true, this command enables a PCE-controlled mode of operation for the LSP. In this mode, the router delegates full control of the LSP to the PCE (PCE controlled). The PCE acts in stateful-active mode for this LSP and is able to reroute the path following a failure or to re-optimize the path and update the router without a request from the router.

When configured to false, the PCE-controlled mode of operation for the LSP has no effect.

  Default false
  Introduced 21.10.R1
 

Platforms

All
pce-report keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable reporting modes to PCE for RSVP-TE or SR-TE LSPs
  Context configure router string mpls lsp-template string pce-report keyword
  Tree pce-report
  Options false, true
  Introduced 16.0.R1
 

Platforms

All
priority
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the priority context
  Context configure router string mpls lsp-template string priority
  Tree priority
  Introduced 16.0.R1
 

Platforms

All
hold-priority number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Hold priority when insufficient bandwidth is available to set up LSP
  Context configure router string mpls lsp-template string priority hold-priority number
  Tree hold-priority
  Range 0 to 7
  Default 0
  Introduced 16.0.R1
 

Platforms

All
setup-priority number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Setup priority when insufficient bandwidth is available to set up LSP
  Context configure router string mpls lsp-template string priority setup-priority number
  Tree setup-priority
  Range 0 to 7
  Default 7
  Introduced 16.0.R1
 

Platforms

All
propagate-admin-group boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable admin groups via session attribute object
  Context configure router string mpls lsp-template string propagate-admin-group boolean
  Tree propagate-admin-group
  Default false
  Introduced 16.0.R1
 

Platforms

All
record boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable recording of all hops for this LSP template
  Context configure router string mpls lsp-template string record boolean
  Tree record
  Default true
  Introduced 16.0.R1
 

Platforms

All
record-label boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable recording of labels at each node or instance
  Context configure router string mpls lsp-template string record-label boolean
  Tree record-label
  Default true
  Introduced 16.0.R1
 

Platforms

All
retry-limit number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Number of attempts to re-establish LSP after it fails
  Context configure router string mpls lsp-template string retry-limit number
  Tree retry-limit
  Range 1 to 10000
  Introduced 16.0.R1
 

Platforms

All
retry-timer number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Time for LSP re-establishment attempts after failure
  Context configure router string mpls lsp-template string retry-timer number
  Tree retry-timer
  Range 1 to 600
  Default 30
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
soft-preemption boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable soft preemption
  Context configure router string mpls lsp-template string soft-preemption boolean
  Tree soft-preemption
 

Description

When configured to true, the P2MP LSP preemption is governed by the configure router rsvp preemption-timer value.

When configured to false, the preemption timer value is set to 0 and the P2MP LSPs are hard preempted. 

For P2P LSPs, soft preemption is always enabled and cannot be disabled.
  Introduced 22.2.R1
 

Platforms

All
template-id (number | keyword)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Template ID
  Context configure router string mpls lsp-template string template-id (number | keyword)
  Tree template-id
 

Description

This command specifies the value that is signaled in the PCE to identify the LSP template.
  Range 1 to 4294967295
  Options default
  Introduced 16.0.R5
 

Platforms

All
type keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis LSP template type
  Context configure router string mpls lsp-template string type keyword
  Tree type
 

Description

This command configures the type of a template that can be referenced by a client application where dynamic LSP creation is required. The LSP template type is mandatory.
  Options p2mp-rsvp, p2p-rsvp-one-hop, p2p-rsvp-mesh, p2p-sr-te-one-hop, p2p-sr-te-mesh, p2p-sr-te-pce-init, p2p-sr-te-on-demand
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
vprn-auto-bind boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Include LSP template in auto-bind for VPRN services
  Context configure router string mpls lsp-template string vprn-auto-bind boolean
  Tree vprn-auto-bind
  Default true
  Introduced 16.0.R1
 

Platforms

All
max-bypass-associations number
  Synopsis Maximum number of LSPs associated with a bypass tunnel
  Context configure router string mpls max-bypass-associations number
  Tree max-bypass-associations
  Range 100 to 131072
  Default 1000
  Introduced 16.0.R1
 

Platforms

All
max-bypass-plr-associations number
  Synopsis Maximum number of PLRs per RSVP-TE bypass LSP
  Context configure router string mpls max-bypass-plr-associations number
  Tree max-bypass-plr-associations
  Range 1 to 16
  Default 16
  Introduced 19.10.R1
 

Platforms

All
mbb-prefer-current-hops boolean
  Synopsis Select preference to use the current hops for Make-Before-Break (MBB)
  Context configure router string mpls mbb-prefer-current-hops boolean
  Tree mbb-prefer-current-hops
  Default false
  Introduced 16.0.R1
 

Platforms

All
p2mp-resignal-timer number
  Synopsis Resignal timer for P2MP LSPs
  Context configure router string mpls p2mp-resignal-timer number
  Tree p2mp-resignal-timer
  Range 60 to 10080
  Units minutes
  Introduced 16.0.R1
 

Platforms

All
p2mp-s2l-fast-retry number
  Synopsis Fast retry timer for P2MP S2L paths
  Context configure router string mpls p2mp-s2l-fast-retry number
  Tree p2mp-s2l-fast-retry
  Range 1 to 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
p2p-active-path-fast-retry number
  Synopsis Fast retry timer for P2P active paths
  Context configure router string mpls p2p-active-path-fast-retry number
  Tree p2p-active-path-fast-retry
  Range 1 to 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
path [path-name] string
  Synopsis Enter the path list instance
  Context configure router string mpls path string
  Tree path
  Max. Instances 65535
  Introduced 16.0.R1
 

Platforms

All
[path-name] string
  Synopsis Name for this LSP path
  Context configure router string mpls path string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the path used for LSPs
  Context configure router string mpls path string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
hop [hop-index] number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the hop list instance
  Context configure router string mpls path string hop number
  Tree hop
  Max. Instances 255
  Introduced 16.0.R1
 

Platforms

All
[hop-index] number
  Synopsis Index to identify a particular hop
  Context configure router string mpls path string hop number
  Range 1 to 1024
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
ip-address (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis IP address of the transit router
  Context configure router string mpls path string hop number ip-address (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree ip-address
 

Notes

The following elements are part of a mandatory choice: (ip-address and type) or sid-label.
  Introduced 16.0.R1
 

Platforms

All
sid-label number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis MPLS label for tunnel hop in the path of an SR-TE LSP
  Context configure router string mpls path string hop number sid-label number
  Tree sid-label
  Range 32 to 1048575
 

Notes

The following elements are part of a mandatory choice: (ip-address and type) or sid-label.
  Introduced 19.10.R1
 

Platforms

All
type keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Tunnel hop type
  Context configure router string mpls path string hop number type keyword
  Tree type
  Options strict, loose
 

Notes

The following elements are part of a mandatory choice: (ip-address and type) or sid-label.
  Introduced 16.0.R1
 

Platforms

All
pce-init-lsp
  Synopsis Enable the pce-init-lsp context
  Context configure router string mpls pce-init-lsp
  Tree pce-init-lsp
  Introduced 16.0.R5
 

Platforms

All
sr-te
  Synopsis Enable the sr-te context
  Context configure router string mpls pce-init-lsp sr-te
  Tree sr-te
  Introduced 16.0.R5
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of SR-TE PCE-initiated LSP support
  Context configure router string mpls pce-init-lsp sr-te admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R5
 

Platforms

All
pce-report
  Synopsis Enter the pce-report context
  Context configure router string mpls pce-report
  Tree pce-report
  Introduced 16.0.R1
 

Platforms

All
rsvp-te boolean
  Synopsis Allow PCE reporting for all TE LSPs of RSVP-TE type
  Context configure router string mpls pce-report rsvp-te boolean
  Tree rsvp-te
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-te boolean
  Synopsis Allow PCE reporting for all TE LSPs of SR-TE type
  Context configure router string mpls pce-report sr-te boolean
  Tree sr-te
  Default false
  Introduced 16.0.R1
 

Platforms

All
resignal-on-igp-overload boolean
  Synopsis Resignal all RSVP-TE LSPs upon IGP overload
  Context configure router string mpls resignal-on-igp-overload boolean
  Tree resignal-on-igp-overload
 

Description

When configured to true, the receipt of the IS-IS overload bit in the TE-DB triggers the immediate resignaling of all RSVP-TE LSPs. MPLS forces the expiry of the resignal timer and the TE-DB computes a new CSPF for each RSVP-TE LSP active path. The re-optimization causes the immediate transition of RSVP-TE LSP paths away from the IS-IS node in overload using the MBB operation.

This command cannot be configured to true when the retry-on-igp-overload command is configured to true.

When configured to false, the default behavior is maintained where MBB re-optimization occurs only when a timer-based resignal is performed or a manual resignal is executed.

  Default false
  Introduced 20.10.R1
 

Platforms

All
resignal-timer number
  Synopsis Resignal timer for RSVP LSPs
  Context configure router string mpls resignal-timer number
  Tree resignal-timer
  Range 30 to 10080
  Units minutes
  Introduced 16.0.R1
 

Platforms

All
retry-on-igp-overload boolean
  Synopsis Tear down LSPs when IGP is in overload state
  Context configure router string mpls retry-on-igp-overload boolean
  Tree retry-on-igp-overload
  Default false
  Introduced 16.0.R1
 

Platforms

All
secondary-fast-retry-timer number
  Synopsis Fast retry timer for secondary paths
  Context configure router string mpls secondary-fast-retry-timer number
  Tree secondary-fast-retry-timer
  Range 1 to 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
shortcut-local-ttl-propagate boolean
  Synopsis Propagate TTL over LSP shortcut for local packets
  Context configure router string mpls shortcut-local-ttl-propagate boolean
  Tree shortcut-local-ttl-propagate
  Default true
  Introduced 16.0.R1
 

Platforms

All
shortcut-transit-ttl-propagate boolean
  Synopsis Propagate TTL over LSP shortcut for local packets for transit packets
  Context configure router string mpls shortcut-transit-ttl-propagate boolean
  Tree shortcut-transit-ttl-propagate
  Default true
  Introduced 16.0.R1
 

Platforms

All
sr-te-resignal
  Synopsis Enter the sr-te-resignal context
  Context configure router string mpls sr-te-resignal
  Tree sr-te-resignal
  Introduced 19.10.R1
 

Platforms

All
resignal-on-igp-event boolean
  Synopsis Re-optimize SR-TE LSPs upon IGP link events
  Context configure router string mpls sr-te-resignal resignal-on-igp-event boolean
  Tree resignal-on-igp-event
 

Description

When configured to true, the system signals the re-optimization of all SR-TE LSPs when one or more IGP link down events are received in theTE-DB. The triggered behavior is identical to the timer-based or resignal behavior or the manual-based resignal behavior used with a delay option. MPLS forces the expiry of the resignal timer and all active paths of all SR-TE LSPs are re-evaluated.

When configured to false, re-optimization is not triggered by IGP events.
  Default false
  Introduced 19.10.R1
 

Platforms

All
resignal-timer number
  Synopsis Resignal timer for SR-TE LSPs
  Context configure router string mpls sr-te-resignal resignal-timer number
  Tree resignal-timer
 

Description

This command configures the time the system waits before signaling the re-optimization of all SR-TE LSPs.
  Range 30 to 10080
  Units minutes
  Introduced 19.10.R1
 

Platforms

All
srlg-database
  Synopsis Enter the srlg-database context
  Context configure router string mpls srlg-database
  Tree srlg-database
  Introduced 16.0.R1
 

Platforms

All
router-id [router-address] string
  Synopsis Enter the router-id list instance
  Context configure router string mpls srlg-database router-id string
  Tree router-id
  Introduced 16.0.R1
 

Platforms

All
[router-address] string
  Synopsis Router ID for the system
  Context configure router string mpls srlg-database router-id string
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the interface entry
  Context configure router string mpls srlg-database router-id string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
interface [interface-address] string srlg-group reference
  Synopsis Add a list entry for interface
  Context configure router string mpls srlg-database router-id string interface string srlg-group reference
  Tree interface
  Introduced 16.0.R1
 

Platforms

All
[interface-address] string
  Synopsis IP address of the interface
  Context configure router string mpls srlg-database router-id string interface string srlg-group reference
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
srlg-group reference
  Synopsis SRLG group name
  Context configure router string mpls srlg-database router-id string interface string srlg-group reference
 

Reference

configure routing-options if-attribute srlg-group string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
srlg-frr keyword
  Synopsis Use of SRLG constraint for FRR path computation
  Context configure router string mpls srlg-frr keyword
  Tree srlg-frr
  Options loose, strict
  Introduced 16.0.R1
 

Platforms

All
static-lsp [lsp-name] string
  Synopsis Enter the static-lsp list instance
  Context configure router string mpls static-lsp string
  Tree static-lsp
  Max. Instances 1000
  Introduced 16.0.R1
 

Platforms

All
[lsp-name] string
  Synopsis Labeled Switch path name
  Context configure router string mpls static-lsp string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the static LSP
  Context configure router string mpls static-lsp string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
metric number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis MPLS static LSP metric to select an LSP
  Context configure router string mpls static-lsp string metric number
  Tree metric
  Range 1 to 16777215
  Introduced 16.0.R1
 

Platforms

All
push
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the push context
  Context configure router string mpls static-lsp string push
  Tree push
  Introduced 16.0.R1
 

Platforms

All
next-hop string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis IP address for the next hop
  Context configure router string mpls static-lsp string push next-hop string
  Tree next-hop
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
out-label (number | keyword)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Push specific label onto the top of the outgoing packet's label stack
  Context configure router string mpls static-lsp string push out-label (number | keyword)
  Tree out-label
  Range 16 to 1048575
  Options implicit-null-label
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
to string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Destination IP address or the egress router for the LSP
  Context configure router string mpls static-lsp string to string
  Tree to
  Introduced 16.0.R1
 

Platforms

All
static-lsp-fast-retry number
  Synopsis Fast retry timer for static LSPs
  Context configure router string mpls static-lsp-fast-retry number
  Tree static-lsp-fast-retry
  Range 1 to 30
  Default 30
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
strict-ero-nhop-direct-resolution boolean
  Synopsis Resolves RSVP-TE LSP ERO to local and host routes only
  Context configure router string mpls strict-ero-nhop-direct-resolution boolean
  Tree strict-ero-nhop-direct-resolution
 

Description

When configured to true, the router enables the strict Explicit Route Object (ERO) next-hop direct resolution. The feature restricts the routes used to resolve the next hop of an ERO address to local and host routes. This command avoids using a next hop over a parallel link when a half link is up in the routing table.

This command applies to an ERO when all of the following conditions are met:

  • the ERO next hop is an IPv4 address

  • the ERO object is a strict hop

  • the IPv4 address matches the primary subnet of a local numbered interface

If no such route exists, RSVP rejects the PATH message with ErrCode = Routing Error (24) and SubErrCode = Bad Strict Node (2).

When configured to false, the router disables the strict ERO next-hop direct resolution.
  Default false
  Introduced 22.5.R1
 

Platforms

All
tunnel-table-pref
  Synopsis Enter the tunnel-table-pref context
  Context configure router string mpls tunnel-table-pref
  Tree tunnel-table-pref
 

Description

Commands in this context configure the tunnel table preference for RSVP-TE LSP and SR-TE LSP tunnel types.
  Introduced 21.10.R1
 

Platforms

All
rsvp-te number
  Synopsis RSVP-TE tunnel table preference
  Context configure router string mpls tunnel-table-pref rsvp-te number
  Tree rsvp-te
 

Description

This command configures the tunnel table preference for RSVP-TE LSP tunnel type.

The tunnel table preference applies to next-hop resolution of BGP routes for: EVPN, IPv4, IPv6, VPN-IPv4, VPN-IPv6, label-IPv4, and label-IPV6 in the tunnel table.

This feature does not apply to a VPRN, VPLS, or VLL service with explicit binding to an SDP that enabled the mixed-lsp-mode option. The service manager controls and fixes the tunnel preference in such an SDP. The tunnel table preference configuration does not modify the SDP behavior, nor the services that bind to it.

Nokia recommends that tunnel types have unique preference values. In a situation where two or more tunnel types are set to the same preference value, the tunnel table prefers the tunnel type which was first introduced in SR OS implementation historically.
  Range 1 to 255
  Default 7
  Introduced 21.10.R1
 

Platforms

All
sr-te number
  Synopsis SR-TE tunnel table preference
  Context configure router string mpls tunnel-table-pref sr-te number
  Tree sr-te
 

Description

This command configures the tunnel table preference for SR-TE LSP tunnel type.

The tunnel table preference applies to next-hop resolution of BGP routes for: EVPN, IPv4, IPv6, VPN-IPv4, VPN-IPv6, label-IPv4, and label-IPV6 in the tunnel table.

This feature does not apply to a VPRN, VPLS, or VLL service with explicit binding to an SDP that enabled the mixed-lsp-mode option. The service manager controls and fixes the tunnel preference in such an SDP. The tunnel table preference configuration does not modify the SDP behavior, nor the services that bind to it.

It is recommended to not set two or more tunnel types to the same preference value. In such a situation, the tunnel table prefers the tunnel type which was first introduced in SR OS implementation historically.
  Range 1 to 255
  Default 8
  Introduced 21.10.R1
 

Platforms

All
user-srlg-db boolean
  Synopsis Enable the use of user SRLG database
  Context configure router string mpls user-srlg-db boolean
  Tree user-srlg-db
  Default false
  Introduced 16.0.R1
 

Platforms

All

mpls-labels

  Synopsis Enter the mpls-labels context
  Context configure router string mpls-labels
  Tree mpls-labels
  Introduced 16.0.R1
 

Platforms

All
bgp-labels-hold-timer number
  Synopsis BGP labels hold timer for the ingress router
  Context configure router string mpls-labels bgp-labels-hold-timer number
  Tree bgp-labels-hold-timer
  Range 0 to 255
  Default 0
  Introduced 16.0.R1
 

Platforms

All
reserved-label-block [label-block-name] string
  Synopsis Enter the reserved-label-block list instance
  Context configure router string mpls-labels reserved-label-block string
  Tree reserved-label-block
  Max. Instances 16
  Introduced 16.0.R1
 

Platforms

All
[label-block-name] string
  Synopsis Name for the reserved label block
  Context configure router string mpls-labels reserved-label-block string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
end-label number
  Synopsis End label for the reserved label block
  Context configure router string mpls-labels reserved-label-block string end-label number
  Tree end-label
  Range 32 to 1048575
  Introduced 16.0.R1
 

Platforms

All
start-label number
  Synopsis Start label value for the reserved label block
  Context configure router string mpls-labels reserved-label-block string start-label number
  Tree start-label
  Range 32 to 1048575
  Introduced 16.0.R1
 

Platforms

All
sr-labels
  Synopsis Enter the sr-labels context
  Context configure router string mpls-labels sr-labels
  Tree sr-labels
  Introduced 16.0.R1
 

Platforms

All
end number
  Synopsis End label for the SRGB
  Context configure router string mpls-labels sr-labels end number
  Tree end
  Range 32 to 1048575
  Introduced 16.0.R1
 

Platforms

All
start number
  Synopsis Start label value for the SRGB
  Context configure router string mpls-labels sr-labels start number
  Tree start
  Range 32 to 1048575
  Introduced 16.0.R1
 

Platforms

All
static-label-range number
  Synopsis Static label range on the ingress router
  Context configure router string mpls-labels static-label-range number
  Tree static-label-range
  Range 0 to 1048544
  Default 18400
  Introduced 16.0.R1
 

Platforms

All

msdp

  Synopsis Enable the msdp context
  Context configure router string msdp
  Tree msdp
  Introduced 19.10.R1
 

Platforms

All
active-source-limit number
  Synopsis Maximum number of active messages accepted by MSDP
  Context configure router string msdp active-source-limit number
  Tree active-source-limit
  Range 0 to 1000000
  Introduced 19.10.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of MSDP
  Context configure router string msdp admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 19.10.R1
 

Platforms

All
data-encapsulation boolean
  Synopsis Enable encapsulation of multicast data used by MSDP
  Context configure router string msdp data-encapsulation boolean
  Tree data-encapsulation
  Default true
  Introduced 19.10.R1
 

Platforms

All
export-policy reference
  Synopsis Policies to export source active state into MSDP
  Context configure router string msdp export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 19.10.R1
 

Platforms

All
group [name] string
  Synopsis Enter the group list instance
  Context configure router string msdp group string
  Tree group
  Introduced 19.10.R1
 

Platforms

All
[name] string
  Synopsis MSDP group name
  Context configure router string msdp group string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 19.10.R1
 

Platforms

All
active-source-limit number
  Synopsis Maximum number of active messages accepted by MSDP
  Context configure router string msdp group string active-source-limit number
  Tree active-source-limit
  Range 0 to 1000000
  Introduced 19.10.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of MSDP
  Context configure router string msdp group string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 19.10.R1
 

Platforms

All
export-policy reference
  Synopsis Policies to export source active state into MSDP
  Context configure router string msdp group string export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 19.10.R1
 

Platforms

All
import-policy reference
  Synopsis Policies to import Source Active state from the Source Active list into MSDP
  Context configure router string msdp group string import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 19.10.R1
 

Platforms

All
local-address string
  Synopsis Local end of an MSDP session
  Context configure router string msdp group string local-address string
  Tree local-address
  Introduced 19.10.R1
 

Platforms

All
mode keyword
  Synopsis Topology of groups of peers
  Context configure router string msdp group string mode keyword
  Tree mode
  Default standard
  Options standard, mesh-group
  Introduced 19.10.R1
 

Platforms

All
peer [ip-address] string
  Synopsis Enter the peer list instance
  Context configure router string msdp group string peer string
  Tree peer
  Introduced 19.10.R1
 

Platforms

All
[ip-address] string
  Synopsis IP address of the remote MSDP router for peering
  Context configure router string msdp group string peer string
 

Notes

This element is part of a list key.
  Introduced 19.10.R1
 

Platforms

All
active-source-limit number
  Synopsis Maximum number of active messages accepted by MSDP
  Context configure router string msdp group string peer string active-source-limit number
  Tree active-source-limit
  Range 0 to 1000000
  Introduced 19.10.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of MSDP
  Context configure router string msdp group string peer string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 19.10.R1
 

Platforms

All
authentication-key string
  Synopsis MD5 authentication key for the MSDP peering session
  Context configure router string msdp group string peer string authentication-key string
  Tree authentication-key
  String Length 1 to 370
  Introduced 19.10.R1
 

Platforms

All
default-peer boolean
  Synopsis Enable/Disable default peer as MSDP peer
  Context configure router string msdp group string peer string default-peer boolean
  Tree default-peer
  Default false
  Introduced 19.10.R1
 

Platforms

All
export-policy reference
  Synopsis Policies to export source active state into MSDP
  Context configure router string msdp group string peer string export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 19.10.R1
 

Platforms

All
import-policy reference
  Synopsis Policies to import Source Active state from the Source Active list into MSDP
  Context configure router string msdp group string peer string import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 19.10.R1
 

Platforms

All
local-address string
  Synopsis Local end of an MSDP session
  Context configure router string msdp group string peer string local-address string
  Tree local-address
  Introduced 19.10.R1
 

Platforms

All
receive-message-rate
  Synopsis Enter the receive-message-rate context
  Context configure router string msdp group string peer string receive-message-rate
  Tree receive-message-rate
  Introduced 19.10.R1
 

Platforms

All
rate number
  Synopsis Number of MSDP messages read from the TCP session
  Context configure router string msdp group string peer string receive-message-rate rate number
  Tree rate
  Range 10 to 10000
  Introduced 19.10.R1
 

Platforms

All
threshold number
  Synopsis Limit for MSDP messages read from the TCP session
  Context configure router string msdp group string peer string receive-message-rate threshold number
  Tree threshold
  Range 1 to 1000000
  Introduced 19.10.R1
 

Platforms

All
time number
  Synopsis Limit of MSDP messages read from the TCP session
  Context configure router string msdp group string peer string receive-message-rate time number
  Tree time
  Range 1 to 600
  Units seconds
  Introduced 19.10.R1
 

Platforms

All
receive-message-rate
  Synopsis Enter the receive-message-rate context
  Context configure router string msdp group string receive-message-rate
  Tree receive-message-rate
  Introduced 19.10.R1
 

Platforms

All
rate number
  Synopsis Number of MSDP messages read from the TCP session
  Context configure router string msdp group string receive-message-rate rate number
  Tree rate
  Range 10 to 10000
  Introduced 19.10.R1
 

Platforms

All
threshold number
  Synopsis Limit for MSDP messages read from the TCP session
  Context configure router string msdp group string receive-message-rate threshold number
  Tree threshold
  Range 1 to 1000000
  Introduced 19.10.R1
 

Platforms

All
time number
  Synopsis Limit of MSDP messages read from the TCP session
  Context configure router string msdp group string receive-message-rate time number
  Tree time
  Range 1 to 600
  Units seconds
  Introduced 19.10.R1
 

Platforms

All
import-policy reference
  Synopsis Policies to import Source Active state from the Source Active list into MSDP
  Context configure router string msdp import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 19.10.R1
 

Platforms

All
local-address string
  Synopsis Local end of an MSDP session
  Context configure router string msdp local-address string
  Tree local-address
  Introduced 19.10.R1
 

Platforms

All
peer [ip-address] string
  Synopsis Enter the peer list instance
  Context configure router string msdp peer string
  Tree peer
  Introduced 19.10.R1
 

Platforms

All
[ip-address] string
  Synopsis IP address of the remote MSDP router for peering
  Context configure router string msdp peer string
 

Notes

This element is part of a list key.
  Introduced 19.10.R1
 

Platforms

All
active-source-limit number
  Synopsis Maximum number of active messages accepted by MSDP
  Context configure router string msdp peer string active-source-limit number
  Tree active-source-limit
  Range 0 to 1000000
  Introduced 19.10.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of MSDP
  Context configure router string msdp peer string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 19.10.R1
 

Platforms

All
authentication-key string
  Synopsis MD5 authentication key for the MSDP peering session
  Context configure router string msdp peer string authentication-key string
  Tree authentication-key
  String Length 1 to 370
  Introduced 19.10.R1
 

Platforms

All
default-peer boolean
  Synopsis Enable/Disable default peer as MSDP peer
  Context configure router string msdp peer string default-peer boolean
  Tree default-peer
  Default false
  Introduced 19.10.R1
 

Platforms

All
export-policy reference
  Synopsis Policies to export source active state into MSDP
  Context configure router string msdp peer string export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 19.10.R1
 

Platforms

All
import-policy reference
  Synopsis Policies to import Source Active state from the Source Active list into MSDP
  Context configure router string msdp peer string import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 19.10.R1
 

Platforms

All
local-address string
  Synopsis Local end of an MSDP session
  Context configure router string msdp peer string local-address string
  Tree local-address
  Introduced 19.10.R1
 

Platforms

All
receive-message-rate
  Synopsis Enter the receive-message-rate context
  Context configure router string msdp peer string receive-message-rate
  Tree receive-message-rate
  Introduced 19.10.R1
 

Platforms

All
rate number
  Synopsis Number of MSDP messages read from the TCP session
  Context configure router string msdp peer string receive-message-rate rate number
  Tree rate
  Range 10 to 10000
  Introduced 19.10.R1
 

Platforms

All
threshold number
  Synopsis Limit for MSDP messages read from the TCP session
  Context configure router string msdp peer string receive-message-rate threshold number
  Tree threshold
  Range 1 to 1000000
  Introduced 19.10.R1
 

Platforms

All
time number
  Synopsis Limit of MSDP messages read from the TCP session
  Context configure router string msdp peer string receive-message-rate time number
  Tree time
  Range 1 to 600
  Units seconds
  Introduced 19.10.R1
 

Platforms

All
receive-message-rate
  Synopsis Enter the receive-message-rate context
  Context configure router string msdp receive-message-rate
  Tree receive-message-rate
  Introduced 19.10.R1
 

Platforms

All
rate number
  Synopsis Number of MSDP messages read from the TCP session
  Context configure router string msdp receive-message-rate rate number
  Tree rate
  Range 10 to 10000
  Introduced 19.10.R1
 

Platforms

All
threshold number
  Synopsis Limit for MSDP messages read from the TCP session
  Context configure router string msdp receive-message-rate threshold number
  Tree threshold
  Range 1 to 1000000
  Introduced 19.10.R1
 

Platforms

All
time number
  Synopsis Limit of MSDP messages read from the TCP session
  Context configure router string msdp receive-message-rate time number
  Tree time
  Range 1 to 600
  Units seconds
  Introduced 19.10.R1
 

Platforms

All
rpf-table keyword
  Synopsis Route tables for RPF lookup
  Context configure router string msdp rpf-table keyword
  Tree rpf-table
  Default rtable-u
  Options rtable-m, rtable-u, both
  Introduced 19.10.R1
 

Platforms

All
source [ip-prefix] string
  Synopsis Enter the source list instance
  Context configure router string msdp source string
  Tree source
  Introduced 19.10.R1
 

Platforms

All
[ip-prefix] string
  Synopsis Source IP address for accepted active source messages
  Context configure router string msdp source string
 

Notes

This element is part of a list key.
  Introduced 19.10.R1
 

Platforms

All
active-source-limit number
  Synopsis Number of active source messages accepted by MSDP
  Context configure router string msdp source string active-source-limit number
  Tree active-source-limit
  Range 0 to 1000000
  Introduced 19.10.R1
 

Platforms

All
source-active-cache-lifetime number
  Synopsis Lifetime given to SA cache entries when created or refreshed
  Context configure router string msdp source-active-cache-lifetime number
  Tree source-active-cache-lifetime
  Range 90 to 600
  Default 90
  Units seconds
  Introduced 19.10.R1
 

Platforms

All

mss-adjust

  Synopsis Enable the mss-adjust context
  Context configure router string mss-adjust
  Tree mss-adjust
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-group number
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis NAT group used for TCP-MSS adjustment
  Context configure router string mss-adjust nat-group number
  Tree nat-group
  Max. Range 0 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
segment-size number
  Synopsis TCP-MSS option value in transmitted TCP SYN requests
  Context configure router string mss-adjust segment-size number
  Tree segment-size
  Range 160 to 10240
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR

mtrace2

  Synopsis Enter the mtrace2 context
  Context configure router string mtrace2
  Tree mtrace2
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of multicast path tracing
  Context configure router string mtrace2 admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
udp-port number
  Synopsis Destination UDP port for mstat2|mtrace2 test, or unsolicited mstat2|mtrace2 packets
  Context configure router string mtrace2 udp-port number
  Tree udp-port
  Range 1024 to 49151
  Default 5000
  Introduced 16.0.R1
 

Platforms

All

multicast-info-policy reference

  Synopsis Multicast policy name for virtual router
  Context configure router string multicast-info-policy reference
  Tree multicast-info-policy
 

Reference

configure multicast-management multicast-info-policy string

  Introduced 16.0.R1
 

Platforms

All

nat

  Synopsis Enable the nat context
  Context configure router string nat
  Tree nat
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
inside
  Synopsis Enter the inside context
  Context configure router string nat inside
  Tree inside
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
l2-aware
  Synopsis Enter the l2-aware context
  Context configure router string nat inside l2-aware
  Tree l2-aware
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
subscribers [prefix] string
  Synopsis Add a list entry for subscribers
  Context configure router string nat inside l2-aware subscribers string
  Tree subscribers
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[prefix] string
  Synopsis Layer-2 Aware NAT subscriber prefix
  Context configure router string nat inside l2-aware subscribers string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
large-scale
  Synopsis Enter the large-scale context
  Context configure router string nat inside large-scale
  Tree large-scale
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
dnat-only
  Synopsis Enter the dnat-only context
  Context configure router string nat inside large-scale dnat-only
  Tree dnat-only
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
source-prefix-list reference
  Synopsis NAT prefix list that contains source IP addresses
  Context configure router string nat inside large-scale dnat-only source-prefix-list reference
  Tree source-prefix-list
 

Reference

configure service nat prefix-list string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
dual-stack-lite
  Synopsis Enter the dual-stack-lite context
  Context configure router string nat inside large-scale dual-stack-lite
  Tree dual-stack-lite
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of Dual Stack Lite
  Context configure router string nat inside large-scale dual-stack-lite admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
deterministic
  Synopsis Enter the deterministic context
  Context configure router string nat inside large-scale dual-stack-lite deterministic
  Tree deterministic
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
policy-map [source-prefix] string
WARNING:

This element is deprecated and will be removed in a future release.
  Synopsis Enter the policy-map list instance
  Context configure router string nat inside large-scale dual-stack-lite deterministic policy-map string
  Tree policy-map
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[source-prefix] string
WARNING:

This element is deprecated and will be removed in a future release.
  Synopsis Source prefix that adds traffic to NAT pool
  Context configure router string nat inside large-scale dual-stack-lite deterministic policy-map string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
WARNING:

This element is deprecated and will be removed in a future release.
  Synopsis Administrative state of the prefix
  Context configure router string nat inside large-scale dual-stack-lite deterministic policy-map string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
map [from] string to string
WARNING:

This element is deprecated and will be removed in a future release.
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the map list instance
  Context configure router string nat inside large-scale dual-stack-lite deterministic policy-map string map string to string
  Tree map
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[from] string
WARNING:

This element is deprecated and will be removed in a future release.
  Synopsis Beginning of the range for IPv6 addresses
  Context configure router string nat inside large-scale dual-stack-lite deterministic policy-map string map string to string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
to string
WARNING:

This element is deprecated and will be removed in a future release.
  Synopsis Inside end IPv6 address to map to outside IP addresses
  Context configure router string nat inside large-scale dual-stack-lite deterministic policy-map string map string to string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
first-outside-address string
WARNING:

This element is deprecated and will be removed in a future release.
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Outside IP address mapped to inside IP address range
  Context configure router string nat inside large-scale dual-stack-lite deterministic policy-map string map string to string first-outside-address string
  Tree first-outside-address
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-policy reference
WARNING:

This element is deprecated and will be removed in a future release.
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis NAT policy
  Context configure router string nat inside large-scale dual-stack-lite deterministic policy-map string nat-policy reference
  Tree nat-policy
 

Reference

configure service nat nat-policy string

 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
prefix-map [source-prefix] string nat-policy reference
  Synopsis Enter the prefix-map list instance
  Context configure router string nat inside large-scale dual-stack-lite deterministic prefix-map string nat-policy reference
  Tree prefix-map
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[source-prefix] string
  Synopsis List containing source IP addresses on the private side
  Context configure router string nat inside large-scale dual-stack-lite deterministic prefix-map string nat-policy reference
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-policy reference
  Synopsis NAT policy
  Context configure router string nat inside large-scale dual-stack-lite deterministic prefix-map string nat-policy reference
 

Reference

configure service nat nat-policy string

 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the prefix
  Context configure router string nat inside large-scale dual-stack-lite deterministic prefix-map string nat-policy reference admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
map [from] string to string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the map list instance
  Context configure router string nat inside large-scale dual-stack-lite deterministic prefix-map string nat-policy reference map string to string
  Tree map
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[from] string
  Synopsis Beginning of the range for IPv6 addresses
  Context configure router string nat inside large-scale dual-stack-lite deterministic prefix-map string nat-policy reference map string to string
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
to string
  Synopsis End of the range for IPv6 addresses
  Context configure router string nat inside large-scale dual-stack-lite deterministic prefix-map string nat-policy reference map string to string
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
first-outside-address string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Outside IP address mapped to inside IP address range
  Context configure router string nat inside large-scale dual-stack-lite deterministic prefix-map string nat-policy reference map string to string first-outside-address string
  Tree first-outside-address
 

Notes

This element is mandatory.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
endpoint [address] string
  Synopsis Enter the endpoint list instance
  Context configure router string nat inside large-scale dual-stack-lite endpoint string
  Tree endpoint
  Max. Instances 128
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[address] string
  Synopsis Dual Stack Lite IPv6 address
  Context configure router string nat inside large-scale dual-stack-lite endpoint string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ip-fragmentation keyword
  Synopsis Fragmentation control of the AFTR originated downstream IPv6 traffic
  Context configure router string nat inside large-scale dual-stack-lite endpoint string ip-fragmentation keyword
  Tree ip-fragmentation
  Options fragment-ipv6, fragment-ipv6-unless-ipv4-df-set
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
min-first-fragment-size-rx number
  Synopsis Minimum MTU size for upstream packets
  Context configure router string nat inside large-scale dual-stack-lite endpoint string min-first-fragment-size-rx number
  Tree min-first-fragment-size-rx
 

Description

This command configures the minimum MTU size for the first fragment in the upstream direction. This command can be used to enable processing of first IPv6 fragments smaller than 1280 bytes. RFC 8200 recommends the minimum MTU in IPv6 be 1280 bytes which allows fragmentation only for packets that are larger than 1280 bytes. If a first fragment is smaller than 1280 bytes, DS-lite implementation in the SR OS, by default, drops the first fragment.
  Range 512 to 1280
  Default 1280
  Introduced 21.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
reassembly boolean
  Synopsis Reassembly of IPv6 payload datagrams
  Context configure router string nat inside large-scale dual-stack-lite endpoint string reassembly boolean
  Tree reassembly
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
tunnel-mtu number
  Synopsis DS-Lite tunnel MTU for this address
  Context configure router string nat inside large-scale dual-stack-lite endpoint string tunnel-mtu number
  Tree tunnel-mtu
 

Description

This command configures the Dual Stack Lite (DS-Lite) tunnel MTU for this address.
  Range 464 to 9212
  Default 1500
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
max-subscriber-limit number
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis Largest value for all subscriber limits in each deterministic pool
  Context configure router string nat inside large-scale dual-stack-lite max-subscriber-limit number
  Tree max-subscriber-limit
  Range 1 | 2 | 4 | 8 | 16 | 32 | 64 | 128 | 256 | 512 | 1024 | 2048 | 4096 | 8192 | 16384 | 32768
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
subscriber-prefix-length number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis IPv6 prefix length of the Dual Stack Lite subscribers
  Context configure router string nat inside large-scale dual-stack-lite subscriber-prefix-length number
  Tree subscriber-prefix-length
  Range 32 to 64 | 128
  Default 128
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-policy reference
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis NAT policy for LSN
  Context configure router string nat inside large-scale nat-policy reference
  Tree nat-policy
 

Reference

configure service nat nat-policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat44
  Synopsis Enter the nat44 context
  Context configure router string nat inside large-scale nat44
  Tree nat44
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
destination-prefix [ip-prefix-length] string
  Synopsis Enter the destination-prefix list instance
  Context configure router string nat inside large-scale nat44 destination-prefix string
  Tree destination-prefix
  Max. Instances 6144
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[ip-prefix-length] string
  Synopsis Traffic sent to destinations within this prefix will be NATed
  Context configure router string nat inside large-scale nat44 destination-prefix string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-policy reference
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis NAT policy
  Context configure router string nat inside large-scale nat44 destination-prefix string nat-policy reference
  Tree nat-policy
 

Reference

configure service nat nat-policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
deterministic
  Synopsis Enter the deterministic context
  Context configure router string nat inside large-scale nat44 deterministic
  Tree deterministic
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
policy-map [source-prefix] string
WARNING:

This element is deprecated and will be removed in a future release.
  Synopsis Enter the policy-map list instance
  Context configure router string nat inside large-scale nat44 deterministic policy-map string
  Tree policy-map
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[source-prefix] string
WARNING:

This element is deprecated and will be removed in a future release.
  Synopsis Source prefix that adds traffic to NAT pool
  Context configure router string nat inside large-scale nat44 deterministic policy-map string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
WARNING:

This element is deprecated and will be removed in a future release.
  Synopsis Administrative state of the prefix
  Context configure router string nat inside large-scale nat44 deterministic policy-map string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
map [from] string to string
WARNING:

This element is deprecated and will be removed in a future release.
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the map list instance
  Context configure router string nat inside large-scale nat44 deterministic policy-map string map string to string
  Tree map
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[from] string
WARNING:

This element is deprecated and will be removed in a future release.
  Synopsis Beginning of the range for IPv4 addresses
  Context configure router string nat inside large-scale nat44 deterministic policy-map string map string to string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
to string
WARNING:

This element is deprecated and will be removed in a future release.
  Synopsis End of the range for IPv4 addresses
  Context configure router string nat inside large-scale nat44 deterministic policy-map string map string to string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
first-outside-address string
WARNING:

This element is deprecated and will be removed in a future release.
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Outside IP address mapped to inside IP address range
  Context configure router string nat inside large-scale nat44 deterministic policy-map string map string to string first-outside-address string
  Tree first-outside-address
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-policy reference
WARNING:

This element is deprecated and will be removed in a future release.
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis NAT policy
  Context configure router string nat inside large-scale nat44 deterministic policy-map string nat-policy reference
  Tree nat-policy
 

Reference

configure service nat nat-policy string

 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
prefix-map [source-prefix] string nat-policy reference
  Synopsis Enter the prefix-map list instance
  Context configure router string nat inside large-scale nat44 deterministic prefix-map string nat-policy reference
  Tree prefix-map
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[source-prefix] string
  Synopsis Traffic sent from sources within this prefix will be NATed
  Context configure router string nat inside large-scale nat44 deterministic prefix-map string nat-policy reference
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-policy reference
  Synopsis NAT policy
  Context configure router string nat inside large-scale nat44 deterministic prefix-map string nat-policy reference
 

Reference

configure service nat nat-policy string

 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the prefix
  Context configure router string nat inside large-scale nat44 deterministic prefix-map string nat-policy reference admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
map [from] string to string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the map list instance
  Context configure router string nat inside large-scale nat44 deterministic prefix-map string nat-policy reference map string to string
  Tree map
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[from] string
  Synopsis Beginning of the range for IPv4 addresses
  Context configure router string nat inside large-scale nat44 deterministic prefix-map string nat-policy reference map string to string
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
to string
  Synopsis End of the range for IPv4 addresses
  Context configure router string nat inside large-scale nat44 deterministic prefix-map string nat-policy reference map string to string
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
first-outside-address string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Outside IP address mapped to inside IP address range
  Context configure router string nat inside large-scale nat44 deterministic prefix-map string nat-policy reference map string to string first-outside-address string
  Tree first-outside-address
 

Notes

This element is mandatory.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
max-subscriber-limit number
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis Largest value for all subscriber limits in each deterministic pool
  Context configure router string nat inside large-scale nat44 max-subscriber-limit number
  Tree max-subscriber-limit
  Range 1 | 2 | 4 | 8 | 16 | 32 | 64 | 128 | 256 | 512 | 1024 | 2048 | 4096 | 8192 | 16384 | 32768
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-import reference
  Synopsis Import BGP-VPN routes in NAT inside routing context
  Context configure router string nat inside large-scale nat44 nat-import reference
  Tree nat-import
 

Description

This command references an import policy to determine the routes that should be installed in the routing table as NAT routes, which are used to steer traffic to NAT.

A dynamic route obtained by BGP-VPN can be imported into an inside (private side) routing context in NAT environment. This route is associated with a NAT policy that maps traffic destined into a NAT pool and outside routing context. If the NAT policy is not explicitly configured in the import route-policy, the imported NAT route is, by default, associated with the default NAT policy defined in the NAT inside routing context.

All BGP-VPN routes that are destined to be imported into NAT inside routing context must be configured with action-type accept in the route policy.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat64
  Synopsis Enable the nat64 context
  Context configure router string nat inside large-scale nat64
  Tree nat64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of NAT64
  Context configure router string nat inside large-scale nat64 admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
drop-zero-ipv4-checksum boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Drop UDP datagrams with zero IPv4 checksum
  Context configure router string nat inside large-scale nat64 drop-zero-ipv4-checksum boolean
  Tree drop-zero-ipv4-checksum
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
insert-ipv6-fragment-header boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Include IPv6 fragment header to indicate that the sender allows fragmentation
  Context configure router string nat inside large-scale nat64 insert-ipv6-fragment-header boolean
  Tree insert-ipv6-fragment-header
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ip-fragmentation keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Control fragmentation of originated downstream IPv6 traffic
  Context configure router string nat inside large-scale nat64 ip-fragmentation keyword
  Tree ip-fragmentation
  Options fragment-ipv6, fragment-ipv6-unless-ipv4-df-set
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ipv6-mtu number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Size of the IPv6 downstream packet in NAT64
  Context configure router string nat inside large-scale nat64 ipv6-mtu number
  Tree ipv6-mtu
  Range 1280 to 9212
  Default 1520
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
prefix string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis IPv6 prefix to derive the IPv6 address from the IPv4 address
  Context configure router string nat inside large-scale nat64 prefix string
  Tree prefix
  Default 64:ff9b::/96
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
subscriber-prefix-length number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis IPv6 prefix length for the NAT64 subscribers
  Context configure router string nat inside large-scale nat64 subscriber-prefix-length number
  Tree subscriber-prefix-length
  Range 32 to 64 | 128
  Default 128
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
tos
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the tos context
  Context configure router string nat inside large-scale nat64 tos
  Tree tos
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
downstream
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the downstream context
  Context configure router string nat inside large-scale nat64 tos downstream
  Tree downstream
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
use-ipv4 boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Copy TOS/DSCP bits from the incoming IPv4 frame to the outgoing IPv6 frame
  Context configure router string nat inside large-scale nat64 tos downstream use-ipv4 boolean
  Tree use-ipv4
  Default false
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
upstream
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the upstream context
  Context configure router string nat inside large-scale nat64 tos upstream
  Tree upstream
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
set-tos (keyword | number)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis TOS/DSCP bits in IPv4 frame in the upstream direction
  Context configure router string nat inside large-scale nat64 tos upstream set-tos (keyword | number)
  Tree set-tos
  Range 0 to 255
  Default use-ipv6
  Options use-ipv6
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
redundancy
  Synopsis Enter the redundancy context
  Context configure router string nat inside large-scale redundancy
  Tree redundancy
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
peer string
  Synopsis IP address of the NAT redundancy peer for this virtual router instance
  Context configure router string nat inside large-scale redundancy peer string
  Tree peer
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
peer6 string
  Synopsis IPv6 address of the NAT redundancy peer for this virtual router instance
  Context configure router string nat inside large-scale redundancy peer6 string
  Tree peer6
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
steering-route string
  Synopsis IP address and prefix length of the steering route
  Context configure router string nat inside large-scale redundancy steering-route string
  Tree steering-route
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
subscriber-identification
  Synopsis Enter the subscriber-identification context
  Context configure router string nat inside large-scale subscriber-identification
  Tree subscriber-identification
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of subscriber identification
  Context configure router string nat inside large-scale subscriber-identification admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
attribute
  Synopsis Enter the attribute context
  Context configure router string nat inside large-scale subscriber-identification attribute
  Tree attribute
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
type keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis RADIUS attribute used as subscriber identifier
  Context configure router string nat inside large-scale subscriber-identification attribute type keyword
  Tree type
  Default alc-sub-string
  Options alc-sub-string, user-name, class, station-id, imsi, imei
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
vendor keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis The RADIUS Vendor
  Context configure router string nat inside large-scale subscriber-identification attribute vendor keyword
  Tree vendor
  Default nokia
  Options standard, nokia, 3gpp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string nat inside large-scale subscriber-identification description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
drop-unidentified-traffic boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Drop traffic from unidentified flows
  Context configure router string nat inside large-scale subscriber-identification drop-unidentified-traffic boolean
  Tree drop-unidentified-traffic
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
radius-proxy-server
  Synopsis Enable the radius-proxy-server context
  Context configure router string nat inside large-scale subscriber-identification radius-proxy-server
  Tree radius-proxy-server
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
router-instance string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Router instance
  Context configure router string nat inside large-scale subscriber-identification radius-proxy-server router-instance string
  Tree router-instance
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
server string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Server name
  Context configure router string nat inside large-scale subscriber-identification radius-proxy-server server string
  Tree server
  String Length 1 to 32
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
map
  Synopsis Enter the map context
  Context configure router string nat map
  Tree map
  Introduced 16.0.R1
 

Platforms

VSR
map-domain [domain-name] reference
  Synopsis Add a list entry for map-domain
  Context configure router string nat map map-domain reference
  Tree map-domain
  Introduced 16.0.R1
 

Platforms

VSR
[domain-name] reference
  Synopsis MAP domain template name
  Context configure router string nat map map-domain reference
 

Reference

configure service nat map-t domain string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

VSR
outside
  Synopsis Enter the outside context
  Context configure router string nat outside
  Tree outside
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
dnat-only
  Synopsis Enter the dnat-only context
  Context configure router string nat outside dnat-only
  Tree dnat-only
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
route-limit number
  Synopsis Number that is used to limit internal routes for downstream traffic
  Context configure router string nat outside dnat-only route-limit number
  Tree route-limit
  Range 1 to 131072
  Default 32768
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
filters
  Synopsis Enter the filters context
  Context configure router string nat outside filters
  Tree filters
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
downstream
  Synopsis Enter the downstream context
  Context configure router string nat outside filters downstream
  Tree downstream
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ipv4 reference
  Synopsis IPv4 filter policy name
  Context configure router string nat outside filters downstream ipv4 reference
  Tree ipv4
 

Reference

configure filter ip-filter string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ipv6 reference
  Synopsis IPv6 filter policy name
  Context configure router string nat outside filters downstream ipv6 reference
  Tree ipv6
 

Reference

configure filter ipv6-filter string

  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
upstream
  Synopsis Enter the upstream context
  Context configure router string nat outside filters upstream
  Tree upstream
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ipv4 reference
  Synopsis IPv4 filter policy name
  Context configure router string nat outside filters upstream ipv4 reference
  Tree ipv4
 

Reference

configure filter ip-filter string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ipv6 reference
  Synopsis IPv6 filter policy name
  Context configure router string nat outside filters upstream ipv6 reference
  Tree ipv6
 

Reference

configure filter ipv6-filter string

  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
mtu number
  Synopsis MTU for downstream traffic
  Context configure router string nat outside mtu number
  Tree mtu
  Range 512 to 9000
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
pool [name] string
  Synopsis Enter the pool list instance
  Context configure router string nat outside pool string
  Tree pool
  Max. Instances 4096
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[name] string
  Synopsis NAT pool name
  Context configure router string nat outside pool string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
address-range [start] string end string
  Synopsis Enter the address-range list instance
  Context configure router string nat outside pool string address-range string end string
  Tree address-range
  Max. Instances 4096
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[start] string
  Synopsis Lower bound of the NAT address range
  Context configure router string nat outside pool string address-range string end string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
end string
  Synopsis Upper bound of the NAT address range
  Context configure router string nat outside pool string address-range string end string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string nat outside pool string address-range string end string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
drain boolean
  Synopsis Start or stop draining this NAT address range
  Context configure router string nat outside pool string address-range string end string drain boolean
  Tree drain
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the outside routing NAT pool
  Context configure router string nat outside pool string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
applications
  Synopsis Enter the applications context
  Context configure router string nat outside pool string applications
  Tree applications
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
agnostic boolean
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis NAT pool to create in the outside routing context
  Context configure router string nat outside pool string applications agnostic boolean
  Tree agnostic
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string nat outside pool string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
icmp-echo-reply boolean
  Synopsis Allow NAT pool IP addresses to respond to ICMP PINGs
  Context configure router string nat outside pool string icmp-echo-reply boolean
  Tree icmp-echo-reply
 

Description

This command allows IP addresses in the NAT pool to respond to ICMP Echo requests (PINGs). The configuration can be toggled while the pool is in use.

In L2-aware NAT when port-block-extensions is disabled, the reply from an outside IP address is generated only when this IP address has at least one host (binding) behind it.

In L2-aware NAT when port-block-extensions is enabled, the reply from an outside IP address is generated regardless if a binding is present.

In LSN, the reply from an outside IP address is generated regardless if a binding is present.

  Default false
  Introduced 21.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
l2-aware
  Synopsis Enter the l2-aware context
  Context configure router string nat outside pool string l2-aware
  Tree l2-aware
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
external-assignment boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis External IP address for Layer-2-aware
  Context configure router string nat outside pool string l2-aware external-assignment boolean
  Tree external-assignment
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
port-block-extension
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the port-block-extension context
  Context configure router string nat outside pool string l2-aware port-block-extension
  Tree port-block-extension
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ports number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Number of ports per dynamic port-block
  Context configure router string nat outside pool string l2-aware port-block-extension ports number
  Tree ports
  Range 10 to 5000
 

Notes

This element is mandatory.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
subscriber
  Synopsis Enter the subscriber context
  Context configure router string nat outside pool string l2-aware port-block-extension subscriber
  Tree subscriber
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
watermarks
  Synopsis Enable the watermarks context
  Context configure router string nat outside pool string l2-aware port-block-extension subscriber watermarks
  Tree watermarks
 

Description

This command configures watermarks for NAT resources.
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
high number
  Synopsis High watermark percentage
  Context configure router string nat outside pool string l2-aware port-block-extension subscriber watermarks high number
  Tree high
 

Description

This command configures the high threshold value as a percentage of the total port-block space in a NAT pool.
  Range 0 to 100
  Units percent
 

Notes

This element is mandatory.
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
low number
  Synopsis Low watermark percentage
  Context configure router string nat outside pool string l2-aware port-block-extension subscriber watermarks low number
  Tree low
 

Description

This command configures the low threshold value as a percentage of the total port-block space in a NAT pool.
  Range 0 to 100
  Units percent
 

Notes

This element is mandatory.
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
subscriber-limit number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Number of L2-Aware NAT subscribers per outside address
  Context configure router string nat outside pool string l2-aware port-block-extension subscriber-limit number
  Tree subscriber-limit
 

Description

When port-block extensions for the L2-Aware subscribers are enabled, the port space for an outside IP address is divided into the following:

  • well-known port (this is a fixed and permanently allocated block of ports for all NAT types)

  • static port-forwarding range (if enabled by configuration)

  • port range allocated for initial port blocks of each L2-Aware subscriber

  • port range allocated for extended port blocks for the remainder after the three previous port ranges

The number of L2-Aware NAT subscribers per an outside IP address multiplied by the size of the initial port-block size determines the size of the port range reserved for initial port-blocks of each subscriber.

The lower boundary of the extended port range is determined by adding the upper boundary of the configured port forwarding range and the size of the port range allocated for initial port blocks.
  Range 2 to 2000
 

Notes

This element is mandatory.
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
watermarks
  Synopsis Enable the watermarks context
  Context configure router string nat outside pool string l2-aware port-block-extension watermarks
  Tree watermarks
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
high number
  Synopsis High watermark percentage
  Context configure router string nat outside pool string l2-aware port-block-extension watermarks high number
  Tree high
 

Description

This command configures the high threshold value as a percentage of the total port-block space in a NAT pool.
  Range 0 to 100
  Units percent
 

Notes

This element is mandatory.
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
low number
  Synopsis Low watermark percentage
  Context configure router string nat outside pool string l2-aware port-block-extension watermarks low number
  Tree low
 

Description

This command configures the low threshold value as a percentage of the total port-block space in a NAT pool.
  Range 0 to 100
  Units percent
 

Notes

This element is mandatory.
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
large-scale
  Synopsis Enter the large-scale context
  Context configure router string nat outside pool string large-scale
  Tree large-scale
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
deterministic
  Synopsis Enter the deterministic context
  Context configure router string nat outside pool string large-scale deterministic
  Tree deterministic
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
port-reservation number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis Number of ports per deterministic port-block
  Context configure router string nat outside pool string large-scale deterministic port-reservation number
  Tree port-reservation
  Range 1 to 65536
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
watermarks
  Synopsis Enable the watermarks context
  Context configure router string nat outside pool string large-scale deterministic watermarks
  Tree watermarks
 

Description

Commands in this context monitor extended (dynamic) port-block utilization per outside IP in a NAT pool in deterministic LSN.

High and low thresholds are configured in percentages of total available extended port-blocks per outside IP in a pool. Both values represent extended port-block utilization or occupancy per outside IP in a pool.

For the system to generate those events, the NAT event-id 2045 must be enabled through configuration in the log event-control.
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
high number
  Synopsis High watermark percentage
  Context configure router string nat outside pool string large-scale deterministic watermarks high number
  Tree high
 

Description

This command configures the high threshold value as a percentage of the total port-block space in a NAT pool.
  Range 0 to 100
  Units percent
 

Notes

This element is mandatory.
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
low number
  Synopsis Low watermark percentage
  Context configure router string nat outside pool string large-scale deterministic watermarks low number
  Tree low
 

Description

This command configures the low threshold value as a percentage of the total port-block space in a NAT pool.
  Range 0 to 100
  Units percent
 

Notes

This element is mandatory.
  Introduced 22.2.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
redundancy
  Synopsis Enter the redundancy context
  Context configure router string nat outside pool string large-scale redundancy
  Tree redundancy
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of NAT pool redundancy
  Context configure router string nat outside pool string large-scale redundancy admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
 

Notes

The following elements are part of a choice: (admin-state, export-route, and monitor-route) or follow.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
export-route string
  Synopsis Route to export to the peer
  Context configure router string nat outside pool string large-scale redundancy export-route string
  Tree export-route
 

Notes

The following elements are part of a choice: (admin-state, export-route, and monitor-route) or follow.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
follow
  Synopsis Enter the follow context
  Context configure router string nat outside pool string large-scale redundancy follow
  Tree follow
 

Notes

The following elements are part of a choice: (admin-state, export-route, and monitor-route) or follow.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
name string
  Synopsis Name of the pool where activity is shared
  Context configure router string nat outside pool string large-scale redundancy follow name string
  Tree name
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
router-instance string
  Synopsis Router instance where the lead pool resides
  Context configure router string nat outside pool string large-scale redundancy follow router-instance string
  Tree router-instance
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
monitor-route string
  Synopsis Monitor the peer route
  Context configure router string nat outside pool string large-scale redundancy monitor-route string
  Tree monitor-route
 

Notes

The following elements are part of a choice: (admin-state, export-route, and monitor-route) or follow.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
subscriber-limit number
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis Maximum number of subscribers per IP address
  Context configure router string nat outside pool string large-scale subscriber-limit number
  Tree subscriber-limit
  Range 1 to 65535
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
mode keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis Mode of operation of this NAT address pool
  Context configure router string nat outside pool string mode keyword
  Tree mode
  Options auto, napt, one-to-one
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-group reference
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Create a NAT group
  Context configure router string nat outside pool string nat-group reference
  Tree nat-group
 

Reference

configure isa nat-group number

 

Notes

The following elements are part of a mandatory choice: nat-group or wlan-gw-group.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
port-forwarding
  Synopsis Enter the port-forwarding context
  Context configure router string nat outside pool string port-forwarding
  Tree port-forwarding
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
dynamic-block-reservation boolean
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis Reserve dynamic block for subscriber
  Context configure router string nat outside pool string port-forwarding dynamic-block-reservation boolean
  Tree dynamic-block-reservation
 

Description

When configured to true, the system reserves dynamic port block when the first port forward for the subscriber is created. The dynamic port block allocation is logged only if the block is being used and mappings are created. Dynamic port block reservation due to the port forward creation but without any dynamic mapping, is not logged.

The reserved port block is released only when the last mapping in the block expires and there are no port forwards associated with the subscriber. The de-allocation log (syslog or RADIUS) is generated when the dynamic port block is completely released.

Dynamic port block reservations can be enabled only if the configured maximum number of subscribers per outside IP addresses are less than or equal to the maximum number of configured port blocks per outside IP address.

When configured to false, dynamic port blocks are not reserved when the first port forward for the subscriber is created.
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
range-end number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis End of the wildcard range for port forwards
  Context configure router string nat outside pool string port-forwarding range-end number
  Tree range-end
 

Description

This command configures the upper boundary of the wildcard port range dedicated to port forwarding in a NAT pool, whereas the range-start command configures the lower boundary (the starting port) of the wildcard port range dedicated to port forwarding in a NAT pool.

If left unconfigured, the range-end implicit value is set to 1023, that represents the end of the well-known port range that is always enabled.

Port forwards are supported only in pools in NAPT mode. Pools in 1:1 mode do not support port-forwards.
  Range 0 | 1023 to 65535
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
range-start number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Start of the wildcard range for port forwards
  Context configure router string nat outside pool string port-forwarding range-start number
  Tree range-start
 

Description

This command configures the lower boundary (the starting port) of the wildcard port range dedicated to port forwarding in a NAT pool, whereas the range-end command configures the upper boundary of the wildcard port range dedicated to port forwarding in a NAT pool.

If left unconfigured, the range-start implicit value is set to 1. Port 0 is always excluded from the port forwarding range.

Port forwards are supported only in pools in Network Address and Port Translation (NAPT) mode. Pools in 1:1 mode do not support configured port forwards.
  Range 0 | 1 | 1025 to 65535
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
port-reservation
  Synopsis Enter the port-reservation context
  Context configure router string nat outside pool string port-reservation
  Tree port-reservation
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
port-blocks number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis Port block size for NAT subscribers
  Context configure router string nat outside pool string port-reservation port-blocks number
  Tree port-blocks
 

Description

In CGN, this specifies the number of port-blocks per outside IP address in the NAT pool. The available ports per outside IP address (the end port minus the upper bound value of the static port-forwarding range) are divided into the number of port blocks specified in this command. This implicitly determines the size of each port block.

For L2-aware NAT, this command can be configured only if the port block extensions (extended port blocks) are disabled. You must disable the l2-aware port-block-extension hierarchy in the NAT pool.
  Range 1 to 64512
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: port-blocks or ports.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
ports number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
  Synopsis Size of the port block for NAT subscribers
  Context configure router string nat outside pool string port-reservation ports number
  Tree ports
 

Description

For carrier-grade NAT (CGN), this command specifies the size of port blocks for NAT subscribes in the NAT pool.

For L2-aware NAT, this command specifies the size of the initial port-block of a subscriber in the pool. Additional port blocks (extended port blocks) for the L2-aware subscriber must be explicitly enabled under the l2-aware port-block-extension hierarchy in the NAT pool.

This command does not affect the size of extended port blocks.
  Range 1 to 64512
 

Notes

The following elements are part of a choice: port-blocks or ports.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
type keyword
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis NAT pool type
  Context configure router string nat outside pool string type keyword
  Tree type
  Options large-scale, l2-aware, wlan-gw-anchor
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
watermarks
  Synopsis Enable the watermarks context
  Context configure router string nat outside pool string watermarks
  Tree watermarks
 

Description

This command configures watermarks for NAT resources.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
high number
  Synopsis High watermark percentage
  Context configure router string nat outside pool string watermarks high number
  Tree high
 

Description

This command configures the high threshold value as a percentage of the total port-block space in a NAT pool.
  Range 0 to 100
  Units percent
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
low number
  Synopsis Low watermark percentage
  Context configure router string nat outside pool string watermarks low number
  Tree low
 

Description

This command configures the low threshold value as a percentage of the total port-block space in a NAT pool.
  Range 0 to 100
  Units percent
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
wlan-gw-group reference
WARNING:

Modifying this element clears ISA state, such as flow state, for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Create a WLAN GW group for NAT
  Context configure router string nat outside pool string wlan-gw-group reference
  Tree wlan-gw-group
 

Reference

configure isa wlan-gw-group number

 

Notes

The following elements are part of a mandatory choice: nat-group or wlan-gw-group.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR

network-domains

  Synopsis Enter the network-domains context
  Context configure router string network-domains
  Tree network-domains
  Introduced 16.0.R4
 

Platforms

All
network-domain [domain-name] string
  Synopsis Enter the network-domain list instance
  Context configure router string network-domains network-domain string
  Tree network-domain
  Max. Instances 5
  Introduced 16.0.R4
 

Platforms

All
[domain-name] string
  Synopsis Network domain name
  Context configure router string network-domains network-domain string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string network-domains network-domain string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R4
 

Platforms

All

origin-validation

  Synopsis Enter the origin-validation context
  Context configure router string origin-validation
  Tree origin-validation
  Introduced 19.5.R1
 

Platforms

All
rpki-session [ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the rpki-session list instance
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree rpki-session
  Introduced 19.5.R1
 

Platforms

All
[ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis IPv4 or IPv6 address for the RPKI local cache server
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 19.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the RPKI session
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone) admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 19.5.R1
 

Platforms

All
connect-retry number
  Synopsis RPKI Connect Retry timer value
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone) connect-retry number
  Tree connect-retry
  Range 1 to 65535
  Default 120
  Units seconds
  Introduced 19.5.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone) description string
  Tree description
  String Length 1 to 80
  Introduced 19.5.R1
 

Platforms

All
local-address (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Local address for the TCP connection setup
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone) local-address (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree local-address
  Introduced 19.5.R1
 

Platforms

All
port number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Destination port number used to contact cache server
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone) port number
  Tree port
  Range 0 to 65535
  Default 323
  Introduced 19.5.R1
 

Platforms

All
refresh-time
  Synopsis Enter the refresh-time context
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone) refresh-time
  Tree refresh-time
  Introduced 19.5.R1
 

Platforms

All
hold-time number
  Synopsis Length of time that the session is to be considered UP
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone) refresh-time hold-time number
  Tree hold-time
  Range 60 to 65535
  Default 600
  Units seconds
  Introduced 19.5.R1
 

Platforms

All
value number
  Synopsis Periodic Serial Query PDUs sent for liveness detection
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone) refresh-time value number
  Tree value
  Range 30 to 32767
  Default 300
  Units seconds
  Introduced 19.5.R1
 

Platforms

All
stale-time number
  Synopsis Maximum time prefix origin validation remains usable
  Context configure router string origin-validation rpki-session (ipv4-address-no-zone | ipv6-address-no-zone) stale-time number
  Tree stale-time
  Range 60 to 3600
  Default 3600
  Units seconds
  Introduced 19.5.R1
 

Platforms

All
static-entry [ip-prefix] (ipv4-prefix | ipv6-prefix) upto number origin-as number
  Synopsis Enter the static-entry list instance
  Context configure router string origin-validation static-entry (ipv4-prefix | ipv6-prefix) upto number origin-as number
  Tree static-entry
  Introduced 19.5.R1
 

Platforms

All
[ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis IPv4 or IPv6 address with the minimum prefix and length
  Context configure router string origin-validation static-entry (ipv4-prefix | ipv6-prefix) upto number origin-as number
 

Notes

This element is part of a list key.
  Introduced 19.5.R1
 

Platforms

All
upto number
  Synopsis Maximum prefix length
  Context configure router string origin-validation static-entry (ipv4-prefix | ipv6-prefix) upto number origin-as number
  Range 1 to 128
 

Notes

This element is part of a list key.
  Introduced 19.5.R1
 

Platforms

All
origin-as number
  Synopsis Origin AS number
  Context configure router string origin-validation static-entry (ipv4-prefix | ipv6-prefix) upto number origin-as number
  Max. Range 0 to 4294967295
 

Notes

This element is part of a list key.
  Introduced 19.5.R1
 

Platforms

All
valid boolean
  Synopsis Designate mix of origin AS and prefix range as valid
  Context configure router string origin-validation static-entry (ipv4-prefix | ipv6-prefix) upto number origin-as number valid boolean
  Tree valid
  Default true
  Introduced 19.5.R1
 

Platforms

All

ospf [ospf-instance] number

  Synopsis Enter the ospf list instance
  Context configure router string ospf number
  Tree ospf
  Max. Instances 32
  Introduced 16.0.R1
 

Platforms

All
[ospf-instance] number
  Synopsis Value for the integrated OSPF instance
  Context configure router string ospf number
  Range 0 to 31
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the OSPF instance
  Context configure router string ospf number admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
advertise-router-capability keyword
  Synopsis Allow router advertisement capabilities
  Context configure router string ospf number advertise-router-capability keyword
  Tree advertise-router-capability
  Default false
  Options false, link, area, as
  Introduced 16.0.R1
 

Platforms

All
advertise-tunnel-link boolean
  Synopsis Allow router advertisement capabilities
  Context configure router string ospf number advertise-tunnel-link boolean
  Tree advertise-tunnel-link
  Default false
  Introduced 16.0.R1
 

Platforms

All
area [area-id] string
  Synopsis Enter the area list instance
  Context configure router string ospf number area string
  Tree area
  Introduced 16.0.R1
 

Platforms

All
[area-id] string
  Synopsis Area-ID attribute
  Context configure router string ospf number area string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertise-router-capability boolean
  Synopsis Allow router advertisement capabilities
  Context configure router string ospf number area string advertise-router-capability boolean
  Tree advertise-router-capability
  Default true
  Introduced 16.0.R1
 

Platforms

All
area-range [ip-prefix-mask] string
  Synopsis Enter the area-range list instance
  Context configure router string ospf number area string area-range string
  Tree area-range
  Introduced 16.0.R1
 

Platforms

All
[ip-prefix-mask] string
  Synopsis IP prefix and subnet mask for the range used by the ABR
  Context configure router string ospf number area string area-range string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertise boolean
  Synopsis Advertise summarized range of addresses to other areas
  Context configure router string ospf number area string area-range string advertise boolean
  Tree advertise
  Default true
  Introduced 16.0.R1
 

Platforms

All
bier
  Synopsis Enter the bier context
  Context configure router string ospf number area string bier
  Tree bier
 

Description

Commands in this context configure the administrative state of BIER and the BIER template assigned to the OSPF area.
  Introduced 20.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of BIER
  Context configure router string ospf number area string bier admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 20.5.R1
 

Platforms

All
template reference
  Synopsis BIER template name
  Context configure router string ospf number area string bier template reference
  Tree template
 

Reference

configure router string bier template string

  Introduced 20.5.R1
 

Platforms

All
blackhole-aggregate boolean
  Synopsis Install a low priority blackhole route to avoid loops
  Context configure router string ospf number area string blackhole-aggregate boolean
  Tree blackhole-aggregate
  Default true
  Introduced 16.0.R1
 

Platforms

All
database-export-exclude boolean
  Synopsis Exclude IGP link-state OSPF area info into TE-DB
  Context configure router string ospf number area string database-export-exclude boolean
  Tree database-export-exclude
  Default false
  Introduced 16.0.R1
 

Platforms

All
export-policy reference
  Synopsis Type 3 Summary-LSA/OSPFv3 inter-area-prefix-LSA route
  Context configure router string ospf number area string export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
import-policy reference
  Synopsis Route imported as Summary Type 3/Inter-Area-Prefix-LSA
  Context configure router string ospf number area string import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
interface [interface-name] string
  Synopsis Enter the interface list instance
  Context configure router string ospf number area string interface string
  Tree interface
 

Description

Commands in this context configure the attributes of the OSPF area interface.

Unless they are explicitly configured, interfaces are not activated by default in any interior gateway protocol such as OSPF.
  Introduced 16.0.R1
 

Platforms

All
[interface-name] string
  Synopsis Router interface name
  Context configure router string ospf number area string interface string
 

Description

This command specifies the IP interface name. Interface names must be unique within the group of defined IP interfaces for configure router interface and configure service ies interface commands. An interface name cannot be in the form of an IP address. Interface names can be a string composed of printable, 7-bit ASCII characters. If the string contains special characters (#, $, spaces, and so on), the entire string must be enclosed within double quotes.

If the IP interface name does not exist or does not have an IP address configured, an error message is returned.

If the IP interface exists in a different area it is moved to this area.
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
adjacency-set [id] reference
  Synopsis Add a list entry for adjacency-set
  Context configure router string ospf number area string interface string adjacency-set reference
  Tree adjacency-set
  Max. Instances 1024
  Introduced 16.0.R1
 

Platforms

All
[id] reference
  Synopsis Adjacency set identity
  Context configure router string ospf number area string interface string adjacency-set reference
 

Reference

configure router string ospf number segment-routing adjacency-set number

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
adjacency-sid
  Synopsis Enable the adjacency-sid context
  Context configure router string ospf number area string interface string adjacency-sid
  Tree adjacency-sid
  Introduced 16.0.R1
 

Platforms

All
label number
  Synopsis Adjacency SID
  Context configure router string ospf number area string interface string adjacency-sid label number
  Tree label
  Range 1 to 1048575
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the OSPF interface
  Context configure router string ospf number area string interface string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
advertise-router-capability boolean
  Synopsis Allow router advertisement capabilities
  Context configure router string ospf number area string interface string advertise-router-capability boolean
  Tree advertise-router-capability
  Default true
  Introduced 16.0.R1
 

Platforms

All
advertise-subnet boolean
  Synopsis Advertise point-to-point interfaces as subnet routes
  Context configure router string ospf number area string interface string advertise-subnet boolean
  Tree advertise-subnet
  Default true
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis Authentication key
  Context configure router string ospf number area string interface string authentication-key string
  Tree authentication-key
  String Length 1 to 38
  Introduced 16.0.R1
 

Platforms

All
authentication-keychain reference
  Synopsis TCP authentication keychain for the session
  Context configure router string ospf number area string interface string authentication-keychain reference
  Tree authentication-keychain
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
authentication-type keyword
  Synopsis Authentication type used on OSPF interface
  Context configure router string ospf number area string interface string authentication-type keyword
  Tree authentication-type
  Options password, message-digest
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness
  Synopsis Enable the bfd-liveness context
  Context configure router string ospf number area string interface string bfd-liveness
  Tree bfd-liveness
  Introduced 16.0.R1
 

Platforms

All
remain-down-on-failure boolean
  Synopsis Force adjacency down on failure until session returns
  Context configure router string ospf number area string interface string bfd-liveness remain-down-on-failure boolean
  Tree remain-down-on-failure
  Default false
  Introduced 16.0.R1
 

Platforms

All
dead-interval number
  Synopsis OSPF wait time for Hellos before neighbor declared down
  Context configure router string ospf number area string interface string dead-interval number
  Tree dead-interval
  Range 2 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
flex-algo [flex-algo-id] number
  Synopsis Enter the flex-algo list instance
  Context configure router string ospf number area string interface string flex-algo number
  Tree flex-algo
 

Description

Commands in this context configure the attributes of OSPFv2 flexible algorithms interface.
  Max. Instances 7
  Introduced 21.7.R1
 

Platforms

All
[flex-algo-id] number
  Synopsis Flexible algorithm ID
  Context configure router string ospf number area string interface string flex-algo number
  Range 128 to 255
 

Notes

This element is part of a list key.
  Introduced 21.7.R1
 

Platforms

All
node-sid
  Synopsis Enable the node-sid context
  Context configure router string ospf number area string interface string flex-algo number node-sid
  Tree node-sid
  Introduced 21.7.R1
 

Platforms

All
index number
  Synopsis Node SID index for this interface
  Context configure router string ospf number area string interface string flex-algo number node-sid index number
  Tree index
  Range 0 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 21.7.R1
 

Platforms

All
label number
  Synopsis Label value for the node SID
  Context configure router string ospf number area string interface string flex-algo number node-sid label number
  Tree label
  Range 1 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 21.7.R1
 

Platforms

All
hello-interval number
  Synopsis Time between OSPF Hellos of this interface
  Context configure router string ospf number area string interface string hello-interval number
  Tree hello-interval
  Range 1 to 65535
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
interface-type keyword
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Interface type
  Context configure router string ospf number area string interface string interface-type keyword
  Tree interface-type
 

Description

This command specifies the interface type.

Use this command to set the interface type of an Ethernet link to point-to-point to avoid having to carry the broadcast adjacency maintenance overhead if the Ethernet link provided the link is used as a point-to-point.

If the interface type is not known at the time the interface is added to OSPF and subsequently the IP interface is bound (or moved) to a different interface type, this command must be entered manually.

Configuring the interface type to secondary, allows multiple secondary adjacencies, in addition to the primary adjacency, to be established over a single IP interface.This interface type can also be applied to the system interface and to loopback interfaces to allow them to participate in multiple areas, although no adjacencies are formed over these types of interfaces.
  Options broadcast, non-broadcast, point-to-point, secondary
  Introduced 16.0.R1
 

Platforms

All
load-balancing-weight number
  Synopsis Load balancing weight for an OSPF interface
  Context configure router string ospf number area string interface string load-balancing-weight number
  Tree load-balancing-weight
  Range 1 to 4294967295
  Introduced 20.2.R1
 

Platforms

All
loopfree-alternate
  Synopsis Enter the loopfree-alternate context
  Context configure router string ospf number area string interface string loopfree-alternate
  Tree loopfree-alternate
  Introduced 16.0.R3
 

Platforms

All
exclude boolean
  Synopsis Enable fast reroute at OSPF primary interface level
  Context configure router string ospf number area string interface string loopfree-alternate exclude boolean
  Tree exclude
  Default false
  Introduced 16.0.R3
 

Platforms

All
policy-map
  Synopsis Enable the policy-map context
  Context configure router string ospf number area string interface string loopfree-alternate policy-map
  Tree policy-map
  Introduced 16.0.R3
 

Platforms

All
route-nh-template reference
  Synopsis Route next hop policy template that is applied to interface
  Context configure router string ospf number area string interface string loopfree-alternate policy-map route-nh-template reference
  Tree route-nh-template
 

Reference

configure routing-options route-next-hop-policy template string

 

Notes

This element is mandatory.
  Introduced 16.0.R3
 

Platforms

All
lsa-filter-out keyword
  Synopsis LSA flooding reduction
  Context configure router string ospf number area string interface string lsa-filter-out keyword
  Tree lsa-filter-out
  Default none
  Options none, all, except-own-rtrlsa, except-own-rtrlsa-and-defaults
  Introduced 16.0.R1
 

Platforms

All
message-digest-key [key-id] number
  Synopsis Enter the message-digest-key list instance
  Context configure router string ospf number area string interface string message-digest-key number
  Tree message-digest-key
  Introduced 16.0.R1
 

Platforms

All
[key-id] number
  Synopsis Message digest index
  Context configure router string ospf number area string interface string message-digest-key number
  Range 1 to 255
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
md5 string
  Synopsis MD5 hash key
  Context configure router string ospf number area string interface string message-digest-key number md5 string
  Tree md5
  String Length 1 to 51
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
metric number
  Synopsis Explicit route cost metric that is applied to the interface
  Context configure router string ospf number area string interface string metric number
  Tree metric
  Range 1 to 65535
  Introduced 16.0.R1
 

Platforms

All
mtu number
  Synopsis MTU for the OSPF to use on the interface
  Context configure router string ospf number area string interface string mtu number
  Tree mtu
  Range 512 to 9786
  Introduced 16.0.R1
 

Platforms

All
neighbor [address] string
  Synopsis Add a list entry for neighbor
  Context configure router string ospf number area string interface string neighbor string
  Tree neighbor
  Introduced 16.0.R1
 

Platforms

All
[address] string
  Synopsis IPv4 address of the OSPFv2 neighbor
  Context configure router string ospf number area string interface string neighbor string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
node-sid
  Synopsis Enable the node-sid context
  Context configure router string ospf number area string interface string node-sid
  Tree node-sid
 

Description

Commands in this context configure a node SID index or label value for the prefix representing the primary address of a network interface of type system or loopback. A separate SID value can be configured for each IPv4 and IPv6 primary address of the interface. The secondary address of an IPv4 interface cannot be assigned a node SID index and does not inherit the SID of the primary IPv4 address.

In OSPFv2 and OSPFv3, the node SID is configured in the primary area but is inherited in any other area in which the interface is added as secondary.

This command fails if the network interface is not a loopback type or if the interface is defined in an IES or VPRN context. Assigning the same SID index or label value to the same interface in two different IGP instances is not allowed within the same node.

The value of the label or index SID is taken from the range configured for this IGP instance. When using the global mode of operation, the segment routing module checks that the same index or label value is not assigned to more than one loopback interface address. When using the per-instance mode of operation, this check is not required because the index and, therefore, the label ranges of IGP instances are not allowed to overlap.

The clear-n-flag option allows the user to clear the N-flag (node-sid flag) in an OSPF or OSPF3 prefix SID sub-TLV originated for the prefix of a loopback interface on the system. By default, the prefix SID sub-TLV for the prefix of a loopback interface is tagged as a node SID; that is, it belongs to this node only. However, to configure and advertise an anycast SID using the same loopback interface prefix on multiple nodes, the user must clear the N-flag to assure interoperability with third-party implementations. This may perform a strict check on the receive end and drop duplicate prefix SID sub-TLVs when the N-flag is set.

The SR OS implementation is relaxed on the receive end and accepts duplicate prefix SIDs with the N-flag set or clear. SR OS resolves to the closest owner, or owners if ECMP, of the prefix SID cost-wise.
  Introduced 16.0.R1
 

Platforms

All
clear-n-flag boolean
  Synopsis Clear the N-flag in an OSPF prefix
  Context configure router string ospf number area string interface string node-sid clear-n-flag boolean
  Tree clear-n-flag
 

Description

When configured to true, this command allows the user to clear the N-flag in an OSPF prefix SID sub-TLV originated for the prefix of a loopback interface on the system.

When configured to false, the N-flag in an OSPF prefix SID sub-TLV originated for the prefix of a loopback interface on the system is not cleared.

When the user wants to configure and advertise an anycast SID using the same loopback interface prefix on multiple nodes, the user must clear the N-flag to assure interoperability with third-party implementations. This may perform a strict check on the receive end and drop duplicate prefix SID sub-TLVs when the N-flag is set.
  Default false
  Introduced 16.0.R1
 

Platforms

All
index number
  Synopsis Node SID index for this interface
  Context configure router string ospf number area string interface string node-sid index number
  Tree index
  Range 0 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 16.0.R1
 

Platforms

All
label number
  Synopsis Label value for the node SID
  Context configure router string ospf number area string interface string node-sid label number
  Tree label
  Range 1 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 16.0.R1
 

Platforms

All
passive boolean
  Synopsis Allow interface to be advertised as an OSPF interface without running the OSPF protocol
  Context configure router string ospf number area string interface string passive boolean
  Tree passive
  Introduced 16.0.R1
 

Platforms

All
poll-interval number
  Synopsis Interval for Hellos to non-adjacent OSPF NBMA neighbor
  Context configure router string ospf number area string interface string poll-interval number
  Tree poll-interval
  Max. Range 0 to 4294967295
  Default 120
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis Interface priority in the DR election on the subnet
  Context configure router string ospf number area string interface string priority number
  Tree priority
  Range 0 to 255
  Default 1
  Introduced 16.0.R1
 

Platforms

All
retransmit-interval number
  Synopsis Time before OSPF retransmits an unacknowledged LSA
  Context configure router string ospf number area string interface string retransmit-interval number
  Tree retransmit-interval
  Range 1 to 1800
  Default 5
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
rib-priority keyword
  Synopsis RIB priority for OSPF
  Context configure router string ospf number area string interface string rib-priority keyword
  Tree rib-priority
  Options high
  Introduced 16.0.R1
 

Platforms

All
sid-protection boolean
  Synopsis Allow adjacency SID protection by LFA and remote LFA
  Context configure router string ospf number area string interface string sid-protection boolean
  Tree sid-protection
  Default true
  Introduced 16.0.R1
 

Platforms

All
transit-delay number
  Synopsis Required LSA transmit time
  Context configure router string ospf number area string interface string transit-delay number
  Tree transit-delay
  Range 1 to 1800
  Default 1
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
loopfree-alternate-exclude boolean
  Synopsis Exclude interfaces in OSPF areas in SPF LFA computation
  Context configure router string ospf number area string loopfree-alternate-exclude boolean
  Tree loopfree-alternate-exclude
  Default false
  Introduced 16.0.R1
 

Platforms

All
nssa
  Synopsis Enable the nssa context
  Context configure router string ospf number area string nssa
  Tree nssa
  Introduced 16.0.R1
 

Platforms

All
area-range [ip-prefix-mask] string
  Synopsis Enter the area-range list instance
  Context configure router string ospf number area string nssa area-range string
  Tree area-range
  Introduced 16.0.R1
 

Platforms

All
[ip-prefix-mask] string
  Synopsis IP prefix and subnet mask for the range used by the ABR
  Context configure router string ospf number area string nssa area-range string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertise boolean
  Synopsis Advertise summarized range of addresses to other areas
  Context configure router string ospf number area string nssa area-range string advertise boolean
  Tree advertise
  Default true
  Introduced 16.0.R1
 

Platforms

All
originate-default-route
  Synopsis Enable the originate-default-route context
  Context configure router string ospf number area string nssa originate-default-route
  Tree originate-default-route
  Introduced 16.0.R1
 

Platforms

All
adjacency-check boolean
  Synopsis Default route to remove if there is no adjacency
  Context configure router string ospf number area string nssa originate-default-route adjacency-check boolean
  Tree adjacency-check
  Default true
  Introduced 16.0.R1
 

Platforms

All
type-nssa boolean
  Synopsis Generate a default route using NSSA-LSA type
  Context configure router string ospf number area string nssa originate-default-route type-nssa boolean
  Tree type-nssa
  Default false
  Introduced 16.0.R1
 

Platforms

All
redistribute-external boolean
  Synopsis Redistribute external routes into the NSSA
  Context configure router string ospf number area string nssa redistribute-external boolean
  Tree redistribute-external
  Default true
  Introduced 16.0.R1
 

Platforms

All
summaries boolean
  Synopsis Send summary (Type 3) LSAs into the NSSA on an ABR
  Context configure router string ospf number area string nssa summaries boolean
  Tree summaries
  Default true
  Introduced 16.0.R1
 

Platforms

All
stub
  Synopsis Enable the stub context
  Context configure router string ospf number area string stub
  Tree stub
  Introduced 16.0.R1
 

Platforms

All
default-metric number
  Synopsis Metric used by the ABR for the default route into the stub area
  Context configure router string ospf number area string stub default-metric number
  Tree default-metric
  Range 1 to 16777214
  Default 1
  Introduced 16.0.R1
 

Platforms

All
summaries boolean
  Synopsis Send summary (Type 3) LSAs into the stub area on an ABR
  Context configure router string ospf number area string stub summaries boolean
  Tree summaries
  Default true
  Introduced 16.0.R1
 

Platforms

All
virtual-link [router-id] string transit-area reference
  Synopsis Enter the virtual-link list instance
  Context configure router string ospf number area string virtual-link string transit-area reference
  Tree virtual-link
  Introduced 16.0.R1
 

Platforms

All
[router-id] string
  Synopsis Router identity of the virtual link neighbor
  Context configure router string ospf number area string virtual-link string transit-area reference
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
transit-area reference
  Synopsis Transit area linking the backbone to not-connected area
  Context configure router string ospf number area string virtual-link string transit-area reference
 

Reference

configure router string ospf number area string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the OSPF interface
  Context configure router string ospf number area string virtual-link string transit-area reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis Authentication key
  Context configure router string ospf number area string virtual-link string transit-area reference authentication-key string
  Tree authentication-key
  String Length 1 to 38
  Introduced 16.0.R1
 

Platforms

All
authentication-keychain reference
  Synopsis TCP authentication keychain for the session
  Context configure router string ospf number area string virtual-link string transit-area reference authentication-keychain reference
  Tree authentication-keychain
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
authentication-type keyword
  Synopsis Authentication type used on OSPF interface
  Context configure router string ospf number area string virtual-link string transit-area reference authentication-type keyword
  Tree authentication-type
  Options password, message-digest
  Introduced 16.0.R1
 

Platforms

All
dead-interval number
  Synopsis OSPF wait time for Hellos before neighbor declared down
  Context configure router string ospf number area string virtual-link string transit-area reference dead-interval number
  Tree dead-interval
  Range 2 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
hello-interval number
  Synopsis Time between OSPF Hellos of this interface
  Context configure router string ospf number area string virtual-link string transit-area reference hello-interval number
  Tree hello-interval
  Range 1 to 65535
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
message-digest-key [key-id] number
  Synopsis Enter the message-digest-key list instance
  Context configure router string ospf number area string virtual-link string transit-area reference message-digest-key number
  Tree message-digest-key
  Introduced 16.0.R1
 

Platforms

All
[key-id] number
  Synopsis Message digest index
  Context configure router string ospf number area string virtual-link string transit-area reference message-digest-key number
  Range 1 to 255
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
md5 string
  Synopsis MD5 hash key
  Context configure router string ospf number area string virtual-link string transit-area reference message-digest-key number md5 string
  Tree md5
  String Length 1 to 51
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
retransmit-interval number
  Synopsis Time before OSPF retransmits an unacknowledged LSA
  Context configure router string ospf number area string virtual-link string transit-area reference retransmit-interval number
  Tree retransmit-interval
  Range 1 to 1800
  Default 5
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
transit-delay number
  Synopsis Required LSA transmit time
  Context configure router string ospf number area string virtual-link string transit-area reference transit-delay number
  Tree transit-delay
  Range 1 to 1800
  Default 1
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
asbr
  Synopsis Enable the asbr context
  Context configure router string ospf number asbr
  Tree asbr
  Introduced 16.0.R1
 

Platforms

All
trace-path (number | keyword)
  Synopsis Domain identity
  Context configure router string ospf number asbr trace-path (number | keyword)
  Tree trace-path
  Range 0 to 31
  Default none
  Options none
  Introduced 16.0.R1
 

Platforms

All
compatible-rfc1583 boolean
  Synopsis OSPF summary and external route calculations
  Context configure router string ospf number compatible-rfc1583 boolean
  Tree compatible-rfc1583
  Default true
  Introduced 16.0.R1
 

Platforms

All
database-export
  Synopsis Enable the database-export context
  Context configure router string ospf number database-export
  Tree database-export
  Introduced 16.0.R1
 

Platforms

All
bgp-ls-identifier
  Synopsis Enable the bgp-ls-identifier context
  Context configure router string ospf number database-export bgp-ls-identifier
  Tree bgp-ls-identifier
  Introduced 16.0.R1
 

Platforms

All
value number
  Synopsis BGP-LS identifier sent in the BGP-LS NLRI
  Context configure router string ospf number database-export bgp-ls-identifier value number
  Tree value
  Max. Range 0 to 4294967295
  Default 0
  Introduced 16.0.R1
 

Platforms

All
igp-identifier number
  Synopsis Unique identifier for the IGP instance in the BGP-LS NLRI
  Context configure router string ospf number database-export igp-identifier number
  Tree igp-identifier
  Max. Range 0 to 18446744073709551615
  Introduced 16.0.R1
 

Platforms

All
entropy-label
  Synopsis Enter the entropy-label context
  Context configure router string ospf number entropy-label
  Tree entropy-label
  Introduced 16.0.R1
 

Platforms

All
override-tunnel-elc boolean
  Synopsis Enable override of received ELC advertisements
  Context configure router string ospf number entropy-label override-tunnel-elc boolean
  Tree override-tunnel-elc
  Default false
  Introduced 16.0.R1
 

Platforms

All
export-limit
  Synopsis Enable the export-limit context
  Context configure router string ospf number export-limit
  Tree export-limit
  Introduced 16.0.R1
 

Platforms

All
log-percent number
  Synopsis Export limit before warning and SNMP notification sent
  Context configure router string ospf number export-limit log-percent number
  Tree log-percent
  Range 1 to 100
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Maximum routes or prefixes exported from route table
  Context configure router string ospf number export-limit number number
  Tree number
  Range 1 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
export-policy reference
  Synopsis Export policies that determine exported routes
  Context configure router string ospf number export-policy reference
  Tree export-policy
 

Description

This command configures export routing policies for the routes exported from the routing table to IS-IS.

If the export policy is undefined, the system does not export non IS-IS routes from the routing table manager to IS-IS.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.

If the aggregate command is also configured in the configure router context, the aggregation is applied before the export policy is applied.

Routing policies are created in the configure router policy-options context.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
external-db-overflow
  Synopsis Enable the external-db-overflow context
  Context configure router string ospf number external-db-overflow
  Tree external-db-overflow
  Introduced 16.0.R1
 

Platforms

All
interval number
  Synopsis Time during which the router operates in overload
  Context configure router string ospf number external-db-overflow interval number
  Tree interval
  Range 0 to 2147483647
  Default 0
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
limit number
  Synopsis Number of external LSA at which overload is triggered
  Context configure router string ospf number external-db-overflow limit number
  Tree limit
  Range 0 to 2147483647
  Default 0
  Introduced 16.0.R1
 

Platforms

All
external-preference number
  Synopsis Preference for OSPF external routes
  Context configure router string ospf number external-preference number
  Tree external-preference
  Range 1 to 255
  Default 150
  Introduced 16.0.R1
 

Platforms

All
flexible-algorithms
  Synopsis Enter the flexible-algorithms context
  Context configure router string ospf number flexible-algorithms
  Tree flexible-algorithms
 

Description

Commands in this context configure the OSPFv2 parameters for flexible algorithm participation.
  Introduced 21.7.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of flexible algorithm support
  Context configure router string ospf number flexible-algorithms admin-state keyword
  Tree admin-state
 

Description

This command specifies the administrative state of the support of flexible algorithm IGP LSDB extensions.
  Default disable
  Options enable, disable
  Introduced 21.7.R1
 

Platforms

All
flex-algo [flex-algo-id] number
  Synopsis Enter the flex-algo list instance
  Context configure router string ospf number flexible-algorithms flex-algo number
  Tree flex-algo
 

Description

Commands in this context configure the attributes of the OSPFv2 flexible algorithm.

The maximum unique flexible algorithms can be configured on a router across all configured OSPFv2 instances. In each OSPF flexible algorithm configuration context, the OSPFv2 instance participation can be either enabled or disabled, and it configures the advertising of a locally-configured flexible algorithm definition.

When flexible algorithm is enabled in an OSPF instance, it is enabled for all areas within the OSPF instance.
  Max. Instances 7
  Introduced 21.7.R1
 

Platforms

All
[flex-algo-id] number
  Synopsis Flexible algorithm ID
  Context configure router string ospf number flexible-algorithms flex-algo number
  Range 128 to 255
 

Notes

This element is part of a list key.
  Introduced 21.7.R1
 

Platforms

All
advertise reference
  Synopsis Flexible Algorithm Definition to advertise
  Context configure router string ospf number flexible-algorithms flex-algo number advertise reference
  Tree advertise
 

Description

This command enables the advertisement of a locally configured Flexible Algorithm Definition (FAD).

The winning FAD that a router uses must be consistent with the winning FAD on all other routers, which avoids routing loops and traffic blackholing. The winning FAD is selected using a tiebreaker algorithm that first selects the highest advertised FAD priority followed by the highest system ID.
 

Reference

configure routing-options flexible-algorithm-definitions flex-algo string

  Introduced 21.7.R1
 

Platforms

All
loopfree-alternate
  Synopsis Enable the loopfree-alternate context
  Context configure router string ospf number flexible-algorithms flex-algo number loopfree-alternate
  Tree loopfree-alternate
  Introduced 21.7.R1
 

Platforms

All
participate boolean
  Synopsis Allow participation in the Flexible Algorithm
  Context configure router string ospf number flexible-algorithms flex-algo number participate boolean
  Tree participate
 

Description

When configured to true, the router advertises the capability to participate in a flexible algorithm within the IS-IS Router Capability TLV. A router only advertises participation when the winning FAD can be supported, which includes segment routing support.

When configured to false, flexible algorithm participation is not enabled.
  Default false
  Introduced 21.7.R1
 

Platforms

All
graceful-restart
  Synopsis Enable the graceful-restart context
  Context configure router string ospf number graceful-restart
  Tree graceful-restart
  Introduced 16.0.R1
 

Platforms

All
helper-mode boolean
  Synopsis Enable graceful restart helper for OSPF
  Context configure router string ospf number graceful-restart helper-mode boolean
  Tree helper-mode
  Default true
  Introduced 16.0.R1
 

Platforms

All
strict-lsa-checking boolean
  Synopsis Perform strict LSA checking during graceful restart helper
  Context configure router string ospf number graceful-restart strict-lsa-checking boolean
  Tree strict-lsa-checking
  Default true
  Introduced 16.0.R1
 

Platforms

All
igp-shortcut
  Synopsis Enter the igp-shortcut context
  Context configure router string ospf number igp-shortcut
  Tree igp-shortcut
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the IGP shortcuts
  Context configure router string ospf number igp-shortcut admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
tunnel-next-hop
  Synopsis Enter the tunnel-next-hop context
  Context configure router string ospf number igp-shortcut tunnel-next-hop
  Tree tunnel-next-hop
  Introduced 16.0.R1
 

Platforms

All
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string ospf number igp-shortcut tunnel-next-hop family keyword
  Tree family
  Introduced 16.0.R1
 

Platforms

All
[family-type] keyword
  Synopsis Address family type for tunnel next-hop
  Context configure router string ospf number igp-shortcut tunnel-next-hop family keyword
  Options ipv4, srv4
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
resolution keyword
  Synopsis Resolution state for IGP shortcut tunnels
  Context configure router string ospf number igp-shortcut tunnel-next-hop family keyword resolution keyword
  Tree resolution
  Default none
  Options none, filter, any, match-family-ip
  Introduced 16.0.R1
 

Platforms

All
resolution-filter
  Synopsis Enter the resolution-filter context
  Context configure router string ospf number igp-shortcut tunnel-next-hop family keyword resolution-filter
  Tree resolution-filter
  Introduced 16.0.R1
 

Platforms

All
rsvp boolean
  Synopsis Use RSVP tunneling for next-hop resolution
  Context configure router string ospf number igp-shortcut tunnel-next-hop family keyword resolution-filter rsvp boolean
  Tree rsvp
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-te boolean
  Synopsis Use SR-TE tunneling for next-hop resolution
  Context configure router string ospf number igp-shortcut tunnel-next-hop family keyword resolution-filter sr-te boolean
  Tree sr-te
  Default false
  Introduced 16.0.R1
 

Platforms

All
import-policy reference
  Synopsis Import policy names for routes from IGP to route table
  Context configure router string ospf number import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
ldp-over-rsvp boolean
  Synopsis Allow LSP over RSVP in this OSPF instance
  Context configure router string ospf number ldp-over-rsvp boolean
  Tree ldp-over-rsvp
  Default false
  Introduced 16.0.R1
 

Platforms

All
ldp-sync boolean
  Synopsis Configure IGP-LDP synchronization for interfaces
  Context configure router string ospf number ldp-sync boolean
  Tree ldp-sync
  Default true
  Introduced 16.0.R1
 

Platforms

All
loopfree-alternate
  Synopsis Enable the loopfree-alternate context
  Context configure router string ospf number loopfree-alternate
  Tree loopfree-alternate
  Introduced 16.0.R1
 

Platforms

All
augment-route-table boolean
  Synopsis Attach remote LFA information to RTM entries
  Context configure router string ospf number loopfree-alternate augment-route-table boolean
  Tree augment-route-table
 

Description

When configured to true, this command enables IS-IS to attach remote LFA-specific information to RTM entries for use by protocols such as LDP.

When configured to false, rLFA-specific information is not added to RTM entries.
  Default false
  Introduced 21.10.R1
 

Platforms

All
exclude
  Synopsis Enter the exclude context
  Context configure router string ospf number loopfree-alternate exclude
  Tree exclude
  Introduced 16.0.R3
 

Platforms

All
prefix-policy reference
  Synopsis Policy to exclude prefixes from LFA SPF calculation
  Context configure router string ospf number loopfree-alternate exclude prefix-policy reference
  Tree prefix-policy
 

Description

This command specifies the name of the policy for the prefixes to exclude from the LFA SPF calculation.

An excluded prefix is not included in LFA calculation regardless of its priority. The prefix tag is, however, used in the main SPF.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R3
 

Platforms

All
multi-homed-prefix
  Synopsis Enable the multi-homed-prefix context
  Context configure router string ospf number loopfree-alternate multi-homed-prefix
  Tree multi-homed-prefix
 

Description

Commands in this context configure a multihomed prefix LFA for both RTM routes (IP FRR) and SR-OSPF tunnels. SR-OSPF tunnels enable multihomed prefix extension in both algorithm 0 and flexible-algorithm numbers.

This feature makes use of the multihomed prefix model described in RFC 8518 to compute a backup IP next hop using an alternate ABR or ASBR for external prefixes and to an alternate router owner for local anycast prefixes.

This feature further enhances the multihomed prefix backup path calculation beyond RFC 8518 with the addition of repair tunnels that make use of a PQ node or a P-Q set to reach the alternate exit ABR or ASBR of external prefixes or the alternate owner router of local anycast prefixes.

The computed IP next-hop based backup path is added to OSPF routes of external /32 prefixes (OSPFv2 routes types 3, 4, 5, and 7) and local /32 anycast prefixes in the RTM if the prefix is not protected by base LFA or if the user set leaf preference value to all. The user must enable the ip-fast-reroute leaf to have these backup paths programmed into the FIB in datapath.

The computed IP next hop or repair tunnel based backup path is also programmed for SR-OSPF node SID tunnels of external /32 prefixes and to /32 prefixes in same area as the computing node S and which are advertised by multiple routers (anycast prefix) in both algorithm 0 and flexible-algorithm numbers.
  Introduced 22.2.R1
 

Platforms

All
preference keyword
  Synopsis Multi-homed prefix LFA backup path preference
  Context configure router string ospf number loopfree-alternate multi-homed-prefix preference keyword
  Tree preference
  Default none
  Options none, all
  Introduced 22.2.R1
 

Platforms

All
remote-lfa
  Synopsis Enable the remote-lfa context
  Context configure router string ospf number loopfree-alternate remote-lfa
  Tree remote-lfa
  Introduced 16.0.R1
 

Platforms

All
max-pq-cost number
  Synopsis Destination max cost for reverse SPF calculation
  Context configure router string ospf number loopfree-alternate remote-lfa max-pq-cost number
  Tree max-pq-cost
  Max. Range 0 to 4294967295
  Default 65535
  Introduced 16.0.R1
 

Platforms

All
node-protect
  Synopsis Enable the node-protect context
  Context configure router string ospf number loopfree-alternate remote-lfa node-protect
  Tree node-protect
  Introduced 16.0.R4
 

Platforms

All
max-pq-nodes number
  Synopsis Maximum number of PQ nodes found in the LFA SPFs
  Context configure router string ospf number loopfree-alternate remote-lfa node-protect max-pq-nodes number
  Tree max-pq-nodes
  Range 1 to 32
  Default 16
  Introduced 16.0.R4
 

Platforms

All
ti-lfa
  Synopsis Enable the ti-lfa context
  Context configure router string ospf number loopfree-alternate ti-lfa
  Tree ti-lfa
  Introduced 16.0.R1
 

Platforms

All
max-sr-frr-labels number
  Synopsis Maximum number of labels the TI-LFA backup path can use
  Context configure router string ospf number loopfree-alternate ti-lfa max-sr-frr-labels number
  Tree max-sr-frr-labels
  Range 0 to 3
  Default 2
  Introduced 16.0.R1
 

Platforms

All
node-protect
  Synopsis Enable the node-protect context
  Context configure router string ospf number loopfree-alternate ti-lfa node-protect
  Tree node-protect
  Introduced 16.0.R5
 

Platforms

All
multi-instance boolean
  Synopsis Enable OSPF Multi Instance Extensions
  Context configure router string ospf number multi-instance boolean
  Tree multi-instance
 

Description

When configured to true, the Base router supports RFC 6549, OSPFv2 Multi-Instance Extensions.

This support is enabled per instance and allows flexibility when migrating a particular instance from classic OSPFv2 to a multi-instance OSPFv2.
  Default false
  Introduced 19.10.R1
 

Platforms

All
multicast-import boolean
  Synopsis Submit routes into the multicast Route Table Manager
  Context configure router string ospf number multicast-import boolean
  Tree multicast-import
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload boolean
  Synopsis Change local router state to appear overloaded
  Context configure router string ospf number overload boolean
  Tree overload
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload-include-ext-1 boolean
  Synopsis Advertise routes with maximum metric value for overload
  Context configure router string ospf number overload-include-ext-1 boolean
  Tree overload-include-ext-1
  Default false
  Introduced 19.7.R1
 

Platforms

All
overload-include-ext-2 boolean
  Synopsis Advertise routes with maximum metric value for overload
  Context configure router string ospf number overload-include-ext-2 boolean
  Tree overload-include-ext-2
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload-include-stub boolean
  Synopsis Advertise all stub interfaces with max metric value
  Context configure router string ospf number overload-include-stub boolean
  Tree overload-include-stub
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload-on-boot
  Synopsis Enable the overload-on-boot context
  Context configure router string ospf number overload-on-boot
  Tree overload-on-boot
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Time during which the router operates in overload state
  Context configure router string ospf number overload-on-boot timeout number
  Tree timeout
  Range 1 to 1800
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
preference number
  Synopsis Preference for OSPF internal routes
  Context configure router string ospf number preference number
  Tree preference
  Range 1 to 255
  Default 10
  Introduced 16.0.R1
 

Platforms

All
reference-bandwidth number
  Synopsis Bandwidth to reference the default costing of interfaces
  Context configure router string ospf number reference-bandwidth number
  Tree reference-bandwidth
  Range 1 to 18446744073709551615
  Default 100000000
  Units kilobps
  Introduced 16.0.R1
 

Platforms

All
rib-priority
  Synopsis Enter the rib-priority context
  Context configure router string ospf number rib-priority
  Tree rib-priority
  Introduced 16.0.R1
 

Platforms

All
high
  Synopsis Enter the high context
  Context configure router string ospf number rib-priority high
  Tree high
  Introduced 16.0.R1
 

Platforms

All
prefix-list reference
  Synopsis Higher priority list used during OSPF route calculation
  Context configure router string ospf number rib-priority high prefix-list reference
  Tree prefix-list
 

Reference

configure policy-options prefix-list string

  Introduced 16.0.R1
 

Platforms

All
router-id string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Unique router ID for the OSPF instance
  Context configure router string ospf number router-id string
  Tree router-id
  Introduced 16.0.R1
 

Platforms

All
rtr-adv-lsa-limit
  Synopsis Enable the rtr-adv-lsa-limit context
  Context configure router string ospf number rtr-adv-lsa-limit
  Tree rtr-adv-lsa-limit
  Introduced 16.0.R1
 

Platforms

All
log-only boolean
  Synopsis Log the event without triggering overload
  Context configure router string ospf number rtr-adv-lsa-limit log-only boolean
  Tree log-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
max-lsa-count number
  Synopsis Max number of LSAs one router can advertise
  Context configure router string ospf number rtr-adv-lsa-limit max-lsa-count number
  Tree max-lsa-count
  Range 1 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
overload-timeout (number | keyword)
  Synopsis Maximum time in overload after LSA limit is reached
  Context configure router string ospf number rtr-adv-lsa-limit overload-timeout (number | keyword)
  Tree overload-timeout
  Range 1 to 1800
  Default forever
  Units seconds
  Options forever
  Introduced 16.0.R1
 

Platforms

All
warning-threshold number
  Synopsis Percentage of the max LSA count that causes a warning
  Context configure router string ospf number rtr-adv-lsa-limit warning-threshold number
  Tree warning-threshold
  Range 0 to 100
  Default 0
  Units percent
  Introduced 16.0.R1
 

Platforms

All
segment-routing
  Synopsis Enter the segment-routing context
  Context configure router string ospf number segment-routing
  Tree segment-routing
  Introduced 16.0.R1
 

Platforms

All
adj-sid-hold (number | keyword)
  Synopsis Adjacency SID hold time
  Context configure router string ospf number segment-routing adj-sid-hold (number | keyword)
  Tree adj-sid-hold
  Range 1 to 300
  Default 15
  Units seconds
  Options none
  Introduced 16.0.R1
 

Platforms

All
adjacency-set [id] number
  Synopsis Enter the adjacency-set list instance
  Context configure router string ospf number segment-routing adjacency-set number
  Tree adjacency-set
  Introduced 16.0.R1
 

Platforms

All
[id] number
  Synopsis Non-zero identifier for a given adjacency set
  Context configure router string ospf number segment-routing adjacency-set number
  Range 1 to 4294967295
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertise boolean
  Synopsis Advertise adjacency for links terminating on same node
  Context configure router string ospf number segment-routing adjacency-set number advertise boolean
  Tree advertise
  Default true
  Introduced 16.0.R1
 

Platforms

All
parallel boolean
  Synopsis Require adjacency members to terminate on same neighbor
  Context configure router string ospf number segment-routing adjacency-set number parallel boolean
  Tree parallel
  Default true
  Introduced 16.0.R1
 

Platforms

All
sid
  Synopsis Enable the sid context
  Context configure router string ospf number segment-routing adjacency-set number sid
  Tree sid
  Introduced 16.0.R1
 

Platforms

All
label number
  Synopsis Adjacency SID
  Context configure router string ospf number segment-routing adjacency-set number sid label number
  Tree label
  Range 1 to 1048575
  Introduced 16.0.R1
 

Platforms

All
adjacency-sid
  Synopsis Enter the adjacency-sid context
  Context configure router string ospf number segment-routing adjacency-sid
  Tree adjacency-sid
  Introduced 22.7.R1
 

Platforms

All
allocate-dual-sids boolean
  Synopsis Allocate dual adjacency SIDs per interface
  Context configure router string ospf number segment-routing adjacency-sid allocate-dual-sids boolean
  Tree allocate-dual-sids
 

Description

When configured to true, the router supports two SR-MPLS adjacency SIDs per interface. A protected and unprotected adjacency SID is instantiated and advertised. If an SR-MPLS adjacency SID already exists, an additional complementary (protected or unprotected) adjacency SID is created on the interface.

When configured to false, the router disables the support of two SR-MPLS adjacency SIDs per interface.

  Default false
  Introduced 22.7.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of segment routing
  Context configure router string ospf number segment-routing admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
backup-node-sid
  Synopsis Enable the backup-node-sid context
  Context configure router string ospf number segment-routing backup-node-sid
  Tree backup-node-sid
  Introduced 16.0.R1
 

Platforms

All
index number
  Synopsis Node SID index for this interface
  Context configure router string ospf number segment-routing backup-node-sid index number
  Tree index
  Range 0 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 16.0.R1
 

Platforms

All
ip-prefix string
  Synopsis IP prefix and prefix length for the backup node SID
  Context configure router string ospf number segment-routing backup-node-sid ip-prefix string
  Tree ip-prefix
  Introduced 16.0.R1
 

Platforms

All
label number
  Synopsis Label value for the node SID
  Context configure router string ospf number segment-routing backup-node-sid label number
  Tree label
  Range 1 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 16.0.R1
 

Platforms

All
class-forwarding boolean
  Synopsis Allow CBF with ECMP over RSVP-TE LSPs as IGP shortcuts
  Context configure router string ospf number segment-routing class-forwarding boolean
  Tree class-forwarding
 

Description

When configured to true, this command enables Class-Based Forwarding (CBF) with ECMP for SR-OSPF resolved to RSVP-TE LSPs as IGP shortcuts.

For CBF with ECMP to be effective, a class forwarding policy must be defined, as well as FC to set associations and RSVP-TE LSPs to set associations.

When configured to false, CBF over IGP shortcuts is disabled.

  Default false
  Introduced 20.5.R1
 

Platforms

All
egress-statistics
  Synopsis Enter the egress-statistics context
  Context configure router string ospf number segment-routing egress-statistics
  Tree egress-statistics
  Introduced 19.10.R1
 

Platforms

All
adj-set boolean
  Synopsis Enable the allocation of statistics on adjacency sets
  Context configure router string ospf number segment-routing egress-statistics adj-set boolean
  Tree adj-set
 

Description

When configured to true, this command enables the allocation of statistic indices to each adjacency set. All adjacencies of a set share the same statistics index. If a statistics index is not available at allocation time, the allocation fails and the system retries the allocation. The system generates a log on the first fail and a log on the final successful allocation.
  Default false
  Introduced 19.10.R1
 

Platforms

All
adj-sid boolean
  Synopsis Enable the allocation of statistics on adjacency SIDs
  Context configure router string ospf number segment-routing egress-statistics adj-sid boolean
  Tree adj-sid
 

Description

When configured to true, this command enables the allocation of statistic indexes to each programmed NHLFE corresponding to Adjacency SIDs (local and received by means of IGP advertisement). All NHLFEs associated to a given SID share the same index. If a statistics index is not available at allocation time, the allocation fails and the system retries the allocation. The system generates a log on the first fail and a log on the final successful allocation.
  Default false
  Introduced 19.10.R1
 

Platforms

All
node-sid boolean
  Synopsis Enable the allocation of statistics on node SIDs
  Context configure router string ospf number segment-routing egress-statistics node-sid boolean
  Tree node-sid
  Default false
  Introduced 19.10.R1
 

Platforms

All
entropy-label boolean
  Synopsis Enable processing of received ELC signaled in the IGP
  Context configure router string ospf number segment-routing entropy-label boolean
  Tree entropy-label
  Introduced 16.0.R1
 

Platforms

All
export-tunnel-table keyword
  Synopsis Export tunnel table
  Context configure router string ospf number segment-routing export-tunnel-table keyword
  Tree export-tunnel-table
  Options ldp
  Introduced 16.0.R1
 

Platforms

All
ingress-statistics
  Synopsis Enter the ingress-statistics context
  Context configure router string ospf number segment-routing ingress-statistics
  Tree ingress-statistics
  Introduced 19.10.R1
 

Platforms

All
adj-set boolean
  Synopsis Enable the allocation of statistics on adjacency sets
  Context configure router string ospf number segment-routing ingress-statistics adj-set boolean
  Tree adj-set
 

Description

When configured to true, this command enables the allocation of statistic indices to each adjacency set. All adjacencies of a set share the same statistics index. If a statistics index is not available at allocation time, the allocation fails and the system retries the allocation. The system generates a log on the first fail and a log on the final successful allocation.
  Default false
  Introduced 19.10.R1
 

Platforms

All
adj-sid boolean
  Synopsis Enable the allocation of statistics on adjacency SIDs
  Context configure router string ospf number segment-routing ingress-statistics adj-sid boolean
  Tree adj-sid
 

Description

When configured to true, this command enables the allocation of statistic indexes to each programmed NHLFE corresponding to Adjacency SIDs (local and received by means of IGP advertisement). All NHLFEs associated to a given SID share the same index. If a statistics index is not available at allocation time, the allocation fails and the system retries the allocation. The system generates a log on the first fail and a log on the final successful allocation.
  Default false
  Introduced 19.10.R1
 

Platforms

All
node-sid boolean
  Synopsis Enable the allocation of statistics on node SIDs
  Context configure router string ospf number segment-routing ingress-statistics node-sid boolean
  Tree node-sid
  Default false
  Introduced 19.10.R1
 

Platforms

All
mapping-server
  Synopsis Enter the mapping-server context
  Context configure router string ospf number segment-routing mapping-server
  Tree mapping-server
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the OSPF mapping server
  Context configure router string ospf number segment-routing mapping-server admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
node-sid-map [sid-index] number
  Synopsis Enter the node-sid-map list instance
  Context configure router string ospf number segment-routing mapping-server node-sid-map number
  Tree node-sid-map
  Introduced 16.0.R1
 

Platforms

All
[sid-index] number
  Synopsis Start SID index for the node SID mapping
  Context configure router string ospf number segment-routing mapping-server node-sid-map number
  Max. Range 0 to 4294967295
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
ip-prefix string
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Starting prefix of the mapping
  Context configure router string ospf number segment-routing mapping-server node-sid-map number ip-prefix string
  Tree ip-prefix
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
range number
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Number of prefixes to be mapped by the Extended Range Prefix TLV
  Context configure router string ospf number segment-routing mapping-server node-sid-map number range number
  Tree range
  Range 1 to 65535
  Default 1
  Introduced 16.0.R1
 

Platforms

All
scope
  Synopsis Enter the scope context
  Context configure router string ospf number segment-routing mapping-server node-sid-map number scope
  Tree scope
  Introduced 16.0.R1
 

Platforms

All
area reference
  Synopsis Area ID in which the advertise Extended Range TLV is advertised
  Context configure router string ospf number segment-routing mapping-server node-sid-map number scope area reference
  Tree area
 

Reference

configure router string ospf number area string

 

Notes

The following elements are part of a choice: area or as.
  Introduced 16.0.R1
 

Platforms

All
as
  Synopsis Advertise Extended Range TLV in whole autonomous system
  Context configure router string ospf number segment-routing mapping-server node-sid-map number scope as
  Tree as
 

Notes

This element is the default part of a choice.

The following elements are part of a choice: area or as.
  Introduced 16.0.R1
 

Platforms

All
maximum-sid-depth
  Synopsis Enter the maximum-sid-depth context
  Context configure router string ospf number segment-routing maximum-sid-depth
  Tree maximum-sid-depth
  Introduced 20.2.R1
 

Platforms

All
override-bmi number
  Synopsis Value to override the announced node MSD-BMI value
  Context configure router string ospf number segment-routing maximum-sid-depth override-bmi number
  Tree override-bmi
 

Description

This command overrides the announced MSD node Base MPLS Imposition (BMI) value. The MSD-BMI value announced by a router can be used by recipients to understand the number of MPLS labels that can be imposed inclusive of all service, transport, or special labels.

When unconfigured, the router announces the maximum supported BMI of the node assuming the most simple services and Layer 2 encapsulation.
  Range 0 to 12
  Introduced 20.2.R1
 

Platforms

All
override-erld number
  Synopsis Value to override the announced node MSD-ERLD value
  Context configure router string ospf number segment-routing maximum-sid-depth override-erld number
  Tree override-erld
 

Description

This command configures the override Entropy Readable Label Depth (ERLD) Maximum Sid Depth (MSD) value. Information about the capability of each intermediate LSR of reading the maximum label stack depth is used by ingress LSRs to perform EL-based load balancing.

When unconfigured, the router announces the node maximum supported ERLD assuming the most simple Layer 2 encapsulation.
  Range 0 to 15
  Introduced 20.2.R1
 

Platforms

All
prefix-sid-range
  Synopsis Enable the prefix-sid-range context
  Context configure router string ospf number segment-routing prefix-sid-range
  Tree prefix-sid-range
 

Description

Commands in this context configure the label block BGP segment routing can use.
  Introduced 16.0.R1
 

Platforms

All
global
  Synopsis BGP global SR range allocation
  Context configure router string ospf number segment-routing prefix-sid-range global
  Tree global
 

Description

When configured, the system allows BGP to allocate labels from the SRGB space, as defined under the configure router mpls-labels sr-labels context.
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 16.0.R1
 

Platforms

All
max-index number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Upper bound value for the local SID index
  Context configure router string ospf number segment-routing prefix-sid-range max-index number
  Tree max-index
  Range 0 to 524287
  Default 1
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 16.0.R1
 

Platforms

All
start-label number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Lower bound value for the local label offset
  Context configure router string ospf number segment-routing prefix-sid-range start-label number
  Tree start-label
  Range 0 to 524287
  Default 0
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 16.0.R1
 

Platforms

All
srlb reference
  Synopsis Segment routing local block
  Context configure router string ospf number segment-routing srlb reference
  Tree srlb
 

Reference

configure router string mpls-labels reserved-label-block string

  Introduced 16.0.R1
 

Platforms

All
tunnel-mtu number
  Synopsis Tunnel MTU size
  Context configure router string ospf number segment-routing tunnel-mtu number
  Tree tunnel-mtu
  Range 512 to 9786
  Introduced 16.0.R1
 

Platforms

All
tunnel-table-pref number
  Synopsis Preference of SR tunnels created by the IGP instance
  Context configure router string ospf number segment-routing tunnel-table-pref number
  Tree tunnel-table-pref
 

Description

This command configures the TTM preference of shortest path SR tunnels created by the IGP instance. This is used for BGP shortcuts, VPRN auto-bind, or BGP transport tunnel when the tunnel binding commands are configured to the any value, which parses the TTM for tunnels in the protocol preference order. The user can choose to either accept the global TTM preference or explicitly list the tunnel types they want to use. If the user lists the tunnel type explicitly, the TTM preference is still used to select one type over the other. In both cases, a fallback to the next preferred tunnel type is performed if the selected type fails. A reversion to a more preferred tunnel type is performed as soon as one is available.

The segment routing module adds to the TTM an SR tunnel entry for each resolved remote node SID prefix and programs the data path having the corresponding LTN with the push operation pointing to the primary and LFA backup NHLFEs.

The default preference for shortest path SR tunnels in the TTM is set lower than LDP tunnels but higher than BGP tunnels to allow controlled migration of customers without disrupting their current deployment when they enable segment routing. The following is the value of the default preference for the various tunnel types. This includes the preference of SR tunnels based on shortest path (referred to as SR-ISIS and SR-OSPF).

Note: The preference of an SR-TE LSP is not configurable and is the second most preferred tunnel type after RSVP-TE. The preference is the same whether if the SR-TE LSP was resolved in IS-IS or OSPF.

The global default TTM preference for the tunnel types is as follows:

  • ROUTE_PREF_RSVP 7

  • ROUTE_PREF_SR_TE 8

  • ROUTE_PREF_LDP 9

  • ROUTE_PREF_OSPF_TTM 10

  • ROUTE_PREF_ISIS_TTM 11

  • ROUTE_PREF_BGP_TTM 12

  • ROUTE_PREF_GRE 255

The default value for SR-ISIS or SR-OSPF is the same regardless if one or more IS-IS or OSPF instances programmed a tunnel for the same prefix. The selection of a SR tunnel in this case will be based on the lowest IGP instance ID. Similarly, IPv6 SR-ISIS and SR-OSPF3 tunnels are programmed into TTMv6 with the same default preference value as IPv4 SR-ISIS and IPv4 SR-OSPF respectively.

Nokia recommends not to set two or more tunnel types to the same preference value. In such a situation, the tunnel table prefers the tunnel type which was first introduced in SR OS implementation historically.
  Range 1 to 255
  Default 10
  Introduced 16.0.R1
 

Platforms

All
timers
  Synopsis Enter the timers context
  Context configure router string ospf number timers
  Tree timers
  Introduced 16.0.R1
 

Platforms

All
incremental-spf-wait number
  Synopsis Delay time before an incremental SPF calculation starts
  Context configure router string ospf number timers incremental-spf-wait number
  Tree incremental-spf-wait
  Range 0 to 1000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
lsa-accumulate number
  Synopsis Delay to gather LSAs before advertising to neighbors
  Context configure router string ospf number timers lsa-accumulate number
  Tree lsa-accumulate
  Range 0 to 1000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
lsa-arrival number
  Synopsis Min delay between receipt of same LSAs from neighbors
  Context configure router string ospf number timers lsa-arrival number
  Tree lsa-arrival
  Range 0 to 600000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
lsa-generate
  Synopsis Enter the lsa-generate context
  Context configure router string ospf number timers lsa-generate
  Tree lsa-generate
  Introduced 16.0.R1
 

Platforms

All
lsa-initial-wait number
  Synopsis First wait period between OSPF LSA generation
  Context configure router string ospf number timers lsa-generate lsa-initial-wait number
  Tree lsa-initial-wait
  Range 10 to 600000
  Default 5000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
lsa-second-wait number
  Synopsis Hold time between the first and second LSA generation
  Context configure router string ospf number timers lsa-generate lsa-second-wait number
  Tree lsa-second-wait
  Range 10 to 600000
  Default 5000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
max-lsa-wait number
  Synopsis Max time between two LSAs being generated
  Context configure router string ospf number timers lsa-generate max-lsa-wait number
  Tree max-lsa-wait
  Range 10 to 600000
  Default 5000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
redistribute-delay number
  Synopsis Hold down timer for external routes into OSPF
  Context configure router string ospf number timers redistribute-delay number
  Tree redistribute-delay
  Range 0 to 1000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
spf-wait
  Synopsis Enter the spf-wait context
  Context configure router string ospf number timers spf-wait
  Tree spf-wait
  Introduced 16.0.R1
 

Platforms

All
spf-initial-wait number
  Synopsis Initial SPF calculation delay after a topology change
  Context configure router string ospf number timers spf-wait spf-initial-wait number
  Tree spf-initial-wait
  Range 10 to 100000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
spf-max-wait number
  Synopsis Max interval between two consecutive SPF calculations
  Context configure router string ospf number timers spf-wait spf-max-wait number
  Tree spf-max-wait
  Range 10 to 120000
  Default 10000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
spf-second-wait number
  Synopsis Hold time between the first and second SPF calculation
  Context configure router string ospf number timers spf-wait spf-second-wait number
  Tree spf-second-wait
  Range 10 to 100000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
traffic-engineering boolean
  Synopsis Calculate traffic engineering route
  Context configure router string ospf number traffic-engineering boolean
  Tree traffic-engineering
  Default false
  Introduced 16.0.R1
 

Platforms

All
traffic-engineering-options
  Synopsis Enter the traffic-engineering-options context
  Context configure router string ospf number traffic-engineering-options
  Tree traffic-engineering-options
  Introduced 20.7.R1
 

Platforms

All
sr-te keyword
  Synopsis Advertisement of link attributes for SR-TE
  Context configure router string ospf number traffic-engineering-options sr-te keyword
  Tree sr-te
 

Description

This command specifies the advertisement of TE attributes of each link on a per-application basis for RSVP-TE and SR-TE applications.
  Default false
  Options false, legacy, application-specific-link-attributes
  Introduced 20.7.R1
 

Platforms

All
unicast-import boolean
  Synopsis Submit routes into the unicast Route Table Manager
  Context configure router string ospf number unicast-import boolean
  Tree unicast-import
  Default true
  Introduced 16.0.R1
 

Platforms

All

ospf3 [ospf-instance] number

  Synopsis Enter the ospf3 list instance
  Context configure router string ospf3 number
  Tree ospf3
  Max. Instances 32
  Introduced 16.0.R1
 

Platforms

All
[ospf-instance] number
  Synopsis Value for the integrated OSPF instance
  Context configure router string ospf3 number
  Range 0 to 31 | 64 to 95
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the OSPF instance
  Context configure router string ospf3 number admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
advertise-router-capability keyword
  Synopsis Allow router advertisement capabilities
  Context configure router string ospf3 number advertise-router-capability keyword
  Tree advertise-router-capability
  Default false
  Options false, link, area, as
  Introduced 16.0.R1
 

Platforms

All
area [area-id] string
  Synopsis Enter the area list instance
  Context configure router string ospf3 number area string
  Tree area
  Introduced 16.0.R1
 

Platforms

All
[area-id] string
  Synopsis Area-ID attribute
  Context configure router string ospf3 number area string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertise-router-capability boolean
  Synopsis Allow router advertisement capabilities
  Context configure router string ospf3 number area string advertise-router-capability boolean
  Tree advertise-router-capability
  Default true
  Introduced 16.0.R1
 

Platforms

All
area-range [ip-prefix-mask] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the area-range list instance
  Context configure router string ospf3 number area string area-range (ipv4-prefix | ipv6-prefix)
  Tree area-range
  Introduced 16.0.R1
 

Platforms

All
[ip-prefix-mask] (ipv4-prefix | ipv6-prefix)
  Synopsis Address ranges to create on an ABR for route summarization or suppression
  Context configure router string ospf3 number area string area-range (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertise boolean
  Synopsis Advertise summarized range of addresses to other areas
  Context configure router string ospf3 number area string area-range (ipv4-prefix | ipv6-prefix) advertise boolean
  Tree advertise
  Default true
  Introduced 16.0.R1
 

Platforms

All
blackhole-aggregate boolean
  Synopsis Install a low priority blackhole route to avoid loops
  Context configure router string ospf3 number area string blackhole-aggregate boolean
  Tree blackhole-aggregate
  Default true
  Introduced 16.0.R1
 

Platforms

All
database-export-exclude boolean
  Synopsis Exclude IGP link-state OSPF area info into TE-DB
  Context configure router string ospf3 number area string database-export-exclude boolean
  Tree database-export-exclude
  Default false
  Introduced 16.0.R4
 

Platforms

All
export-policy reference
  Synopsis Type 3 Summary-LSA/OSPFv3 inter-area-prefix-LSA route
  Context configure router string ospf3 number area string export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
extended-lsa keyword
  Synopsis Extended LSA format in an OSPFv3 area
  Context configure router string ospf3 number area string extended-lsa keyword
  Tree extended-lsa
  Options only
  Introduced 16.0.R1
 

Platforms

All
import-policy reference
  Synopsis Route imported as Summary Type 3/Inter-Area-Prefix-LSA
  Context configure router string ospf3 number area string import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
interface [interface-name] string
  Synopsis Enter the interface list instance
  Context configure router string ospf3 number area string interface string
  Tree interface
  Introduced 16.0.R1
 

Platforms

All
[interface-name] string
  Synopsis Router interface name
  Context configure router string ospf3 number area string interface string
 

Description

This command specifies the IP interface name. Interface names must be unique within the group of defined IP interfaces for configure router interface and configure service ies interface commands. An interface name cannot be in the form of an IP address. Interface names can be a string composed of printable, 7-bit ASCII characters. If the string contains special characters (#, $, spaces, and so on), the entire string must be enclosed within double quotes.

If the IP interface name does not exist or does not have an IP address configured, an error message is returned.

If the IP interface exists in a different area it is moved to this area.
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the OSPF interface
  Context configure router string ospf3 number area string interface string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
advertise-router-capability boolean
  Synopsis Allow router advertisement capabilities
  Context configure router string ospf3 number area string interface string advertise-router-capability boolean
  Tree advertise-router-capability
  Default true
  Introduced 16.0.R1
 

Platforms

All
authentication
  Synopsis Enable the authentication context
  Context configure router string ospf3 number area string interface string authentication
  Tree authentication
  Introduced 16.0.R6
 

Platforms

All
inbound reference
  Synopsis sa-name
  Context configure router string ospf3 number area string interface string authentication inbound reference
  Tree inbound
 

Reference

configure ipsec static-sa string

 

Notes

This element is mandatory.
  Introduced 16.0.R6
 

Platforms

All
outbound reference
  Synopsis sa-name
  Context configure router string ospf3 number area string interface string authentication outbound reference
  Tree outbound
 

Reference

configure ipsec static-sa string

 

Notes

This element is mandatory.
  Introduced 16.0.R6
 

Platforms

All
bfd-liveness
  Synopsis Enable the bfd-liveness context
  Context configure router string ospf3 number area string interface string bfd-liveness
  Tree bfd-liveness
  Introduced 16.0.R1
 

Platforms

All
remain-down-on-failure boolean
  Synopsis Force adjacency down on failure until session returns
  Context configure router string ospf3 number area string interface string bfd-liveness remain-down-on-failure boolean
  Tree remain-down-on-failure
  Default false
  Introduced 16.0.R1
 

Platforms

All
dead-interval number
  Synopsis OSPF wait time for Hellos before neighbor declared down
  Context configure router string ospf3 number area string interface string dead-interval number
  Tree dead-interval
  Range 2 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
hello-interval number
  Synopsis Time between OSPF Hellos of this interface
  Context configure router string ospf3 number area string interface string hello-interval number
  Tree hello-interval
  Range 1 to 65535
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
interface-type keyword
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Interface type
  Context configure router string ospf3 number area string interface string interface-type keyword
  Tree interface-type
 

Description

This command specifies the interface type.

Use this command to set the interface type of an Ethernet link to point-to-point to avoid having to carry the broadcast adjacency maintenance overhead if the Ethernet link provided the link is used as a point-to-point.

If the interface type is not known at the time the interface is added to OSPF and subsequently the IP interface is bound (or moved) to a different interface type, this command must be entered manually.

Configuring the interface type to secondary, allows multiple secondary adjacencies, in addition to the primary adjacency, to be established over a single IP interface.This interface type can also be applied to the system interface and to loopback interfaces to allow them to participate in multiple areas, although no adjacencies are formed over these types of interfaces.
  Options broadcast, non-broadcast, point-to-point, secondary
  Introduced 16.0.R1
 

Platforms

All
load-balancing-weight number
  Synopsis Load balancing weight for an OSPF3 interface
  Context configure router string ospf3 number area string interface string load-balancing-weight number
  Tree load-balancing-weight
  Range 1 to 4294967295
  Introduced 20.2.R1
 

Platforms

All
loopfree-alternate
  Synopsis Enter the loopfree-alternate context
  Context configure router string ospf3 number area string interface string loopfree-alternate
  Tree loopfree-alternate
  Introduced 16.0.R3
 

Platforms

All
exclude boolean
  Synopsis Enable fast reroute at OSPF primary interface level
  Context configure router string ospf3 number area string interface string loopfree-alternate exclude boolean
  Tree exclude
  Default false
  Introduced 16.0.R3
 

Platforms

All
policy-map
  Synopsis Enable the policy-map context
  Context configure router string ospf3 number area string interface string loopfree-alternate policy-map
  Tree policy-map
  Introduced 16.0.R3
 

Platforms

All
route-nh-template reference
  Synopsis Route next hop policy template that is applied to interface
  Context configure router string ospf3 number area string interface string loopfree-alternate policy-map route-nh-template reference
  Tree route-nh-template
 

Reference

configure routing-options route-next-hop-policy template string

 

Notes

This element is mandatory.
  Introduced 16.0.R3
 

Platforms

All
lsa-filter-out keyword
  Synopsis LSA flooding reduction
  Context configure router string ospf3 number area string interface string lsa-filter-out keyword
  Tree lsa-filter-out
  Default none
  Options none, all, except-own-rtrlsa, except-own-rtrlsa-and-defaults
  Introduced 16.0.R1
 

Platforms

All
metric number
  Synopsis Explicit route cost metric that is applied to the interface
  Context configure router string ospf3 number area string interface string metric number
  Tree metric
  Range 1 to 65535
  Introduced 16.0.R1
 

Platforms

All
mtu number
  Synopsis MTU for the OSPF to use on the interface
  Context configure router string ospf3 number area string interface string mtu number
  Tree mtu
  Range 512 to 9786
  Introduced 16.0.R1
 

Platforms

All
neighbor [address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Add a list entry for neighbor
  Context configure router string ospf3 number area string interface string neighbor (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree neighbor
  Introduced 16.0.R1
 

Platforms

All
[address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Neighbor link local address
  Context configure router string ospf3 number area string interface string neighbor (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
node-sid
  Synopsis Enable the node-sid context
  Context configure router string ospf3 number area string interface string node-sid
  Tree node-sid
 

Description

Commands in this context configure a node SID index or label value for the prefix representing the primary address of a network interface of type system or loopback. A separate SID value can be configured for each IPv4 and IPv6 primary address of the interface. The secondary address of an IPv4 interface cannot be assigned a node SID index and does not inherit the SID of the primary IPv4 address.

In OSPFv2 and OSPFv3, the node SID is configured in the primary area but is inherited in any other area in which the interface is added as secondary.

This command fails if the network interface is not a loopback type or if the interface is defined in an IES or VPRN context. Assigning the same SID index or label value to the same interface in two different IGP instances is not allowed within the same node.

The value of the label or index SID is taken from the range configured for this IGP instance. When using the global mode of operation, the segment routing module checks that the same index or label value is not assigned to more than one loopback interface address. When using the per-instance mode of operation, this check is not required because the index and, therefore, the label ranges of IGP instances are not allowed to overlap.

The clear-n-flag option allows the user to clear the N-flag (node-sid flag) in an OSPF or OSPF3 prefix SID sub-TLV originated for the prefix of a loopback interface on the system. By default, the prefix SID sub-TLV for the prefix of a loopback interface is tagged as a node SID; that is, it belongs to this node only. However, to configure and advertise an anycast SID using the same loopback interface prefix on multiple nodes, the user must clear the N-flag to assure interoperability with third-party implementations. This may perform a strict check on the receive end and drop duplicate prefix SID sub-TLVs when the N-flag is set.

The SR OS implementation is relaxed on the receive end and accepts duplicate prefix SIDs with the N-flag set or clear. SR OS resolves to the closest owner, or owners if ECMP, of the prefix SID cost-wise.
  Introduced 16.0.R4
 

Platforms

All
clear-n-flag boolean
  Synopsis Clear the N-flag in an OSPF3 prefix
  Context configure router string ospf3 number area string interface string node-sid clear-n-flag boolean
  Tree clear-n-flag
 

Description

When configured to true, this command allows the user to clear the N-flag in an OSPF3 prefix SID sub-TLV originated for the prefix of a loopback interface on the system.

When configured to false, the N-flag in an OSPF3 prefix SID sub-TLV originated for the prefix of a loopback interface on the system is not cleared.

When the user wants to configure and advertise an anycast SID using the same loopback interface prefix on multiple nodes, the user must clear the N-flag to assure interoperability with third-party implementations. This may perform a strict check on the receive end and drop duplicate prefix SID sub-TLVs when the N-flag is set.
  Default false
  Introduced 16.0.R5
 

Platforms

All
index number
  Synopsis Node SID index for this interface
  Context configure router string ospf3 number area string interface string node-sid index number
  Tree index
  Range 0 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 16.0.R4
 

Platforms

All
label number
  Synopsis Node SID index for this interface
  Context configure router string ospf3 number area string interface string node-sid label number
  Tree label
  Range 1 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 16.0.R4
 

Platforms

All
passive boolean
  Synopsis Allow interface to be advertised as an OSPF interface without running the OSPF protocol
  Context configure router string ospf3 number area string interface string passive boolean
  Tree passive
  Introduced 16.0.R1
 

Platforms

All
poll-interval number
  Synopsis Interval for Hellos to non-adjacent OSPF NBMA neighbor
  Context configure router string ospf3 number area string interface string poll-interval number
  Tree poll-interval
  Max. Range 0 to 4294967295
  Default 120
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis Interface priority in the DR election on the subnet
  Context configure router string ospf3 number area string interface string priority number
  Tree priority
  Range 0 to 255
  Default 1
  Introduced 16.0.R1
 

Platforms

All
retransmit-interval number
  Synopsis Time before OSPF retransmits an unacknowledged LSA
  Context configure router string ospf3 number area string interface string retransmit-interval number
  Tree retransmit-interval
  Range 1 to 1800
  Default 5
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
rib-priority keyword
  Synopsis RIB priority for OSPF
  Context configure router string ospf3 number area string interface string rib-priority keyword
  Tree rib-priority
  Options high
  Introduced 16.0.R1
 

Platforms

All
sid-protection boolean
  Synopsis Allow adjacency SID protection by LFA and remote LFA
  Context configure router string ospf3 number area string interface string sid-protection boolean
  Tree sid-protection
  Default true
  Introduced 16.0.R4
 

Platforms

All
transit-delay number
  Synopsis Required LSA transmit time
  Context configure router string ospf3 number area string interface string transit-delay number
  Tree transit-delay
  Range 1 to 1800
  Default 1
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
key-rollover-interval number
  Synopsis Key rollover interval
  Context configure router string ospf3 number area string key-rollover-interval number
  Tree key-rollover-interval
  Range 10 to 300
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
loopfree-alternate-exclude boolean
  Synopsis Exclude interfaces in OSPF areas in SPF LFA computation
  Context configure router string ospf3 number area string loopfree-alternate-exclude boolean
  Tree loopfree-alternate-exclude
  Default false
  Introduced 16.0.R1
 

Platforms

All
nssa
  Synopsis Enable the nssa context
  Context configure router string ospf3 number area string nssa
  Tree nssa
  Introduced 16.0.R1
 

Platforms

All
area-range [ip-prefix-mask] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the area-range list instance
  Context configure router string ospf3 number area string nssa area-range (ipv4-prefix | ipv6-prefix)
  Tree area-range
  Introduced 16.0.R1
 

Platforms

All
[ip-prefix-mask] (ipv4-prefix | ipv6-prefix)
  Synopsis Addresses on ABR for route summarization or suppression
  Context configure router string ospf3 number area string nssa area-range (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
advertise boolean
  Synopsis Advertise summarized range of addresses to other areas
  Context configure router string ospf3 number area string nssa area-range (ipv4-prefix | ipv6-prefix) advertise boolean
  Tree advertise
  Default true
  Introduced 16.0.R1
 

Platforms

All
originate-default-route
  Synopsis Enable the originate-default-route context
  Context configure router string ospf3 number area string nssa originate-default-route
  Tree originate-default-route
  Introduced 16.0.R1
 

Platforms

All
adjacency-check boolean
  Synopsis Default route to remove if there is no adjacency
  Context configure router string ospf3 number area string nssa originate-default-route adjacency-check boolean
  Tree adjacency-check
  Default true
  Introduced 16.0.R1
 

Platforms

All
type-nssa boolean
  Synopsis Generate a default route using NSSA-LSA type
  Context configure router string ospf3 number area string nssa originate-default-route type-nssa boolean
  Tree type-nssa
  Default false
  Introduced 16.0.R1
 

Platforms

All
redistribute-external boolean
  Synopsis Redistribute external routes into the NSSA
  Context configure router string ospf3 number area string nssa redistribute-external boolean
  Tree redistribute-external
  Default true
  Introduced 16.0.R1
 

Platforms

All
summaries boolean
  Synopsis Send summary (Type 3) LSAs into the NSSA on an ABR
  Context configure router string ospf3 number area string nssa summaries boolean
  Tree summaries
  Default true
  Introduced 16.0.R1
 

Platforms

All
stub
  Synopsis Enable the stub context
  Context configure router string ospf3 number area string stub
  Tree stub
  Introduced 16.0.R1
 

Platforms

All
default-metric number
  Synopsis Metric used by the ABR for the default route into the stub area
  Context configure router string ospf3 number area string stub default-metric number
  Tree default-metric
  Range 1 to 16777214
  Default 1
  Introduced 16.0.R1
 

Platforms

All
summaries boolean
  Synopsis Send summary (Type 3) LSAs into the stub area on an ABR
  Context configure router string ospf3 number area string stub summaries boolean
  Tree summaries
  Default true
  Introduced 16.0.R1
 

Platforms

All
virtual-link [router-id] string transit-area reference
  Synopsis Enter the virtual-link list instance
  Context configure router string ospf3 number area string virtual-link string transit-area reference
  Tree virtual-link
  Introduced 16.0.R1
 

Platforms

All
[router-id] string
  Synopsis Router ID of the virtual link neighbor
  Context configure router string ospf3 number area string virtual-link string transit-area reference
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
transit-area reference
  Synopsis Transit area linking backbone and non-connected area
  Context configure router string ospf3 number area string virtual-link string transit-area reference
 

Reference

configure router string ospf3 number area string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the OSPF interface
  Context configure router string ospf3 number area string virtual-link string transit-area reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
authentication
  Synopsis Enable the authentication context
  Context configure router string ospf3 number area string virtual-link string transit-area reference authentication
  Tree authentication
  Introduced 16.0.R6
 

Platforms

All
inbound reference
  Synopsis sa-name
  Context configure router string ospf3 number area string virtual-link string transit-area reference authentication inbound reference
  Tree inbound
 

Reference

configure ipsec static-sa string

 

Notes

This element is mandatory.
  Introduced 16.0.R6
 

Platforms

All
outbound reference
  Synopsis sa-name
  Context configure router string ospf3 number area string virtual-link string transit-area reference authentication outbound reference
  Tree outbound
 

Reference

configure ipsec static-sa string

 

Notes

This element is mandatory.
  Introduced 16.0.R6
 

Platforms

All
dead-interval number
  Synopsis OSPF wait time for Hellos before neighbor declared down
  Context configure router string ospf3 number area string virtual-link string transit-area reference dead-interval number
  Tree dead-interval
  Range 2 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
hello-interval number
  Synopsis Time between OSPF Hellos of this interface
  Context configure router string ospf3 number area string virtual-link string transit-area reference hello-interval number
  Tree hello-interval
  Range 1 to 65535
  Default 10
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
retransmit-interval number
  Synopsis Time before OSPF retransmits an unacknowledged LSA
  Context configure router string ospf3 number area string virtual-link string transit-area reference retransmit-interval number
  Tree retransmit-interval
  Range 1 to 1800
  Default 5
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
transit-delay number
  Synopsis Required LSA transmit time
  Context configure router string ospf3 number area string virtual-link string transit-area reference transit-delay number
  Tree transit-delay
  Range 1 to 1800
  Default 1
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
asbr
  Synopsis Enable the asbr context
  Context configure router string ospf3 number asbr
  Tree asbr
  Introduced 16.0.R1
 

Platforms

All
database-export
  Synopsis Enable the database-export context
  Context configure router string ospf3 number database-export
  Tree database-export
  Introduced 16.0.R4
 

Platforms

All
bgp-ls-identifier
  Synopsis Enable the bgp-ls-identifier context
  Context configure router string ospf3 number database-export bgp-ls-identifier
  Tree bgp-ls-identifier
  Introduced 16.0.R4
 

Platforms

All
value number
  Synopsis BGP-LS identifier sent in the BGP-LS NLRI
  Context configure router string ospf3 number database-export bgp-ls-identifier value number
  Tree value
  Max. Range 0 to 4294967295
  Default 0
  Introduced 16.0.R4
 

Platforms

All
igp-identifier number
  Synopsis IGP instance in the BGP-LS NLRI
  Context configure router string ospf3 number database-export igp-identifier number
  Tree igp-identifier
 

Description

This command identifies the IGP instance in the BGP-LS NLRI when a router has interfaces participating in multiple IGP instances. The concept of an instance ID specified for OSPF is local subnet significant (RFC 6549). An IGP identifier value can be configured to be unique within a given IGP domain when the router sends the IGP link state information using BGP-LS.
  Max. Range 0 to 18446744073709551615
  Introduced 16.0.R4
 

Platforms

All
export-limit
  Synopsis Enable the export-limit context
  Context configure router string ospf3 number export-limit
  Tree export-limit
  Introduced 16.0.R1
 

Platforms

All
log-percent number
  Synopsis Export limit before warning and SNMP notification sent
  Context configure router string ospf3 number export-limit log-percent number
  Tree log-percent
  Range 1 to 100
  Introduced 16.0.R1
 

Platforms

All
number number
  Synopsis Maximum routes or prefixes exported from route table
  Context configure router string ospf3 number export-limit number number
  Tree number
  Range 1 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
export-policy reference
  Synopsis Export policies that determine exported routes
  Context configure router string ospf3 number export-policy reference
  Tree export-policy
 

Description

This command configures export routing policies for the routes exported from the routing table to IS-IS.

If the export policy is undefined, the system does not export non IS-IS routes from the routing table manager to IS-IS.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.

If the aggregate command is also configured in the configure router context, the aggregation is applied before the export policy is applied.

Routing policies are created in the configure router policy-options context.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
extended-lsa keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Extended LSA format in an OSPFv3 area
  Context configure router string ospf3 number extended-lsa keyword
  Tree extended-lsa
  Default sparse
  Options sparse, only
  Introduced 16.0.R1
 

Platforms

All
external-db-overflow
  Synopsis Enable the external-db-overflow context
  Context configure router string ospf3 number external-db-overflow
  Tree external-db-overflow
  Introduced 16.0.R1
 

Platforms

All
interval number
  Synopsis Time during which the router operates in overload
  Context configure router string ospf3 number external-db-overflow interval number
  Tree interval
  Range 0 to 2147483647
  Default 0
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
limit number
  Synopsis Number of external LSA at which overload is triggered
  Context configure router string ospf3 number external-db-overflow limit number
  Tree limit
  Range 0 to 2147483647
  Default 0
  Introduced 16.0.R1
 

Platforms

All
external-preference number
  Synopsis Preference for OSPF external routes
  Context configure router string ospf3 number external-preference number
  Tree external-preference
  Range 1 to 255
  Default 150
  Introduced 16.0.R1
 

Platforms

All
graceful-restart
  Synopsis Enable the graceful-restart context
  Context configure router string ospf3 number graceful-restart
  Tree graceful-restart
  Introduced 16.0.R1
 

Platforms

All
helper-mode boolean
  Synopsis Enable graceful restart helper for OSPF
  Context configure router string ospf3 number graceful-restart helper-mode boolean
  Tree helper-mode
  Default true
  Introduced 16.0.R1
 

Platforms

All
strict-lsa-checking boolean
  Synopsis Perform strict LSA checking during graceful restart helper
  Context configure router string ospf3 number graceful-restart strict-lsa-checking boolean
  Tree strict-lsa-checking
  Default true
  Introduced 16.0.R1
 

Platforms

All
igp-shortcut
  Synopsis Enter the igp-shortcut context
  Context configure router string ospf3 number igp-shortcut
  Tree igp-shortcut
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the IGP shortcuts
  Context configure router string ospf3 number igp-shortcut admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
tunnel-next-hop
  Synopsis Enter the tunnel-next-hop context
  Context configure router string ospf3 number igp-shortcut tunnel-next-hop
  Tree tunnel-next-hop
  Introduced 16.0.R4
 

Platforms

All
family [family-type] keyword
  Synopsis Enter the family list instance
  Context configure router string ospf3 number igp-shortcut tunnel-next-hop family keyword
  Tree family
  Introduced 16.0.R4
 

Platforms

All
[family-type] keyword
  Synopsis Address family type for the tunnel next hop
  Context configure router string ospf3 number igp-shortcut tunnel-next-hop family keyword
  Options ipv4, ipv6, srv4, srv6
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
resolution keyword
  Synopsis Resolution state for IGP shortcut tunnels
  Context configure router string ospf3 number igp-shortcut tunnel-next-hop family keyword resolution keyword
  Tree resolution
  Default none
  Options none, filter, any, match-family-ip
  Introduced 16.0.R4
 

Platforms

All
resolution-filter
  Synopsis Enter the resolution-filter context
  Context configure router string ospf3 number igp-shortcut tunnel-next-hop family keyword resolution-filter
  Tree resolution-filter
  Introduced 16.0.R4
 

Platforms

All
rsvp boolean
  Synopsis Use RSVP tunneling for next-hop resolution
  Context configure router string ospf3 number igp-shortcut tunnel-next-hop family keyword resolution-filter rsvp boolean
  Tree rsvp
  Default false
  Introduced 16.0.R4
 

Platforms

All
sr-te boolean
  Synopsis Use SR-TE tunneling for next-hop resolution
  Context configure router string ospf3 number igp-shortcut tunnel-next-hop family keyword resolution-filter sr-te boolean
  Tree sr-te
  Default false
  Introduced 16.0.R4
 

Platforms

All
import-policy reference
  Synopsis Import policy names for routes from IGP to route table
  Context configure router string ospf3 number import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
ldp-sync boolean
  Synopsis Configure IGP-LDP synchronization for interfaces
  Context configure router string ospf3 number ldp-sync boolean
  Tree ldp-sync
  Default true
  Introduced 16.0.R1
 

Platforms

All
loopfree-alternate
  Synopsis Enable the loopfree-alternate context
  Context configure router string ospf3 number loopfree-alternate
  Tree loopfree-alternate
  Introduced 16.0.R1
 

Platforms

All
exclude
  Synopsis Enter the exclude context
  Context configure router string ospf3 number loopfree-alternate exclude
  Tree exclude
  Introduced 16.0.R3
 

Platforms

All
prefix-policy reference
  Synopsis Policy to exclude prefixes from LFA SPF calculation
  Context configure router string ospf3 number loopfree-alternate exclude prefix-policy reference
  Tree prefix-policy
 

Description

This command specifies the name of the policy for the prefixes to exclude from the LFA SPF calculation.

An excluded prefix is not included in LFA calculation regardless of its priority. The prefix tag is, however, used in the main SPF.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R3
 

Platforms

All
remote-lfa
  Synopsis Enable the remote-lfa context
  Context configure router string ospf3 number loopfree-alternate remote-lfa
  Tree remote-lfa
  Introduced 16.0.R4
 

Platforms

All
max-pq-cost number
  Synopsis Destination max cost for reverse SPF calculation
  Context configure router string ospf3 number loopfree-alternate remote-lfa max-pq-cost number
  Tree max-pq-cost
  Max. Range 0 to 4294967295
  Default 65535
  Introduced 16.0.R4
 

Platforms

All
node-protect
  Synopsis Enable the node-protect context
  Context configure router string ospf3 number loopfree-alternate remote-lfa node-protect
  Tree node-protect
  Introduced 16.0.R6
 

Platforms

All
max-pq-nodes number
  Synopsis Maximum number of PQ nodes found in the LFA SPFs
  Context configure router string ospf3 number loopfree-alternate remote-lfa node-protect max-pq-nodes number
  Tree max-pq-nodes
  Range 1 to 32
  Default 16
  Introduced 16.0.R6
 

Platforms

All
ti-lfa
  Synopsis Enable the ti-lfa context
  Context configure router string ospf3 number loopfree-alternate ti-lfa
  Tree ti-lfa
  Introduced 16.0.R5
 

Platforms

All
max-sr-frr-labels number
  Synopsis Maximum number of labels the TI-LFA backup path can use
  Context configure router string ospf3 number loopfree-alternate ti-lfa max-sr-frr-labels number
  Tree max-sr-frr-labels
  Range 0 to 3
  Default 2
  Introduced 16.0.R5
 

Platforms

All
node-protect
  Synopsis Enable the node-protect context
  Context configure router string ospf3 number loopfree-alternate ti-lfa node-protect
  Tree node-protect
  Introduced 16.0.R6
 

Platforms

All
multicast-import boolean
  Synopsis Submit routes into the multicast Route Table Manager
  Context configure router string ospf3 number multicast-import boolean
  Tree multicast-import
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload boolean
  Synopsis Change local router state to appear overloaded
  Context configure router string ospf3 number overload boolean
  Tree overload
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload-include-ext-1 boolean
  Synopsis Advertise routes with maximum metric value for overload
  Context configure router string ospf3 number overload-include-ext-1 boolean
  Tree overload-include-ext-1
  Default false
  Introduced 19.7.R1
 

Platforms

All
overload-include-ext-2 boolean
  Synopsis Advertise routes with maximum metric value for overload
  Context configure router string ospf3 number overload-include-ext-2 boolean
  Tree overload-include-ext-2
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload-include-stub boolean
  Synopsis Advertise all stub interfaces with max metric value
  Context configure router string ospf3 number overload-include-stub boolean
  Tree overload-include-stub
  Default false
  Introduced 16.0.R1
 

Platforms

All
overload-on-boot
  Synopsis Enable the overload-on-boot context
  Context configure router string ospf3 number overload-on-boot
  Tree overload-on-boot
  Introduced 16.0.R1
 

Platforms

All
timeout number
  Synopsis Router interval in overload before normal operations
  Context configure router string ospf3 number overload-on-boot timeout number
  Tree timeout
  Range 60 to 1800
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
preference number
  Synopsis Preference for OSPF internal routes
  Context configure router string ospf3 number preference number
  Tree preference
  Range 1 to 255
  Default 10
  Introduced 16.0.R1
 

Platforms

All
reference-bandwidth number
  Synopsis Bandwidth to reference the default costing of interfaces
  Context configure router string ospf3 number reference-bandwidth number
  Tree reference-bandwidth
  Range 1 to 18446744073709551615
  Default 100000000
  Units kilobps
  Introduced 16.0.R1
 

Platforms

All
rib-priority
  Synopsis Enter the rib-priority context
  Context configure router string ospf3 number rib-priority
  Tree rib-priority
  Introduced 16.0.R1
 

Platforms

All
high
  Synopsis Enter the high context
  Context configure router string ospf3 number rib-priority high
  Tree high
  Introduced 16.0.R1
 

Platforms

All
prefix-list reference
  Synopsis Higher priority list used during OSPF route calculation
  Context configure router string ospf3 number rib-priority high prefix-list reference
  Tree prefix-list
 

Reference

configure policy-options prefix-list string

  Introduced 16.0.R1
 

Platforms

All
router-id string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Unique router ID for the OSPF instance
  Context configure router string ospf3 number router-id string
  Tree router-id
  Introduced 16.0.R1
 

Platforms

All
rtr-adv-lsa-limit
  Synopsis Enable the rtr-adv-lsa-limit context
  Context configure router string ospf3 number rtr-adv-lsa-limit
  Tree rtr-adv-lsa-limit
  Introduced 16.0.R1
 

Platforms

All
log-only boolean
  Synopsis Log the event without triggering overload
  Context configure router string ospf3 number rtr-adv-lsa-limit log-only boolean
  Tree log-only
  Default false
  Introduced 16.0.R1
 

Platforms

All
max-lsa-count number
  Synopsis Max number of LSAs one router can advertise
  Context configure router string ospf3 number rtr-adv-lsa-limit max-lsa-count number
  Tree max-lsa-count
  Range 1 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
overload-timeout (number | keyword)
  Synopsis Maximum time in overload after LSA limit is reached
  Context configure router string ospf3 number rtr-adv-lsa-limit overload-timeout (number | keyword)
  Tree overload-timeout
  Range 1 to 1800
  Default forever
  Units seconds
  Options forever
  Introduced 16.0.R1
 

Platforms

All
warning-threshold number
  Synopsis Percentage of the max LSA count that causes a warning
  Context configure router string ospf3 number rtr-adv-lsa-limit warning-threshold number
  Tree warning-threshold
  Range 0 to 100
  Default 0
  Units percent
  Introduced 16.0.R1
 

Platforms

All
segment-routing
  Synopsis Enter the segment-routing context
  Context configure router string ospf3 number segment-routing
  Tree segment-routing
  Introduced 16.0.R4
 

Platforms

All
adj-sid-hold (number | keyword)
  Synopsis Adjacency SID hold time
  Context configure router string ospf3 number segment-routing adj-sid-hold (number | keyword)
  Tree adj-sid-hold
  Range 1 to 300
  Default 15
  Units seconds
  Options none
  Introduced 16.0.R4
 

Platforms

All
adjacency-sid
  Synopsis Enter the adjacency-sid context
  Context configure router string ospf3 number segment-routing adjacency-sid
  Tree adjacency-sid
  Introduced 22.7.R1
 

Platforms

All
allocate-dual-sids boolean
  Synopsis Allocate dual adjacency SIDs per interface
  Context configure router string ospf3 number segment-routing adjacency-sid allocate-dual-sids boolean
  Tree allocate-dual-sids
 

Description

When configured to true, the router supports two SR-MPLS adjacency SIDs per interface. A protected and unprotected adjacency SID is instantiated and advertised. If an SR-MPLS adjacency SID already exists, an additional complementary (protected or unprotected) adjacency SID is created on the interface.

When configured to false, the router disables the support of two SR-MPLS adjacency SIDs per interface.

  Default false
  Introduced 22.7.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of segment routing
  Context configure router string ospf3 number segment-routing admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
egress-statistics
  Synopsis Enter the egress-statistics context
  Context configure router string ospf3 number segment-routing egress-statistics
  Tree egress-statistics
  Introduced 19.10.R1
 

Platforms

All
adj-sid boolean
  Synopsis Enable the allocation of statistics on adjacency SIDs
  Context configure router string ospf3 number segment-routing egress-statistics adj-sid boolean
  Tree adj-sid
 

Description

When configured to true, this command enables the allocation of statistic indexes to each programmed NHLFE corresponding to Adjacency SIDs (local and received by means of IGP advertisement). All NHLFEs associated to a given SID share the same index. If a statistics index is not available at allocation time, the allocation fails and the system retries the allocation. The system generates a log on the first fail and a log on the final successful allocation.
  Default false
  Introduced 19.10.R1
 

Platforms

All
node-sid boolean
  Synopsis Enable the allocation of statistics on node SIDs
  Context configure router string ospf3 number segment-routing egress-statistics node-sid boolean
  Tree node-sid
  Default false
  Introduced 19.10.R1
 

Platforms

All
ingress-statistics
  Synopsis Enter the ingress-statistics context
  Context configure router string ospf3 number segment-routing ingress-statistics
  Tree ingress-statistics
  Introduced 19.10.R1
 

Platforms

All
adj-sid boolean
  Synopsis Enable the allocation of statistics on adjacency SIDs
  Context configure router string ospf3 number segment-routing ingress-statistics adj-sid boolean
  Tree adj-sid
 

Description

When configured to true, this command enables the allocation of statistic indexes to each programmed NHLFE corresponding to Adjacency SIDs (local and received by means of IGP advertisement). All NHLFEs associated to a given SID share the same index. If a statistics index is not available at allocation time, the allocation fails and the system retries the allocation. The system generates a log on the first fail and a log on the final successful allocation.
  Default false
  Introduced 19.10.R1
 

Platforms

All
node-sid boolean
  Synopsis Enable the allocation of statistics on node SIDs
  Context configure router string ospf3 number segment-routing ingress-statistics node-sid boolean
  Tree node-sid
  Default false
  Introduced 19.10.R1
 

Platforms

All
prefix-sid-range
  Synopsis Enable the prefix-sid-range context
  Context configure router string ospf3 number segment-routing prefix-sid-range
  Tree prefix-sid-range
 

Description

Commands in this context configure the label block BGP segment routing can use.
  Introduced 16.0.R4
 

Platforms

All
global
  Synopsis BGP global SR range allocation
  Context configure router string ospf3 number segment-routing prefix-sid-range global
  Tree global
 

Description

When configured, the system allows BGP to allocate labels from the SRGB space, as defined under the configure router mpls-labels sr-labels context.
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 16.0.R4
 

Platforms

All
max-index number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Upper bound value for the local SID index
  Context configure router string ospf3 number segment-routing prefix-sid-range max-index number
  Tree max-index
  Range 0 to 524287
  Default 1
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 16.0.R4
 

Platforms

All
start-label number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Lower bound value for the local label offset
  Context configure router string ospf3 number segment-routing prefix-sid-range start-label number
  Tree start-label
  Range 0 to 524287
  Default 0
 

Notes

The following elements are part of a choice: global or (max-index and start-label).
  Introduced 16.0.R4
 

Platforms

All
tunnel-mtu number
  Synopsis Tunnel MTU size
  Context configure router string ospf3 number segment-routing tunnel-mtu number
  Tree tunnel-mtu
  Range 512 to 9786
  Introduced 16.0.R4
 

Platforms

All
tunnel-table-pref number
  Synopsis Preference of SR tunnels created by the IGP instance
  Context configure router string ospf3 number segment-routing tunnel-table-pref number
  Tree tunnel-table-pref
 

Description

This command configures the TTM preference of shortest path SR tunnels created by the IGP instance. This is used for BGP shortcuts, VPRN auto-bind, or BGP transport tunnel when the tunnel binding commands are configured to the any value, which parses the TTM for tunnels in the protocol preference order. The user can choose to either accept the global TTM preference or explicitly list the tunnel types they want to use. If the user lists the tunnel type explicitly, the TTM preference is still used to select one type over the other. In both cases, a fallback to the next preferred tunnel type is performed if the selected type fails. A reversion to a more preferred tunnel type is performed as soon as one is available.

The segment routing module adds to the TTM an SR tunnel entry for each resolved remote node SID prefix and programs the data path having the corresponding LTN with the push operation pointing to the primary and LFA backup NHLFEs.

The default preference for shortest path SR tunnels in the TTM is set lower than LDP tunnels but higher than BGP tunnels to allow controlled migration of customers without disrupting their current deployment when they enable segment routing. The following is the value of the default preference for the various tunnel types. This includes the preference of SR tunnels based on shortest path (referred to as SR-ISIS and SR-OSPF).

Note: The preference of an SR-TE LSP is not configurable and is the second most preferred tunnel type after RSVP-TE. The preference is the same whether if the SR-TE LSP was resolved in IS-IS or OSPF.

The global default TTM preference for the tunnel types is as follows:

  • ROUTE_PREF_RSVP 7

  • ROUTE_PREF_SR_TE 8

  • ROUTE_PREF_LDP 9

  • ROUTE_PREF_OSPF_TTM 10

  • ROUTE_PREF_ISIS_TTM 11

  • ROUTE_PREF_BGP_TTM 12

  • ROUTE_PREF_GRE 255

The default value for SR-ISIS or SR-OSPF is the same regardless if one or more IS-IS or OSPF instances programmed a tunnel for the same prefix. The selection of a SR tunnel in this case will be based on the lowest IGP instance ID. Similarly, IPv6 SR-ISIS and SR-OSPF3 tunnels are programmed into TTMv6 with the same default preference value as IPv4 SR-ISIS and IPv4 SR-OSPF respectively.

Nokia recommends not to set two or more tunnel types to the same preference value. In such a situation, the tunnel table prefers the tunnel type which was first introduced in SR OS implementation historically.
  Range 1 to 255
  Default 10
  Introduced 16.0.R4
 

Platforms

All
timers
  Synopsis Enter the timers context
  Context configure router string ospf3 number timers
  Tree timers
  Introduced 16.0.R1
 

Platforms

All
incremental-spf-wait number
  Synopsis Delay time before an incremental SPF calculation starts
  Context configure router string ospf3 number timers incremental-spf-wait number
  Tree incremental-spf-wait
  Range 0 to 1000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
lsa-accumulate number
  Synopsis Delay to gather LSAs before advertising to neighbors
  Context configure router string ospf3 number timers lsa-accumulate number
  Tree lsa-accumulate
  Range 0 to 1000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
lsa-arrival number
  Synopsis Min delay between receipt of same LSAs from neighbors
  Context configure router string ospf3 number timers lsa-arrival number
  Tree lsa-arrival
  Range 0 to 600000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
lsa-generate
  Synopsis Enter the lsa-generate context
  Context configure router string ospf3 number timers lsa-generate
  Tree lsa-generate
  Introduced 16.0.R1
 

Platforms

All
lsa-initial-wait number
  Synopsis First wait period between OSPF LSA generation
  Context configure router string ospf3 number timers lsa-generate lsa-initial-wait number
  Tree lsa-initial-wait
  Range 10 to 600000
  Default 5000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
lsa-second-wait number
  Synopsis Hold time between the first and second LSA generation
  Context configure router string ospf3 number timers lsa-generate lsa-second-wait number
  Tree lsa-second-wait
  Range 10 to 600000
  Default 5000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
max-lsa-wait number
  Synopsis Max time between two LSAs being generated
  Context configure router string ospf3 number timers lsa-generate max-lsa-wait number
  Tree max-lsa-wait
  Range 10 to 600000
  Default 5000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
redistribute-delay number
  Synopsis Hold down timer for external routes into OSPF
  Context configure router string ospf3 number timers redistribute-delay number
  Tree redistribute-delay
  Range 0 to 1000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
spf-wait
  Synopsis Enter the spf-wait context
  Context configure router string ospf3 number timers spf-wait
  Tree spf-wait
  Introduced 16.0.R1
 

Platforms

All
spf-initial-wait number
  Synopsis Initial SPF calculation delay after a topology change
  Context configure router string ospf3 number timers spf-wait spf-initial-wait number
  Tree spf-initial-wait
  Range 10 to 100000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
spf-max-wait number
  Synopsis Max interval between two consecutive SPF calculations
  Context configure router string ospf3 number timers spf-wait spf-max-wait number
  Tree spf-max-wait
  Range 10 to 120000
  Default 10000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
spf-second-wait number
  Synopsis Hold time between the first and second SPF calculation
  Context configure router string ospf3 number timers spf-wait spf-second-wait number
  Tree spf-second-wait
  Range 10 to 100000
  Default 1000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
unicast-import boolean
  Synopsis Submit routes into the unicast Route Table Manager
  Context configure router string ospf3 number unicast-import boolean
  Tree unicast-import
  Default true
  Introduced 16.0.R1
 

Platforms

All

p2mp-sr-tree

  Synopsis Enable the p2mp-sr-tree context
  Context configure router string p2mp-sr-tree
  Tree p2mp-sr-tree
  Introduced 21.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the P2MP SR tree
  Context configure router string p2mp-sr-tree admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 21.5.R1
 

Platforms

All
bfd-liveness keyword
  Synopsis BFD-liveness for P2MP SR tree status entry
  Context configure router string p2mp-sr-tree bfd-liveness keyword
  Tree bfd-liveness
  Options ipv4, ipv6
  Max. Instances 2
  Introduced 21.5.R1
 

Platforms

All
p2mp-policy [p2mp-policy-name] string
  Synopsis Enter the p2mp-policy list instance
  Context configure router string p2mp-sr-tree p2mp-policy string
  Tree p2mp-policy
  Introduced 21.5.R1
 

Platforms

All
[p2mp-policy-name] string
  Synopsis P2MP policy name
  Context configure router string p2mp-sr-tree p2mp-policy string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the P2MP policy
  Context configure router string p2mp-sr-tree p2mp-policy string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 21.5.R1
 

Platforms

All
candidate-path [candidate-path-name] string
  Synopsis Enter the candidate-path list instance
  Context configure router string p2mp-sr-tree p2mp-policy string candidate-path string
  Tree candidate-path
  Introduced 21.5.R1
 

Platforms

All
[candidate-path-name] string
  Synopsis Candidate path name
  Context configure router string p2mp-sr-tree p2mp-policy string candidate-path string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

All
active-instance reference
  Synopsis Candidate path active instance
  Context configure router string p2mp-sr-tree p2mp-policy string candidate-path string active-instance reference
  Tree active-instance
 

Reference

configure router string p2mp-sr-tree p2mp-policy string candidate-path string path-instances number

  Introduced 21.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the P2MP SR tree
  Context configure router string p2mp-sr-tree p2mp-policy string candidate-path string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 21.5.R1
 

Platforms

All
path-instances [index] number
  Synopsis Enter the path-instances list instance
  Context configure router string p2mp-sr-tree p2mp-policy string candidate-path string path-instances number
  Tree path-instances
  Introduced 21.5.R1
 

Platforms

All
[index] number
  Synopsis Instance index
  Context configure router string p2mp-sr-tree p2mp-policy string candidate-path string path-instances number
  Range 1 to 2
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

All
instance-id number
  Synopsis Instance value
  Context configure router string p2mp-sr-tree p2mp-policy string candidate-path string path-instances number instance-id number
  Tree instance-id
  Max. Range 0 to 4294967295
  Introduced 21.5.R1
 

Platforms

All
preference number
  Synopsis Candidate-path preference
  Context configure router string p2mp-sr-tree p2mp-policy string candidate-path string preference number
  Tree preference
  Range 0 to 1024
  Default 100
  Introduced 21.5.R1
 

Platforms

All
root-address (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Root address for the P2MP policy
  Context configure router string p2mp-sr-tree p2mp-policy string root-address (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree root-address
  Default 0.0.0.0
  Introduced 21.5.R1
 

Platforms

All
tree-id number
  Synopsis Tree ID for the P2MP policy
  Context configure router string p2mp-sr-tree p2mp-policy string tree-id number
  Tree tree-id
  Range 0 | 8193 to 16286
  Default 0
  Introduced 21.5.R1
 

Platforms

All
replication-segment [policy-name] string
  Synopsis Enter the replication-segment list instance
  Context configure router string p2mp-sr-tree replication-segment string
  Tree replication-segment
  Introduced 21.5.R1
 

Platforms

All
[policy-name] string
  Synopsis P2MP policy name
  Context configure router string p2mp-sr-tree replication-segment string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the replication segment
  Context configure router string p2mp-sr-tree replication-segment string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 21.5.R1
 

Platforms

All
downstream-nodes [downstream-index] number
  Synopsis Enter the downstream-nodes list instance
  Context configure router string p2mp-sr-tree replication-segment string downstream-nodes number
  Tree downstream-nodes
  Introduced 21.5.R1
 

Platforms

All
[downstream-index] number
  Synopsis Downstream index
  Context configure router string p2mp-sr-tree replication-segment string downstream-nodes number
  Range 1 to 4096
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of next-hop entries
  Context configure router string p2mp-sr-tree replication-segment string downstream-nodes number admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 21.5.R1
 

Platforms

All
label
  Synopsis Enter the label context
  Context configure router string p2mp-sr-tree replication-segment string downstream-nodes number label
  Tree label
  Introduced 21.5.R1
 

Platforms

All
sid-list [index] number
  Synopsis Enter the sid-list list instance
  Context configure router string p2mp-sr-tree replication-segment string downstream-nodes number label sid-list number
  Tree sid-list
  Introduced 21.5.R1
 

Platforms

All
[index] number
  Synopsis SID list index
  Context configure router string p2mp-sr-tree replication-segment string downstream-nodes number label sid-list number
  Range 1 to 11
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

All
replication-sid number
  Synopsis Segment ID for the SID list entry
  Context configure router string p2mp-sr-tree replication-segment string downstream-nodes number label sid-list number replication-sid number
  Tree replication-sid
  Range 3 | 16 to 1048575 | 4294967295
 

Notes

This element is mandatory.
  Introduced 21.5.R1
 

Platforms

All
next-hop-address (ipv4-address-with-zone | ipv6-address-with-zone)
  Synopsis Next-hop address for replication segment next hops
  Context configure router string p2mp-sr-tree replication-segment string downstream-nodes number next-hop-address (ipv4-address-with-zone | ipv6-address-with-zone)
  Tree next-hop-address
  Default 0.0.0.0
  Introduced 21.5.R1
 

Platforms

All
next-hop-interface-name string
  Synopsis Interface name for replication segment next-hops
  Context configure router string p2mp-sr-tree replication-segment string downstream-nodes number next-hop-interface-name string
  Tree next-hop-interface-name
  String Length 1 to 32
  Introduced 21.5.R1
 

Platforms

All
protect-nexthop-id reference
  Synopsis ID of the protection next hop used for FRR
  Context configure router string p2mp-sr-tree replication-segment string downstream-nodes number protect-nexthop-id reference
  Tree protect-nexthop-id
 

Reference

configure router string p2mp-sr-tree replication-segment string downstream-nodes number

  Introduced 21.5.R1
 

Platforms

All
instance-id number
  Synopsis Instance ID for replication segment entries
  Context configure router string p2mp-sr-tree replication-segment string instance-id number
  Tree instance-id
  Max. Range 0 to 4294967295
  Default 0
  Introduced 21.5.R1
 

Platforms

All
replication-sid number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Segment ID of the replication segment
  Context configure router string p2mp-sr-tree replication-segment string replication-sid number
  Tree replication-sid
  Max. Range 0 to 4294967295
  Default 0
  Introduced 21.5.R1
 

Platforms

All
root-address (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Root address for replication segment entries
  Context configure router string p2mp-sr-tree replication-segment string root-address (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree root-address
  Introduced 21.5.R1
 

Platforms

All
sid-action keyword
  Synopsis SID action for replication segment entries
  Context configure router string p2mp-sr-tree replication-segment string sid-action keyword
  Tree sid-action
  Default none
  Options none, push, pop, swap
  Introduced 21.5.R1
 

Platforms

All
tree-id number
  Synopsis Tree ID for the replication segment of the P2MP SR tree
  Context configure router string p2mp-sr-tree replication-segment string tree-id number
  Tree tree-id
  Range 0 | 8193 to 16286
  Default 0
  Introduced 21.5.R1
 

Platforms

All
reserved-label-block reference
  Synopsis Reserved label block name for the P2MP SR tree
  Context configure router string p2mp-sr-tree reserved-label-block reference
  Tree reserved-label-block
 

Reference

configure router string mpls-labels reserved-label-block string

  Introduced 21.5.R1
 

Platforms

All

pcep

  Synopsis Enter the pcep context
  Context configure router string pcep
  Tree pcep
  Introduced 16.0.R4
 

Platforms

All
pcc
  Synopsis Enable the pcc context
  Context configure router string pcep pcc
  Tree pcc
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the PCEP session element
  Context configure router string pcep pcc admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
dead-timer number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Configure dead timer
  Context configure router string pcep pcc dead-timer number
  Tree dead-timer
  Range 1 to 255
  Default 120
  Units seconds
  Introduced 16.0.R4
 

Platforms

All
keepalive number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Configure keepalive
  Context configure router string pcep pcc keepalive number
  Tree keepalive
  Range 1 to 255
  Default 30
  Units seconds
  Introduced 16.0.R4
 

Platforms

All
local-address string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Local IPv4 address of the PCEP speaker
  Context configure router string pcep pcc local-address string
  Tree local-address
  Description

This command configures the local IPv4 address of the PCEP speaker.

See "PCEP session establishment and maintenance" in the 7750 SR and 7950 XRS Segment Routing and PCE User Guide for more information about configuring a PCEP local IPv4 address to establish a PCEP session.
  Introduced 16.0.R4
 

Platforms

All
local-address-ipv6 string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Local IPv6 address of the PCEP speaker
  Context configure router string pcep pcc local-address-ipv6 string
  Tree local-address-ipv6
  Description

This command configures the local IPv6 address of the PCEP speaker.

See "PCEP session establishment and maintenance" in the 7750 SR and 7950 XRS Segment Routing and PCE User Guide for more information about configuring a PCEP local IPv6 address to establish a PCEP session.
  Introduced 20.2.R1
 

Platforms

All
max-srte-pce-init-lsps number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Configure max sr te pce init LSP
  Context configure router string pcep pcc max-srte-pce-init-lsps number
  Tree max-srte-pce-init-lsps
  Range 0 to 8191
  Default 8191
  Introduced 16.0.R5
 

Platforms

All
pce-associations
  Synopsis Enter the pce-associations context
  Context configure router string pcep pcc pce-associations
  Tree pce-associations
 

Description

Commands in this context configure PCE association groups.
  Introduced 22.5.R1
 

Platforms

All
diversity [assoc-name] string
  Synopsis Enter the diversity list instance
  Context configure router string pcep pcc pce-associations diversity string
  Tree diversity
 

Description

Commands in this context create a named diversity association from which the parameters for the specified diversity association are configured.
  Introduced 22.5.R1
 

Platforms

All
[assoc-name] string
  Synopsis Name of the association group
  Context configure router string pcep pcc pce-associations diversity string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 22.5.R1
 

Platforms

All
association-id number
  Synopsis Association ID for the diversity association group
  Context configure router string pcep pcc pce-associations diversity string association-id number
  Tree association-id
 

Description

This command configures the diversity association ID. The user must specify an association ID.
  Range 0 to 65535
  Default 0
  Introduced 22.5.R1
 

Platforms

All
association-source (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Source IP address for the association
  Context configure router string pcep pcc pce-associations diversity string association-source (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree association-source
 

Description

This command configures the source IP address of the diversity association.
  Introduced 22.5.R1
 

Platforms

All
disjointness-reference boolean
  Synopsis Configure P-flag in the disjointness configuration TLV
  Context configure router string pcep pcc pce-associations diversity string disjointness-reference boolean
  Tree disjointness-reference
 

Description

When configured to true, the router sets the P-flag in the disjointness configuration TLV. When the P-flag is set, it indicates that this LSP path is the reference path for the disjoint set of paths. The PCE must first compute the path of this LSP and then apply the requested disjointness type to compute the path of all other paths in the same diversity association ID.

When configured to false, the router does not set the P-flag in the disjointness configuration TLV.
  Default false
  Introduced 22.5.R1
 

Platforms

All
disjointness-type keyword
  Synopsis Disjointness type for the association group
  Context configure router string pcep pcc pce-associations diversity string disjointness-type keyword
  Tree disjointness-type
 

Description

This command configures the disjointness type for the association group.
  Default loose
  Options strict, loose
  Introduced 22.5.R1
 

Platforms

All
diversity-type keyword
  Synopsis Diversity type for the association group
  Context configure router string pcep pcc pce-associations diversity string diversity-type keyword
  Tree diversity-type
 

Description

This command configures the diversity type for the association group.
  Default none
  Options none, link, node, srlg-link, srlg-node
  Introduced 22.5.R1
 

Platforms

All
policy [assoc-name] string
  Synopsis Enter the policy list instance
  Context configure router string pcep pcc pce-associations policy string
  Tree policy
 

Description

Commands in this context create a named policy association from which the parameters for the specified policy association are configured.
  Introduced 22.5.R1
 

Platforms

All
[assoc-name] string
  Synopsis Name of the association group
  Context configure router string pcep pcc pce-associations policy string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 22.5.R1
 

Platforms

All
association-id number
  Synopsis Association ID for the policy association group
  Context configure router string pcep pcc pce-associations policy string association-id number
  Tree association-id
 

Description

This command configures the policy association ID. The user must specify an association ID.
  Range 0 to 65535
  Default 0
  Introduced 22.5.R1
 

Platforms

All
association-source (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Source IP address for the association
  Context configure router string pcep pcc pce-associations policy string association-source (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree association-source
 

Description

This command configures the source IP address of the policy association.

  Introduced 22.5.R1
 

Platforms

All
peer [ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the peer list instance
  Context configure router string pcep pcc peer (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree peer
  Max. Instances 2
  Introduced 16.0.R4
 

Platforms

All
[ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Destination IP address of a PCE peer in a PCEP session
  Context configure router string pcep pcc peer (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the PCC peer
  Context configure router string pcep pcc peer (ipv4-address-no-zone | ipv6-address-no-zone) admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
preference number
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Preference value of the peer
  Context configure router string pcep pcc peer (ipv4-address-no-zone | ipv6-address-no-zone) preference number
  Tree preference
  Range 0 to 100
  Default 0
  Introduced 16.0.R4
 

Platforms

All
route-preference keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Route preference to reach the PCE server
  Context configure router string pcep pcc peer (ipv4-address-no-zone | ipv6-address-no-zone) route-preference keyword
  Tree route-preference
 

Description

This command specifies the routing preference to reach the PCE server. If the configured option is to use both in-band and out-of-band routes, the out-of-band routes in the management routing instance are used to reach the PCE server before the in-band routes in the Base routing instance.
  Default both
  Options inband, outband, both
  Introduced 21.10.R1
 

Platforms

All
tls-client-profile reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis TLS client profile name assigned to this PCC peer
  Context configure router string pcep pcc peer (ipv4-address-no-zone | ipv6-address-no-zone) tls-client-profile reference
  Tree tls-client-profile
 

Reference

configure system security tls client-tls-profile string

  Introduced 21.10.R1
 

Platforms

All
tls-wait-timer number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Time the PCC waits until declaring handshake failure
  Context configure router string pcep pcc peer (ipv4-address-no-zone | ipv6-address-no-zone) tls-wait-timer number
  Tree tls-wait-timer
  Range 60 to 255
  Default 60
  Units seconds
  Introduced 21.10.R1
 

Platforms

All
redelegation-timer number
  Synopsis Configure redelegation-timer
  Context configure router string pcep pcc redelegation-timer number
  Tree redelegation-timer
  Range 1 to 3600
  Default 90
  Units seconds
  Introduced 16.0.R4
 

Platforms

All
report-path-constraints boolean
  Synopsis Include LSP path constraints in PCE report messages
  Context configure router string pcep pcc report-path-constraints boolean
  Tree report-path-constraints
  Default true
  Introduced 16.0.R4
 

Platforms

All
state-timer
  Synopsis Enter the state-timer context
  Context configure router string pcep pcc state-timer
  Tree state-timer
  Introduced 16.0.R4
 

Platforms

All
timer number
  Synopsis Configure state-timer
  Context configure router string pcep pcc state-timer timer number
  Tree timer
  Range 1 to 3600
  Default 180
  Units seconds
  Introduced 16.0.R4
 

Platforms

All
timer-action keyword
  Synopsis State timer action remove/none
  Context configure router string pcep pcc state-timer timer-action keyword
  Tree timer-action
  Default remove
  Options none, remove
  Introduced 16.0.R4
 

Platforms

All
unknown-message-rate number
  Synopsis Configure unknown message rate
  Context configure router string pcep pcc unknown-message-rate number
  Tree unknown-message-rate
  Range 1 to 255
  Default 10
  Introduced 16.0.R4
 

Platforms

All
pce
  Synopsis Enable the pce context
  Context configure router string pcep pce
  Tree pce
  Introduced 16.0.R4
 

Platforms

VSR-NRC
admin-state keyword
  Synopsis Administrative state of the PCEP session element
  Context configure router string pcep pce admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

VSR-NRC
dead-timer number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Configure dead timer
  Context configure router string pcep pce dead-timer number
  Tree dead-timer
  Range 1 to 255
  Default 120
  Units seconds
  Introduced 16.0.R4
 

Platforms

VSR-NRC
keepalive number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Configure keepalive
  Context configure router string pcep pce keepalive number
  Tree keepalive
  Range 1 to 255
  Default 30
  Units seconds
  Introduced 16.0.R4
 

Platforms

VSR-NRC
local-address string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Local IPv4 address of the PCEP speaker
  Context configure router string pcep pce local-address string
  Tree local-address
  Introduced 16.0.R4
 

Platforms

VSR-NRC
local-address-ipv6 string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Local IPv6 address of the PCEP speaker
  Context configure router string pcep pce local-address-ipv6 string
  Tree local-address-ipv6
  Introduced 20.2.R1
 

Platforms

VSR-NRC
tls-server-profile reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis TLS server profile name assigned to this PCE
  Context configure router string pcep pce tls-server-profile reference
  Tree tls-server-profile
 

Reference

configure system security tls server-tls-profile string

  Introduced 21.10.R1
 

Platforms

VSR-NRC
tls-wait-timer number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Configure tls-wait-timer
  Context configure router string pcep pce tls-wait-timer number
  Tree tls-wait-timer
  Range 60 to 255
  Default 60
  Units seconds
  Introduced 21.10.R1
 

Platforms

VSR-NRC
unknown-message-rate number
  Synopsis Configure unknown message rate
  Context configure router string pcep pce unknown-message-rate number
  Tree unknown-message-rate
  Range 1 to 255
  Default 10
  Introduced 16.0.R4
 

Platforms

VSR-NRC

pcp

  Synopsis Enter the pcp context
  Context configure router string pcp
  Tree pcp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
server [name] string
  Synopsis Enter the server list instance
  Context configure router string pcp server string
  Tree server
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[name] string
  Synopsis PCP server name
  Context configure router string pcp server string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the PCP server
  Context configure router string pcp server string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string pcp server string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
dual-stack-lite-address string
  Synopsis Inside Dual Stack Lite AFTR address
  Context configure router string pcp server string dual-stack-lite-address string
  Tree dual-stack-lite-address
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
fwd-inside-router string
  Synopsis PCP forwarding inside virtual router instance
  Context configure router string pcp server string fwd-inside-router string
  Tree fwd-inside-router
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
interface [name] reference
  Synopsis Add a list entry for interface
  Context configure router string pcp server string interface reference
  Tree interface
  Max. Instances 32
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
[name] reference
  Synopsis Interface name
  Context configure router string pcp server string interface reference
 

Reference

configure router string interface string

 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
policy reference
  Synopsis PCP server policy
  Context configure router string pcp server string policy reference
  Tree policy
 

Reference

configure service nat pcp-server-policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR

pim

  Synopsis Enable the pim context
  Context configure router string pim
  Tree pim
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of PIM
  Context configure router string pim admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
apply-to keyword
  Synopsis IES and non-IES interfaces to create in PIM
  Context configure router string pim apply-to keyword
  Tree apply-to
  Default none
  Options ies, non-ies, all, none
  Introduced 16.0.R1
 

Platforms

All
import
  Synopsis Enter the import context
  Context configure router string pim import
  Tree import
  Introduced 16.0.R1
 

Platforms

All
join-policy reference
  Synopsis Character limit for policy name
  Context configure router string pim import join-policy reference
  Tree join-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
register-policy reference
  Synopsis Character limit for policy name
  Context configure router string pim import register-policy reference
  Tree register-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
interface [interface-name] string
  Synopsis Enter the interface list instance
  Context configure router string pim interface string
  Tree interface
  Introduced 16.0.R1
 

Platforms

All
[interface-name] string
  Synopsis Router interface name
  Context configure router string pim interface string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the PIM interface
  Context configure router string pim interface string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
assert-period number
  Synopsis Time for periodic refreshes of PIM Assert messages on an interface
  Context configure router string pim interface string assert-period number
  Tree assert-period
  Range 1 to 300
  Default 60
  Introduced 16.0.R1
 

Platforms

All
bfd-liveness
  Synopsis Enter the bfd-liveness context
  Context configure router string pim interface string bfd-liveness
  Tree bfd-liveness
  Introduced 16.0.R1
 

Platforms

All
ipv4 boolean
  Synopsis Use Bidirectional Forwarding Detection for IPv4 on PIM interface
  Context configure router string pim interface string bfd-liveness ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6 boolean
  Synopsis Use Bidirectional Forwarding Detection for IPv6 on PIM interface
  Context configure router string pim interface string bfd-liveness ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

All
bier-signaling-type
  Synopsis Enter the bier-signaling-type context
  Context configure router string pim interface string bier-signaling-type
  Tree bier-signaling-type
  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ipv4 boolean
  Synopsis Enable PIM IPv4 signaling through a BIER domain
  Context configure router string pim interface string bier-signaling-type ipv4 boolean
  Tree ipv4
  Default false
  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ipv6 boolean
  Synopsis Enable PIM IPv6 signaling through a BIER domain
  Context configure router string pim interface string bier-signaling-type ipv6 boolean
  Tree ipv6
  Default false
  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
bsm-check-rtr-alert boolean
  Synopsis Check router alert option in bootstrap messages received
  Context configure router string pim interface string bsm-check-rtr-alert boolean
  Tree bsm-check-rtr-alert
  Default false
  Introduced 16.0.R1
 

Platforms

All
hello-interval number
  Synopsis Frequency at which PIM Hello messages are sent over this interface
  Context configure router string pim interface string hello-interval number
  Tree hello-interval
  Range 0 to 255
  Default 30
  Introduced 16.0.R1
 

Platforms

All
hello-multiplier number
  Synopsis Multiplier to determine the hold time for PIM neighbor
  Context configure router string pim interface string hello-multiplier number
  Tree hello-multiplier
  Range 20 to 100
  Default 35
  Introduced 16.0.R1
 

Platforms

All
improved-assert boolean
  Synopsis Allow improved assert processing on interface
  Context configure router string pim interface string improved-assert boolean
  Tree improved-assert
  Default true
  Introduced 16.0.R1
 

Platforms

All
instant-prune-echo boolean
  Synopsis Allow PIM to send an instant prune echo when router starts the prune pending timer for PIM interface
  Context configure router string pim interface string instant-prune-echo boolean
  Tree instant-prune-echo
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string pim interface string ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
monitor-oper-group
  Synopsis Enter the monitor-oper-group context
  Context configure router string pim interface string ipv4 monitor-oper-group
  Tree monitor-oper-group
  Introduced 16.0.R1
 

Platforms

All
name reference
  Synopsis Operational group identifier
  Context configure router string pim interface string ipv4 monitor-oper-group name reference
  Tree name
 

Reference

configure service oper-group string

  Introduced 16.0.R1
 

Platforms

All
operation keyword
  Synopsis Operation performed when operational group is active
  Context configure router string pim interface string ipv4 monitor-oper-group operation keyword
  Tree operation
  Options add, subtract, set
  Introduced 16.0.R1
 

Platforms

All
priority-delta number
  Synopsis Delta priority with operation when operational group is active
  Context configure router string pim interface string ipv4 monitor-oper-group priority-delta number
  Tree priority-delta
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
multicast boolean
  Synopsis Enable PIM interface operation
  Context configure router string pim interface string ipv4 multicast boolean
  Tree multicast
  Default true
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string pim interface string ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
monitor-oper-group
  Synopsis Enter the monitor-oper-group context
  Context configure router string pim interface string ipv6 monitor-oper-group
  Tree monitor-oper-group
  Introduced 16.0.R1
 

Platforms

All
name reference
  Synopsis Operational group identifier
  Context configure router string pim interface string ipv6 monitor-oper-group name reference
  Tree name
 

Reference

configure service oper-group string

  Introduced 16.0.R1
 

Platforms

All
operation keyword
  Synopsis Operation performed when operational group is active
  Context configure router string pim interface string ipv6 monitor-oper-group operation keyword
  Tree operation
  Options add, subtract, set
  Introduced 16.0.R1
 

Platforms

All
priority-delta number
  Synopsis Delta priority with operation when operational group is active
  Context configure router string pim interface string ipv6 monitor-oper-group priority-delta number
  Tree priority-delta
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
multicast boolean
  Synopsis Enable PIM interface operation
  Context configure router string pim interface string ipv6 multicast boolean
  Tree multicast
  Default true
  Introduced 16.0.R1
 

Platforms

All
max-groups number
  Synopsis Maximum number of groups for the interface
  Context configure router string pim interface string max-groups number
  Tree max-groups
  Range 0 | 1 to 16000
  Default 0
  Introduced 16.0.R1
 

Platforms

All
mcac
  Synopsis Enter the mcac context
  Context configure router string pim interface string mcac
  Tree mcac
  Introduced 16.0.R1
 

Platforms

All
bandwidth
  Synopsis Enter the bandwidth context
  Context configure router string pim interface string mcac bandwidth
  Tree bandwidth
  Introduced 16.0.R1
 

Platforms

All
mandatory (number | keyword)
  Synopsis Pre-reserved bandwidth for all mandatory channels
  Context configure router string pim interface string mcac bandwidth mandatory (number | keyword)
  Tree mandatory
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 16.0.R1
 

Platforms

All
total (number | keyword)
  Synopsis Maximum allowed bandwidth
  Context configure router string pim interface string mcac bandwidth total (number | keyword)
  Tree total
  Range 0 to 2147483647
  Default unlimited
  Options unlimited
  Introduced 16.0.R1
 

Platforms

All
interface-policy reference
  Synopsis Name of multicast CAC interface policy
  Context configure router string pim interface string mcac interface-policy reference
  Tree interface-policy
 

Reference

configure mcac interface-policy string

  Introduced 16.0.R1
 

Platforms

All
mc-constraints
  Synopsis Enter the mc-constraints context
  Context configure router string pim interface string mcac mc-constraints
  Tree mc-constraints
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the multicast CAC constraints
  Context configure router string pim interface string mcac mc-constraints admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
level [level-id] number
  Synopsis Enter the level list instance
  Context configure router string pim interface string mcac mc-constraints level number
  Tree level
  Introduced 16.0.R1
 

Platforms

All
[level-id] number
  Synopsis Bandwidth level ID for an MCAC constraint
  Context configure router string pim interface string mcac mc-constraints level number
  Range 1 to 8
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
bandwidth number
  Synopsis Bandwidth available for this level
  Context configure router string pim interface string mcac mc-constraints level number bandwidth number
  Tree bandwidth
  Range 0 to 2147483647
  Units kilobps
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
number-down [number-lag-port-down] number
  Synopsis Enter the number-down list instance
  Context configure router string pim interface string mcac mc-constraints number-down number
  Tree number-down
  Introduced 16.0.R1
 

Platforms

All
[number-lag-port-down] number
  Synopsis Number of ports that are down in this LAG link
  Context configure router string pim interface string mcac mc-constraints number-down number
  Range 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
level number
  Synopsis Level ID to associate with number of down LAG ports
  Context configure router string pim interface string mcac mc-constraints number-down number level number
  Tree level
 

Description

This command specifies the bandwidth for a given level. Level 1 has the highest priority and level 8 has the lowest priority.
  Range 1 to 8
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
use-lag-port-weight boolean
  Synopsis Use LAG port weight in calculating MCAC constraints
  Context configure router string pim interface string mcac mc-constraints use-lag-port-weight boolean
  Tree use-lag-port-weight
 

Description

When configured to true, port weight is used when determining available bandwidth per level when LAG ports go down or come up. This command is required for proper operation on mixed port-speed LAGs and can also be used for unmixed port-speed LAGs.
  Default false
  Introduced 16.0.R1
 

Platforms

All
policy reference
  Synopsis Multicast CAC policy name
  Context configure router string pim interface string mcac policy reference
  Tree policy
 

Description

This command configures the name of the global channel bandwidth definition policy that is used for (H)MCAC and HQoS adjustment.

Within the scope of HQoS adjustment, the channel definition policy under the group interface is used if redirection is unconfigured. In this case, the HQoS adjustment can be applied to IPoE subscribers in per-SAP replication mode.

If redirection is configured, the channel bandwidth definition policy applied under the Layer 3 redirected interface is in effect.

Hierarchical MCAC (HMCAC) is supported on two levels simultaneously:

  • subscriber level and redirected interface when redirection is configured

  • subscriber level and group-interface level when redirection is unconfigured

In HMCAC, the subscriber is checked against its bandwidth limits first, then against the bandwidth limits of the redirected or group interface. If redirection is configured but the policy is referenced only under the group interface, no admission control is executed (HMCAC or MCAC).
 

Reference

configure mcac policy string

  Introduced 16.0.R1
 

Platforms

All
multicast-senders keyword
  Synopsis Subnet matching for the incoming data packets
  Context configure router string pim interface string multicast-senders keyword
  Tree multicast-senders
  Default auto
  Options auto, always, never
  Introduced 16.0.R1
 

Platforms

All
p2mp-ldp-tree-join
  Synopsis Enter the p2mp-ldp-tree-join context
  Context configure router string pim interface string p2mp-ldp-tree-join
  Tree p2mp-ldp-tree-join
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ipv4 boolean
  Synopsis Allow dynamic mLDP in-band signaling for IPv4 PIM joins
  Context configure router string pim interface string p2mp-ldp-tree-join ipv4 boolean
  Tree ipv4
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ipv6 boolean
  Synopsis Allow dynamic mLDP in-band signaling for IPv6 PIM joins
  Context configure router string pim interface string p2mp-ldp-tree-join ipv6 boolean
  Tree ipv6
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
priority number
  Synopsis DR election priority for this interface
  Context configure router string pim interface string priority number
  Tree priority
  Range 1 to 4294967295
  Default 1
  Introduced 16.0.R1
 

Platforms

All
sticky-dr
  Synopsis Enable the sticky-dr context
  Context configure router string pim interface string sticky-dr
  Tree sticky-dr
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis DR election priority for this interface
  Context configure router string pim interface string sticky-dr priority number
  Tree priority
  Range 1 to 4294967295
  Default 1024
  Introduced 16.0.R1
 

Platforms

All
three-way-hello boolean
  Synopsis Allow three-way hello compatibility mode
  Context configure router string pim interface string three-way-hello boolean
  Tree three-way-hello
  Default false
  Introduced 16.0.R1
 

Platforms

All
tracking-support boolean
  Synopsis Allow upstream routers to explicitly track join membership
  Context configure router string pim interface string tracking-support boolean
  Tree tracking-support
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string pim ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of PIM operation for IPv4
  Context configure router string pim ipv4 admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
gtm
  Synopsis Enter the gtm context
  Context configure router string pim ipv4 gtm
  Tree gtm
  Introduced 16.0.R1
 

Platforms

All
auto-discovery keyword
  Synopsis Method for multicast VPN membership auto-discovery
  Context configure router string pim ipv4 gtm auto-discovery keyword
  Tree auto-discovery
  Options bgp
  Introduced 16.0.R1
 

Platforms

All
multicast-fast-failover boolean
  Synopsis Use Multicast-Only Fast Reroute (MoFRR) functionality
  Context configure router string pim ipv4 multicast-fast-failover boolean
  Tree multicast-fast-failover
  Default false
  Introduced 16.0.R1
 

Platforms

All
rpf-table keyword
  Synopsis Route tables for RPF lookup
  Context configure router string pim ipv4 rpf-table keyword
  Tree rpf-table
  Default rtable-u
  Options rtable-m, rtable-u, both
  Introduced 16.0.R1
 

Platforms

All
ssm-assert-compatible-mode boolean
  Synopsis Enable SSM assert compatible mode
  Context configure router string pim ipv4 ssm-assert-compatible-mode boolean
  Tree ssm-assert-compatible-mode
  Default false
  Introduced 16.0.R1
 

Platforms

All
ssm-default-range boolean
  Synopsis SSM default range
  Context configure router string pim ipv4 ssm-default-range boolean
  Tree ssm-default-range
  Default true
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string pim ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of PIM operation for IPv6
  Context configure router string pim ipv6 admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
multicast-fast-failover boolean
  Synopsis Use Multicast-Only Fast Reroute (MoFRR) functionality
  Context configure router string pim ipv6 multicast-fast-failover boolean
  Tree multicast-fast-failover
  Default false
  Introduced 16.0.R1
 

Platforms

All
rpf-table keyword
  Synopsis Route tables for RPF lookup
  Context configure router string pim ipv6 rpf-table keyword
  Tree rpf-table
  Default rtable-u
  Options rtable-m, rtable-u, both
  Introduced 16.0.R1
 

Platforms

All
ssm-default-range boolean
  Synopsis SSM default range
  Context configure router string pim ipv6 ssm-default-range boolean
  Tree ssm-default-range
  Default true
  Introduced 16.0.R1
 

Platforms

All
lag-usage-optimization boolean
  Synopsis Optimize LAG usage
  Context configure router string pim lag-usage-optimization boolean
  Tree lag-usage-optimization
  Default false
  Introduced 16.0.R1
 

Platforms

All
mc-ecmp-balance boolean
  Synopsis Enable multicast balancing of traffic over ECMP links
  Context configure router string pim mc-ecmp-balance boolean
  Tree mc-ecmp-balance
  Default true
  Introduced 16.0.R1
 

Platforms

All
mc-ecmp-balance-hold number
  Synopsis Hold time for multicast balancing over ECMP links
  Context configure router string pim mc-ecmp-balance-hold number
  Tree mc-ecmp-balance-hold
  Range 2 to 600
  Units minutes
  Introduced 16.0.R1
 

Platforms

All
mc-ecmp-hashing
  Synopsis Enable the mc-ecmp-hashing context
  Context configure router string pim mc-ecmp-hashing
  Tree mc-ecmp-hashing
  Introduced 16.0.R1
 

Platforms

All
rebalance boolean
  Synopsis Rebalance flows to newly added links immediately instead of waiting until they are pruned
  Context configure router string pim mc-ecmp-hashing rebalance boolean
  Tree rebalance
  Default false
  Introduced 16.0.R1
 

Platforms

All
mdt-spt boolean
  Synopsis Use SPT switchover for default MDT
  Context configure router string pim mdt-spt boolean
  Tree mdt-spt
  Default false
  Introduced 16.0.R1
 

Platforms

All
non-dr-attract-traffic boolean
  Synopsis Attract traffic when the router is not the designated one
  Context configure router string pim non-dr-attract-traffic boolean
  Tree non-dr-attract-traffic
  Default false
  Introduced 16.0.R1
 

Platforms

All
pim-ssm-scaling boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable PIM-SSM scaling
  Context configure router string pim pim-ssm-scaling boolean
  Tree pim-ssm-scaling
 

Description

When configured to true, this command enables an increase of PIM SSM (S,G) scaling to a maximum of 256000 per system. The total maximum multicast capacity is, however, constrained by the lowest-performance FP.

When the maximum link capacity from the fabric to the lowest-performance FP is reached, the link to that FP is overloaded, resulting in packet loss for all FPs. This capacity constraint is independent of whether the lowest-performance FP has a receiver on it or not. If the multicast management chassis per-plane total capacity is configured to an explicit value larger than that supported by the lowest-performance FP, then IMPM believes that there is more plane capacity available than there actually is and the result is (S,G) packet loss instead of blackholing. By setting the multicast management chassis per-plane total capacity to dynamic, the system automatically sets the switch fabric multicast plane capacity to the minimum value supported by the fabric and all line cards in the system.

When PIM SSM scaling is enabled, the following multicast features are disabled:• DM• MoFRR• JP policy• SSM groups• InBand features (BIER and MLDP)• Extranet• ASM

When configured to false, there is no increase of PIM SSM (S,G) scaling.
  Default false
  Introduced 19.7.R1
 

Platforms

All
rp
  Synopsis Enter the rp context
  Context configure router string pim rp
  Tree rp
  Introduced 16.0.R1
 

Platforms

All
bootstrap
  Synopsis Enter the bootstrap context
  Context configure router string pim rp bootstrap
  Tree bootstrap
  Introduced 16.0.R1
 

Platforms

All
export reference
  Synopsis Character limit for policy name
  Context configure router string pim rp bootstrap export reference
  Tree export
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
import reference
  Synopsis Character limit for policy name
  Context configure router string pim rp bootstrap import reference
  Tree import
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
ipv4
  Synopsis Enter the ipv4 context
  Context configure router string pim rp ipv4
  Tree ipv4
  Introduced 16.0.R1
 

Platforms

All
anycast [ipv4-address] string rp-set-peer string
  Synopsis Add a list entry for anycast
  Context configure router string pim rp ipv4 anycast string rp-set-peer string
  Tree anycast
  Introduced 16.0.R1
 

Platforms

All
[ipv4-address] string
  Synopsis Loopback IP address shared by routes in RP set
  Context configure router string pim rp ipv4 anycast string rp-set-peer string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
rp-set-peer string
  Synopsis Configure a peer in the anycast rp-set.
  Context configure router string pim rp ipv4 anycast string rp-set-peer string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
auto-rp-discovery boolean
  Synopsis Enable auto RP discovery
  Context configure router string pim rp ipv4 auto-rp-discovery boolean
  Tree auto-rp-discovery
  Default false
  Introduced 16.0.R1
 

Platforms

All
bsr-candidate
  Synopsis Enter the bsr-candidate context
  Context configure router string pim rp ipv4 bsr-candidate
  Tree bsr-candidate
  Introduced 16.0.R1
 

Platforms

All
address string
  Synopsis Candidate BSR IP address for Bootstrap Router election
  Context configure router string pim rp ipv4 bsr-candidate address string
  Tree address
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the Candidate BSR
  Context configure router string pim rp ipv4 bsr-candidate admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
hash-mask-len number
  Synopsis Length for bootstrap hash mask
  Context configure router string pim rp ipv4 bsr-candidate hash-mask-len number
  Tree hash-mask-len
  Range 0 to 32
  Default 30
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis Bootstrap priority of the router
  Context configure router string pim rp ipv4 bsr-candidate priority number
  Tree priority
  Range 0 to 255
  Default 0
  Introduced 16.0.R1
 

Platforms

All
candidate boolean
  Synopsis Enable auto-RP to advertise candidate RP information
  Context configure router string pim rp ipv4 candidate boolean
  Tree candidate
 

Description

When configured to true, the auto-RP is enabled to advertise the candidate RP information. The auto-RP candidate RP announces the candidate RP messages on the 224.0.1.39 multicast address. This functionality is in addition to the listener functionality enabled by the auto RP discovery.

When configured to false, the candidate RP information is not specified.
  Default false
  Introduced 20.10.R1
 

Platforms

All
mapping-agent boolean
  Synopsis Enable the mapping agent on the node
  Context configure router string pim rp ipv4 mapping-agent boolean
  Tree mapping-agent
 

Description

When configured to true, the mapping agent is enabled on the node. The auto-RP MA observes the auto-rp-announcement messages, selects the RP and generates the RP discovery 224.0.1.40 messages. This functionality is in addition to the auto-RP discovery functionality.
  Default false
  Introduced 20.10.R1
 

Platforms

All
rp-candidate
  Synopsis Enter the rp-candidate context
  Context configure router string pim rp ipv4 rp-candidate
  Tree rp-candidate
  Introduced 16.0.R1
 

Platforms

All
address string
  Synopsis Local RP address
  Context configure router string pim rp ipv4 rp-candidate address string
  Tree address
 

Description

This command specifies the local RP address that is sent in the RP candidate advertisements to the Bootstrap Router.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the Candidate RP
  Context configure router string pim rp ipv4 rp-candidate admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
group-range [ipv4-prefix] string
  Synopsis Add a list entry for group-range
  Context configure router string pim rp ipv4 rp-candidate group-range string
  Tree group-range
  Introduced 16.0.R1
 

Platforms

All
[ipv4-prefix] string
  Synopsis IPv4 address and prefix length
  Context configure router string pim rp ipv4 rp-candidate group-range string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
holdtime number
  Synopsis Time during which the neighboring router considers this router to be up
  Context configure router string pim rp ipv4 rp-candidate holdtime number
  Tree holdtime
  Range 5 to 255
  Default 150
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis Candidate RP priority
  Context configure router string pim rp ipv4 rp-candidate priority number
  Tree priority
  Range 0 to 255
  Default 192
  Introduced 16.0.R1
 

Platforms

All
static
  Synopsis Enter the static context
  Context configure router string pim rp ipv4 static
  Tree static
  Introduced 16.0.R1
 

Platforms

All
address [ipv4-address] string
  Synopsis Enter the address list instance
  Context configure router string pim rp ipv4 static address string
  Tree address
  Introduced 16.0.R1
 

Platforms

All
[ipv4-address] string
  Synopsis IPv4 address for the static RP
  Context configure router string pim rp ipv4 static address string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
group-prefix [ipv4-prefix] string
  Synopsis Add a list entry for group-prefix
  Context configure router string pim rp ipv4 static address string group-prefix string
  Tree group-prefix
  Introduced 16.0.R1
 

Platforms

All
[ipv4-prefix] string
  Synopsis IPv4 address and prefix length
  Context configure router string pim rp ipv4 static address string group-prefix string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
override boolean
  Synopsis Change the precedence for static RP over dynamically learnt RP
  Context configure router string pim rp ipv4 static address string override boolean
  Tree override
  Default false
  Introduced 16.0.R1
 

Platforms

All
ipv6
  Synopsis Enter the ipv6 context
  Context configure router string pim rp ipv6
  Tree ipv6
  Introduced 16.0.R1
 

Platforms

All
anycast [ipv6-address] string rp-set-peer string
  Synopsis Add a list entry for anycast
  Context configure router string pim rp ipv6 anycast string rp-set-peer string
  Tree anycast
  Introduced 16.0.R1
 

Platforms

All
[ipv6-address] string
  Synopsis Loopback IP address shared by routes in RP set
  Context configure router string pim rp ipv6 anycast string rp-set-peer string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
rp-set-peer string
  Synopsis Peer in the anycast RP set
  Context configure router string pim rp ipv6 anycast string rp-set-peer string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
bsr-candidate
  Synopsis Enter the bsr-candidate context
  Context configure router string pim rp ipv6 bsr-candidate
  Tree bsr-candidate
  Introduced 16.0.R1
 

Platforms

All
address string
  Synopsis Candidate BSR IP address for Bootstrap Router election
  Context configure router string pim rp ipv6 bsr-candidate address string
  Tree address
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the Candidate BSR
  Context configure router string pim rp ipv6 bsr-candidate admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
hash-mask-len number
  Synopsis Length for bootstrap hash mask
  Context configure router string pim rp ipv6 bsr-candidate hash-mask-len number
  Tree hash-mask-len
  Range 0 to 128
  Default 126
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis Bootstrap priority of the router
  Context configure router string pim rp ipv6 bsr-candidate priority number
  Tree priority
  Range 0 to 255
  Default 0
  Introduced 16.0.R1
 

Platforms

All
embedded-rp
  Synopsis Enable the embedded-rp context
  Context configure router string pim rp ipv6 embedded-rp
  Tree embedded-rp
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of embedded RP
  Context configure router string pim rp ipv6 embedded-rp admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
group-range [ipv6-prefix] string
  Synopsis Add a list entry for group-range
  Context configure router string pim rp ipv6 embedded-rp group-range string
  Tree group-range
  Introduced 16.0.R1
 

Platforms

All
[ipv6-prefix] string
  Synopsis IPv6 address and prefix length
  Context configure router string pim rp ipv6 embedded-rp group-range string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
rp-candidate
  Synopsis Enter the rp-candidate context
  Context configure router string pim rp ipv6 rp-candidate
  Tree rp-candidate
  Introduced 16.0.R1
 

Platforms

All
address string
  Synopsis Local RP address
  Context configure router string pim rp ipv6 rp-candidate address string
  Tree address
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the Candidate RP
  Context configure router string pim rp ipv6 rp-candidate admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
group-range [ipv6-prefix] string
  Synopsis Add a list entry for group-range
  Context configure router string pim rp ipv6 rp-candidate group-range string
  Tree group-range
  Introduced 16.0.R1
 

Platforms

All
[ipv6-prefix] string
  Synopsis IPv6 address and prefix length
  Context configure router string pim rp ipv6 rp-candidate group-range string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
holdtime number
  Synopsis Time during which the neighboring router considers this router to be up
  Context configure router string pim rp ipv6 rp-candidate holdtime number
  Tree holdtime
  Range 5 to 255
  Default 150
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
priority number
  Synopsis Candidate RP priority
  Context configure router string pim rp ipv6 rp-candidate priority number
  Tree priority
  Range 0 to 255
  Default 192
  Introduced 16.0.R1
 

Platforms

All
static
  Synopsis Enter the static context
  Context configure router string pim rp ipv6 static
  Tree static
  Introduced 16.0.R1
 

Platforms

All
address [ipv6-address] string
  Synopsis Enter the address list instance
  Context configure router string pim rp ipv6 static address string
  Tree address
  Introduced 16.0.R1
 

Platforms

All
[ipv6-address] string
  Synopsis Static IP address of the RP
  Context configure router string pim rp ipv6 static address string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
group-prefix [ipv6-prefix] string
  Synopsis Add a list entry for group-prefix
  Context configure router string pim rp ipv6 static address string group-prefix string
  Tree group-prefix
  Introduced 16.0.R1
 

Platforms

All
[ipv6-prefix] string
  Synopsis IPv6 address and prefix length
  Context configure router string pim rp ipv6 static address string group-prefix string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
override boolean
  Synopsis Change the precedence for static RP over dynamically learnt RP
  Context configure router string pim rp ipv6 static address string override boolean
  Tree override
  Default false
  Introduced 16.0.R1
 

Platforms

All
rpfv
  Synopsis Enter the rpfv context
  Context configure router string pim rpfv
  Tree rpfv
  Introduced 16.0.R1
 

Platforms

All
core boolean
  Synopsis Include proxy RPF vector for core
  Context configure router string pim rpfv core boolean
  Tree core
  Default false
  Introduced 16.0.R1
 

Platforms

All
mvpn boolean
  Synopsis Include proxy RPF vector for Inter-AS Rosen MVPN
  Context configure router string pim rpfv mvpn boolean
  Tree mvpn
  Default false
  Introduced 16.0.R1
 

Platforms

All
spt-switchover [ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the spt-switchover list instance
  Context configure router string pim spt-switchover (ipv4-prefix | ipv6-prefix)
  Tree spt-switchover
  Introduced 16.0.R1
 

Platforms

All
[ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis IP address and mask length
  Context configure router string pim spt-switchover (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
threshold (number | keyword)
  Synopsis SPT switchover threshold
  Context configure router string pim spt-switchover (ipv4-prefix | ipv6-prefix) threshold (number | keyword)
  Tree threshold
  Range 1 to 4294967294
  Units kilobps
  Options infinity
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
ssm-groups
  Synopsis Enter the ssm-groups context
  Context configure router string pim ssm-groups
  Tree ssm-groups
  Introduced 16.0.R1
 

Platforms

All
group-range [ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Add a list entry for group-range
  Context configure router string pim ssm-groups group-range (ipv4-prefix | ipv6-prefix)
  Tree group-range
  Introduced 16.0.R1
 

Platforms

All
[ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis IP address and mask length
  Context configure router string pim ssm-groups group-range (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All

radius

  Synopsis Enter the radius context
  Context configure router string radius
  Tree radius
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
proxy [name] string
  Synopsis Enter the proxy list instance
  Context configure router string radius proxy string
  Tree proxy
  Max. Instances 8
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[name] string
  Synopsis RADIUS proxy name
  Context configure router string radius proxy string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of RADIUS proxy
  Context configure router string radius proxy string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
attribute-matching
  Synopsis Enter the attribute-matching context
  Context configure router string radius proxy string attribute-matching
  Tree attribute-matching
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
entry [index] number
  Synopsis Enter the entry list instance
  Context configure router string radius proxy string attribute-matching entry number
  Tree entry
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[index] number
  Synopsis Index of this entry
  Context configure router string radius proxy string attribute-matching entry number
  Range 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
accounting-server-policy string
  Synopsis Accounting server policy
  Context configure router string radius proxy string attribute-matching entry number accounting-server-policy string
  Tree accounting-server-policy
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
authentication-server-policy string
  Synopsis Authentication server policy
  Context configure router string radius proxy string attribute-matching entry number authentication-server-policy string
  Tree authentication-server-policy
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
prefix-string string
  Synopsis Prefix string
  Context configure router string radius proxy string attribute-matching entry number prefix-string string
  Tree prefix-string
  String Length 1 to 128
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
suffix-string string
  Synopsis Prefix string
  Context configure router string radius proxy string attribute-matching entry number suffix-string string
  Tree suffix-string
  String Length 1 to 128
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
type number
  Synopsis Matching attribute type to RADIUS server policy
  Context configure router string radius proxy string attribute-matching type number
  Tree type
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
vendor (number | keyword)
  Synopsis Matching Vendor ID to RADIUS server policy
  Context configure router string radius proxy string attribute-matching vendor (number | keyword)
  Tree vendor
  Range 1 to 16777215
  Options nokia
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
cache
  Synopsis Enter the cache context
  Context configure router string radius proxy string cache
  Tree cache
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the RADIUS proxy cache
  Context configure router string radius proxy string cache admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
key
  Synopsis Enable the key context
  Context configure router string radius proxy string cache key
  Tree key
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
attribute-type number
  Synopsis RADIUS attribute type to cache for this RADIUS proxy server
  Context configure router string radius proxy string cache key attribute-type number
  Tree attribute-type
  Range 1 to 255
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
packet-type keyword
  Synopsis Packet type of the RADIUS messages
  Context configure router string radius proxy string cache key packet-type keyword
  Tree packet-type
  Options access-request, access-accept
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
vendor (number | keyword)
  Synopsis RADIUS Vendor ID
  Context configure router string radius proxy string cache key vendor (number | keyword)
  Tree vendor
  Range 1 to 16777215
  Options nokia
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
timeout number
  Synopsis Idle timeout value
  Context configure router string radius proxy string cache timeout number
  Tree timeout
  Range 60 to 3600
  Default 300
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
track-accounting
  Synopsis Enter the track-accounting context
  Context configure router string radius proxy string cache track-accounting
  Tree track-accounting
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
accounting-off boolean
  Synopsis Remove all ESM hosts associated with the RADIUS client
  Context configure router string radius proxy string cache track-accounting accounting-off boolean
  Tree accounting-off
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
accounting-on boolean
  Synopsis Remove all ESM hosts associated with the RADIUS client
  Context configure router string radius proxy string cache track-accounting accounting-on boolean
  Tree accounting-on
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
interim-update boolean
  Synopsis Update the ESM host with the RADIUS client that generated the interim update
  Context configure router string radius proxy string cache track-accounting interim-update boolean
  Tree interim-update
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
start boolean
  Synopsis Update host with client that generated accounting-start
  Context configure router string radius proxy string cache track-accounting start boolean
  Tree start
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
stop boolean
  Synopsis Remove ESM host and forward accounting-stop packet
  Context configure router string radius proxy string cache track-accounting stop boolean
  Tree stop
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
track-authentication
  Synopsis Enter the track-authentication context
  Context configure router string radius proxy string cache track-authentication
  Tree track-authentication
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
accept boolean
  Synopsis Track Access-Accept message for mobility
  Context configure router string radius proxy string cache track-authentication accept boolean
  Tree accept
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
track-delete-hold-time number
  Synopsis Delete hold time
  Context configure router string radius proxy string cache track-delete-hold-time number
  Tree track-delete-hold-time
  Range 0 to 6000
  Default 0
  Units seconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
defaults
  Synopsis Enter the defaults context
  Context configure router string radius proxy string defaults
  Tree defaults
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
accounting-server-policy string
  Synopsis Default accounting RADIUS server policy
  Context configure router string radius proxy string defaults accounting-server-policy string
  Tree accounting-server-policy
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
authentication-server-policy string
  Synopsis Default authentication RADIUS server policy
  Context configure router string radius proxy string defaults authentication-server-policy string
  Tree authentication-server-policy
  String Length 1 to 32
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string radius proxy string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
interface [interface-name] string
  Synopsis Add a list entry for interface
  Context configure router string radius proxy string interface string
  Tree interface
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[interface-name] string
  Synopsis IP interface name
  Context configure router string radius proxy string interface string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
load-balance-key
  Synopsis Enter the load-balance-key context
  Context configure router string radius proxy string load-balance-key
  Tree load-balance-key
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
attribute-1
  Synopsis Enter the attribute-1 context
  Context configure router string radius proxy string load-balance-key attribute-1
  Tree attribute-1
 

Notes

The following elements are part of a choice: (attribute-1, attribute-2, attribute-3, attribute-4, and attribute-5) or source-ip-udp.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
type number
  Synopsis Attribute type to cache for this RADIUS Proxy server
  Context configure router string radius proxy string load-balance-key attribute-1 type number
  Tree type
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
vendor (number | keyword)
  Synopsis Vendor-Id attribute
  Context configure router string radius proxy string load-balance-key attribute-1 vendor (number | keyword)
  Tree vendor
  Range 1 to 16777215
  Options nokia
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
attribute-2
  Synopsis Enter the attribute-2 context
  Context configure router string radius proxy string load-balance-key attribute-2
  Tree attribute-2
 

Notes

The following elements are part of a choice: (attribute-1, attribute-2, attribute-3, attribute-4, and attribute-5) or source-ip-udp.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
type number
  Synopsis Attribute type to cache for this RADIUS Proxy server
  Context configure router string radius proxy string load-balance-key attribute-2 type number
  Tree type
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
vendor (number | keyword)
  Synopsis Vendor-Id attribute
  Context configure router string radius proxy string load-balance-key attribute-2 vendor (number | keyword)
  Tree vendor
  Range 1 to 16777215
  Options nokia
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
attribute-3
  Synopsis Enter the attribute-3 context
  Context configure router string radius proxy string load-balance-key attribute-3
  Tree attribute-3
 

Notes

The following elements are part of a choice: (attribute-1, attribute-2, attribute-3, attribute-4, and attribute-5) or source-ip-udp.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
type number
  Synopsis Attribute type to cache for this RADIUS Proxy server
  Context configure router string radius proxy string load-balance-key attribute-3 type number
  Tree type
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
vendor (number | keyword)
  Synopsis Vendor-Id attribute
  Context configure router string radius proxy string load-balance-key attribute-3 vendor (number | keyword)
  Tree vendor
  Range 1 to 16777215
  Options nokia
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
attribute-4
  Synopsis Enter the attribute-4 context
  Context configure router string radius proxy string load-balance-key attribute-4
  Tree attribute-4
 

Notes

The following elements are part of a choice: (attribute-1, attribute-2, attribute-3, attribute-4, and attribute-5) or source-ip-udp.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
type number
  Synopsis Attribute type to cache for this RADIUS Proxy server
  Context configure router string radius proxy string load-balance-key attribute-4 type number
  Tree type
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
vendor (number | keyword)
  Synopsis Vendor-Id attribute
  Context configure router string radius proxy string load-balance-key attribute-4 vendor (number | keyword)
  Tree vendor
  Range 1 to 16777215
  Options nokia
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
attribute-5
  Synopsis Enter the attribute-5 context
  Context configure router string radius proxy string load-balance-key attribute-5
  Tree attribute-5
 

Notes

The following elements are part of a choice: (attribute-1, attribute-2, attribute-3, attribute-4, and attribute-5) or source-ip-udp.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
type number
  Synopsis Attribute type to cache for this RADIUS Proxy server
  Context configure router string radius proxy string load-balance-key attribute-5 type number
  Tree type
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
vendor (number | keyword)
  Synopsis Vendor-Id attribute
  Context configure router string radius proxy string load-balance-key attribute-5 vendor (number | keyword)
  Tree vendor
  Range 1 to 16777215
  Options nokia
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
source-ip-udp
  Synopsis Key to consist of the source IP address and source UDP port of the RADIUS message
  Context configure router string radius proxy string load-balance-key source-ip-udp
  Tree source-ip-udp
 

Notes

The following elements are part of a choice: (attribute-1, attribute-2, attribute-3, attribute-4, and attribute-5) or source-ip-udp.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
purpose keyword
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Purpose of the RADIUS proxy
  Context configure router string radius proxy string purpose keyword
  Tree purpose
  Options accounting, authentication, accounting-authentication
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
python-policy reference
  Synopsis Python policy
  Context configure router string radius proxy string python-policy reference
  Tree python-policy
 

Reference

configure python python-policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
secret string
  Synopsis Format of the secret key to access the RADIUS proxy server
  Context configure router string radius proxy string secret string
  Tree secret
  String Length 1 to 115
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
send-accounting-response boolean
  Synopsis Allow RADIUS proxy server to respond to Accounting-Response messages
  Context configure router string radius proxy string send-accounting-response boolean
  Tree send-accounting-response
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
wlan-gw
  Synopsis Enter the wlan-gw context
  Context configure router string radius proxy string wlan-gw
  Tree wlan-gw
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
address string
  Synopsis IPv4 address of the distributed RADIUS proxy server
  Context configure router string radius proxy string wlan-gw address string
  Tree address
 

Description

This command configures the IPv4 address of the distributed RADIUS proxy server for use by the access points.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
ipv6-address string
  Synopsis IPv6 address of the distributed RADIUS proxy server
  Context configure router string radius proxy string wlan-gw ipv6-address string
  Tree ipv6-address
 

Description

This command configures the IPv6 address of the distributed RADIUS proxy server for use by the access points.
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
wlan-gw-group reference
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis ISA WLAN gateway group
  Context configure router string radius proxy string wlan-gw-group reference
  Tree wlan-gw-group
 

Reference

configure isa wlan-gw-group number

  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
server [name] string
  Synopsis Enter the server list instance
  Context configure router string radius server string
  Tree server
  Max. Instances 64
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[name] string
  Synopsis External RADIUS server name
  Context configure router string radius server string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
accept-coa boolean
  Synopsis Process Change of Authorization (CoA) messages
  Context configure router string radius server string accept-coa boolean
  Tree accept-coa
  Default false
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
acct-port number
  Synopsis UDP port number of the RADIUS for accounting events
  Context configure router string radius server string acct-port number
  Tree acct-port
  Range 1 to 65535
  Default 1813
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
address (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis IP address of the RADIUS server
  Context configure router string radius server string address (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree address
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
auth-port number
  Synopsis UDP port number of the RADIUS to be used as match criteria
  Context configure router string radius server string auth-port number
  Tree auth-port
  Range 1 to 65535
  Default 1812
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
description string
  Synopsis Text description
  Context configure router string radius server string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pending-requests-limit number
  Synopsis Limit of the number for pending RADIUS requests
  Context configure router string radius server string pending-requests-limit number
  Tree pending-requests-limit
  Range 1 to 4096
  Default 4096
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
python-policy reference
  Synopsis Python script policy to modify CoA messages
  Context configure router string radius server string python-policy reference
  Tree python-policy
 

Reference

configure python python-policy string

  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
secret string
  Synopsis Secret key associated with this RADIUS server
  Context configure router string radius server string secret string
  Tree secret
  String Length 1 to 115
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR

reassembly

  Synopsis Enable the reassembly context
  Context configure router string reassembly
  Tree reassembly
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
nat-group number
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis NAT group (including WLAN Gateway group) that executes the reassembly
  Context configure router string reassembly nat-group number
  Tree nat-group
  Max. Range 0 to 4294967295
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
to-base-network boolean
  Synopsis Allow reassembled traffic sent to network interface
  Context configure router string reassembly to-base-network boolean
  Tree to-base-network
  Default false
  Introduced 19.10.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR

rib-api

  Synopsis Enter the rib-api context
  Context configure router string rib-api
  Tree rib-api
  Introduced 16.0.R4
 

Platforms

All
mpls
  Synopsis Enter the mpls context
  Context configure router string rib-api mpls
  Tree mpls
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of MPLS for RIB-API gRPC service
  Context configure router string rib-api mpls admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
label-name reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Configure reserved label block.
  Context configure router string rib-api mpls label-name reference
  Tree label-name
 

Reference

configure router string mpls-labels reserved-label-block string

  Introduced 16.0.R4
 

Platforms

All

rip

  Synopsis Enable the rip context
  Context configure router string rip
  Tree rip
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the RIP instance
  Context configure router string rip admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
authentication-key string
  Synopsis Authentication password passed between RIP neighbors
  Context configure router string rip authentication-key string
  Tree authentication-key
 

Description

This command sets the authentication password to be passed between RIP neighbors. If the string contains special characters (#, $, spaces, and so on), the entire string must be enclosed within double quotes.

The authentication type and authentication key must match exactly for the RIP message to be considered authentic and processed.

When unconfigured, this command removes the authentication password from the configuration and disables authentication.
  String Length 1 to 51
  Introduced 16.0.R4
 

Platforms

All
authentication-type keyword
  Synopsis Authentication type used between RIP neighbors
  Context configure router string rip authentication-type keyword
  Tree authentication-type
 

Description

This command sets the type of authentication to be used between RIP neighbors.

The authentication type and authentication key must match exactly for the RIP message to be considered authentic and processed.

When unconfigured, this command removes the authentication type from the configuration and effectively disables authentication.
  Default none
  Options none, password, md5, md20
  Introduced 16.0.R4
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD to control the state of protocol adjacency
  Context configure router string rip bfd-liveness boolean
  Tree bfd-liveness
 

Description

When configured to true, this command enables BFD to control the state of the associated protocol adjacency.

When configured to false, this command removes BFD from the associated protocol adjacency.
  Default false
  Introduced 16.0.R4
 

Platforms

All
check-zero boolean
  Synopsis Enable checking of mandatory zero fields
  Context configure router string rip check-zero boolean
  Tree check-zero
 

Description

When configured to true, this command enables checking of the mandatory zero fields in the RIPv1 and RIPv2 specifications and rejecting non-compliant RIP messages.

When configured to false, this command disables the check and allows the receipt of RIP messages even if the mandatory zero fields are non-zero.
  Default false
  Introduced 16.0.R4
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string rip description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R4
 

Platforms

All
export-limit
  Synopsis Enable the export-limit context
  Context configure router string rip export-limit
  Tree export-limit
  Introduced 16.0.R4
 

Platforms

All
log-percent number
  Synopsis Export limit before warning and SNMP notification sent
  Context configure router string rip export-limit log-percent number
  Tree log-percent
  Range 1 to 100
  Introduced 16.0.R4
 

Platforms

All
number number
  Synopsis Maximum routes or prefixes exported from route table
  Context configure router string rip export-limit number number
  Tree number
  Range 1 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
export-policy reference
  Synopsis Policies to determine exported routes
  Context configure router string rip export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
group [group-name] string
  Synopsis Enter the group list instance
  Context configure router string rip group string
  Tree group
  Introduced 16.0.R4
 

Platforms

All
[group-name] string
  Synopsis RIP group name
  Context configure router string rip group string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of RIP neighbor interface group
  Context configure router string rip group string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
authentication-key string
  Synopsis Authentication password passed between RIP neighbors
  Context configure router string rip group string authentication-key string
  Tree authentication-key
 

Description

This command sets the authentication password to be passed between RIP neighbors. If the string contains special characters (#, $, spaces, and so on), the entire string must be enclosed within double quotes.

The authentication type and authentication key must match exactly for the RIP message to be considered authentic and processed.

When unconfigured, this command removes the authentication password from the configuration and disables authentication.
  String Length 1 to 51
  Introduced 16.0.R4
 

Platforms

All
authentication-type keyword
  Synopsis Authentication type
  Context configure router string rip group string authentication-type keyword
  Tree authentication-type
 

Description

This command configures the type of authentication to be used.

The authentication type and authentication key must match exactly for the RIP message to be considered authentic and processed.

When unconfigured, this command removes the authentication type from the configuration and effectively disables authentication.
  Options none, password, md5, md20
  Introduced 16.0.R4
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD to control the state of protocol adjacency
  Context configure router string rip group string bfd-liveness boolean
  Tree bfd-liveness
 

Description

When configured to true, this command enables BFD to control the state of the associated protocol adjacency.

When configured to false, this command removes BFD from the associated protocol adjacency.
  Introduced 16.0.R4
 

Platforms

All
check-zero boolean
  Synopsis Enable checking of mandatory zero fields
  Context configure router string rip group string check-zero boolean
  Tree check-zero
 

Description

When configured to true, this command enables checking of the mandatory zero fields in the RIPv1 and RIPv2 specifications and rejecting non-compliant RIP messages.

When configured to false, this command disables the check and allows the receipt of RIP messages even if the mandatory zero fields are non-zero.
  Introduced 16.0.R4
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string rip group string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R4
 

Platforms

All
export-policy reference
  Synopsis Policies used to rule which routes are exported to RIP
  Context configure router string rip group string export-policy reference
  Tree export-policy
 

Description

This command specifies the export route policies used to determine which routes are exported to RIP.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
import-policy reference
  Synopsis Policies to decide routes accepted from RIP neighbors
  Context configure router string rip group string import-policy reference
  Tree import-policy
 

Description

This command configures import route policies to determine which routes are accepted from RIP neighbors.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
message-size number
  Synopsis Maximum number of routes per RIP update message
  Context configure router string rip group string message-size number
  Tree message-size
  Range 25 to 255
  Introduced 16.0.R4
 

Platforms

All
metric-in number
  Synopsis Metric added to routes received from a RIP neighbor
  Context configure router string rip group string metric-in number
  Tree metric-in
  Range 1 to 16
  Introduced 16.0.R4
 

Platforms

All
metric-out number
  Synopsis Metric added to routes exported into RIP
  Context configure router string rip group string metric-out number
  Tree metric-out
  Range 1 to 16
  Introduced 16.0.R4
 

Platforms

All
neighbor [interface-name] string
  Synopsis Enter the neighbor list instance
  Context configure router string rip group string neighbor string
  Tree neighbor
  Introduced 16.0.R4
 

Platforms

All
[interface-name] string
  Synopsis Neighbor added through the interface to the RIP group
  Context configure router string rip group string neighbor string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the RIP neighbor interface
  Context configure router string rip group string neighbor string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
authentication-key string
  Synopsis Authentication password passed between RIP neighbors
  Context configure router string rip group string neighbor string authentication-key string
  Tree authentication-key
 

Description

This command sets the authentication password to be passed between RIP neighbors. If the string contains special characters (#, $, spaces, and so on), the entire string must be enclosed within double quotes.

The authentication type and authentication key must match exactly for the RIP message to be considered authentic and processed.

When unconfigured, this command removes the authentication password from the configuration and disables authentication.
  String Length 1 to 51
  Introduced 16.0.R4
 

Platforms

All
authentication-type keyword
  Synopsis Authentication type
  Context configure router string rip group string neighbor string authentication-type keyword
  Tree authentication-type
 

Description

This command configures the type of authentication to be used.

The authentication type and authentication key must match exactly for the RIP message to be considered authentic and processed.

When unconfigured, this command removes the authentication type from the configuration and effectively disables authentication.
  Options none, password, md5, md20
  Introduced 16.0.R4
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD to control the state of protocol adjacency
  Context configure router string rip group string neighbor string bfd-liveness boolean
  Tree bfd-liveness
 

Description

When configured to true, this command enables BFD to control the state of the associated protocol adjacency.

When configured to false, this command removes BFD from the associated protocol adjacency.
  Introduced 16.0.R4
 

Platforms

All
check-zero boolean
  Synopsis Enable checking of mandatory zero fields
  Context configure router string rip group string neighbor string check-zero boolean
  Tree check-zero
 

Description

When configured to true, this command enables checking of the mandatory zero fields in the RIPv1 and RIPv2 specifications and rejecting non-compliant RIP messages.

When configured to false, this command disables the check and allows the receipt of RIP messages even if the mandatory zero fields are non-zero.
  Introduced 16.0.R4
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string rip group string neighbor string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R4
 

Platforms

All
export-policy reference
  Synopsis Policies used to rule which routes are exported to RIP
  Context configure router string rip group string neighbor string export-policy reference
  Tree export-policy
 

Description

This command specifies the export route policies used to determine which routes are exported to RIP.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
import-policy reference
  Synopsis Policies to decide routes accepted from RIP neighbors
  Context configure router string rip group string neighbor string import-policy reference
  Tree import-policy
 

Description

This command configures import route policies to determine which routes are accepted from RIP neighbors.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
message-size number
  Synopsis Maximum number of routes per RIP update message
  Context configure router string rip group string neighbor string message-size number
  Tree message-size
  Range 25 to 255
  Introduced 16.0.R4
 

Platforms

All
metric-in number
  Synopsis Metric added to routes received from a RIP neighbor
  Context configure router string rip group string neighbor string metric-in number
  Tree metric-in
  Range 1 to 16
  Introduced 16.0.R4
 

Platforms

All
metric-out number
  Synopsis Metric added to routes exported into RIP
  Context configure router string rip group string neighbor string metric-out number
  Tree metric-out
  Range 1 to 16
  Introduced 16.0.R4
 

Platforms

All
preference number
  Synopsis Route preference
  Context configure router string rip group string neighbor string preference number
  Tree preference
  Range 1 to 255
  Introduced 16.0.R4
 

Platforms

All
receive keyword
  Synopsis Accepted version on received packets
  Context configure router string rip group string neighbor string receive keyword
  Tree receive
  Options version-1, version-2, both, none
  Introduced 16.0.R4
 

Platforms

All
send keyword
  Synopsis RIP version and method used to send RIP updates
  Context configure router string rip group string neighbor string send keyword
  Tree send
  Options none, version-1, broadcast, multicast, unicast
  Introduced 16.0.R4
 

Platforms

All
split-horizon boolean
  Synopsis Enable split horizon and poison reverse
  Context configure router string rip group string neighbor string split-horizon boolean
  Tree split-horizon
 

Description

When configured to true, this command enables the use of split horizon with poison reverse. Split-horizon with poison reverse means that routes learned from a neighbor through a given interface are advertised in updates out of the same interface but with a metric of 16 (infinity).

When configured to false. this command enables split horizon without poison reverse. This allows the routes to be re-advertised on interfaces other than the interface that learned the route, with the advertised metric equaling an increment of the metric-in value.
  Introduced 16.0.R4
 

Platforms

All
timers
  Synopsis Enable the timers context
  Context configure router string rip group string neighbor string timers
  Tree timers
  Introduced 16.0.R4
 

Platforms

All
flush number
  Synopsis RIP flush timer
  Context configure router string rip group string neighbor string timers flush number
  Tree flush
 

Description

This command specifies the time a route is maintained in the RIP database after it has been declared invalid. When the timer expires, the route is flushed from the RIP database completely.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
timeout number
  Synopsis RIP timeout timer
  Context configure router string rip group string neighbor string timers timeout number
  Tree timeout
 

Description

This command specifies the RIP timeout timer. If a route is not updated by the time the timer expires, the route is declared invalid, but the route is maintained in the RIP database.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
update number
  Synopsis Timer that controls the frequency of updates
  Context configure router string rip group string neighbor string timers update number
  Tree update
  Range 1 to 600
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
unicast-address [address] string
  Synopsis Add a list entry for unicast-address
  Context configure router string rip group string neighbor string unicast-address string
  Tree unicast-address
  Introduced 16.0.R4
 

Platforms

All
[address] string
  Synopsis Unicast address for the neighbor
  Context configure router string rip group string neighbor string unicast-address string
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
preference number
  Synopsis Route preference
  Context configure router string rip group string preference number
  Tree preference
  Range 1 to 255
  Introduced 16.0.R4
 

Platforms

All
receive keyword
  Synopsis Accepted version on received packets
  Context configure router string rip group string receive keyword
  Tree receive
  Options version-1, version-2, both, none
  Introduced 16.0.R4
 

Platforms

All
send keyword
  Synopsis RIP version and method used to send RIP updates
  Context configure router string rip group string send keyword
  Tree send
  Options none, version-1, broadcast, multicast
  Introduced 16.0.R4
 

Platforms

All
split-horizon boolean
  Synopsis Enable split horizon and poison reverse
  Context configure router string rip group string split-horizon boolean
  Tree split-horizon
 

Description

When configured to true, this command enables the use of split horizon with poison reverse. Split-horizon with poison reverse means that routes learned from a neighbor through a given interface are advertised in updates out of the same interface but with a metric of 16 (infinity).

When configured to false. this command enables split horizon without poison reverse. This allows the routes to be re-advertised on interfaces other than the interface that learned the route, with the advertised metric equaling an increment of the metric-in value.
  Introduced 16.0.R4
 

Platforms

All
timers
  Synopsis Enable the timers context
  Context configure router string rip group string timers
  Tree timers
  Introduced 16.0.R4
 

Platforms

All
flush number
  Synopsis RIP flush timer
  Context configure router string rip group string timers flush number
  Tree flush
 

Description

This command specifies the time a route is maintained in the RIP database after it has been declared invalid. When the timer expires, the route is flushed from the RIP database completely.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
timeout number
  Synopsis RIP timeout timer
  Context configure router string rip group string timers timeout number
  Tree timeout
 

Description

This command specifies the RIP timeout timer. If a route is not updated by the time the timer expires, the route is declared invalid, but the route is maintained in the RIP database.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
update number
  Synopsis Timer that controls the frequency of updates
  Context configure router string rip group string timers update number
  Tree update
  Range 1 to 600
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
import-policy reference
  Synopsis Import policies to decide routes for routing table
  Context configure router string rip import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
message-size number
  Synopsis Maximum number of routes in the RIP message
  Context configure router string rip message-size number
  Tree message-size
  Range 25 to 255
  Default 25
  Introduced 16.0.R4
 

Platforms

All
metric-in number
  Synopsis Metric added to routes received from a RIP neighbor
  Context configure router string rip metric-in number
  Tree metric-in
  Range 1 to 16
  Default 1
  Introduced 16.0.R4
 

Platforms

All
metric-out number
  Synopsis Metric added to routes exported into RIP
  Context configure router string rip metric-out number
  Tree metric-out
  Range 1 to 16
  Default 1
  Introduced 16.0.R4
 

Platforms

All
preference number
  Synopsis Route preference
  Context configure router string rip preference number
  Tree preference
  Range 1 to 255
  Default 100
  Introduced 16.0.R4
 

Platforms

All
receive keyword
  Synopsis Accepted version on received packets
  Context configure router string rip receive keyword
  Tree receive
  Default both
  Options version-1, version-2, both, none
  Introduced 16.0.R4
 

Platforms

All
send keyword
  Synopsis RIP version and method used to send RIP updates
  Context configure router string rip send keyword
  Tree send
  Default broadcast
  Options none, version-1, broadcast, multicast
  Introduced 16.0.R4
 

Platforms

All
split-horizon boolean
  Synopsis Enable split horizon and poison reverse
  Context configure router string rip split-horizon boolean
  Tree split-horizon
 

Description

When configured to true, this command enables the use of split horizon with poison reverse. Split-horizon with poison reverse means that routes learned from a neighbor through a given interface are advertised in updates out of the same interface but with a metric of 16 (infinity).

When configured to false. this command enables split horizon without poison reverse. This allows the routes to be re-advertised on interfaces other than the interface that learned the route, with the advertised metric equaling an increment of the metric-in value.
  Default true
  Introduced 16.0.R4
 

Platforms

All
timers
  Synopsis Enable the timers context
  Context configure router string rip timers
  Tree timers
  Introduced 16.0.R4
 

Platforms

All
flush number
  Synopsis RIP flush timer
  Context configure router string rip timers flush number
  Tree flush
 

Description

This command specifies the time a route is maintained in the RIP database after it has been declared invalid. When the timer expires, the route is flushed from the RIP database completely.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
timeout number
  Synopsis RIP timeout timer
  Context configure router string rip timers timeout number
  Tree timeout
 

Description

This command specifies the RIP timeout timer. If a route is not updated by the time the timer expires, the route is declared invalid, but the route is maintained in the RIP database.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
update number
  Synopsis Timer that controls the frequency of updates
  Context configure router string rip timers update number
  Tree update
  Range 1 to 600
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All

ripng

  Synopsis Enable the ripng context
  Context configure router string ripng
  Tree ripng
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the RIPng instance
  Context configure router string ripng admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD to control the state of protocol adjacency
  Context configure router string ripng bfd-liveness boolean
  Tree bfd-liveness
 

Description

When configured to true, this command enables BFD to control the state of the associated protocol adjacency.

When configured to false, this command removes BFD from the associated protocol adjacency.
  Default false
  Introduced 16.0.R4
 

Platforms

All
check-zero boolean
  Synopsis Enable checking of mandatory zero fields
  Context configure router string ripng check-zero boolean
  Tree check-zero
 

Description

When configured to true, this command enables checking of the mandatory zero fields in the RIPv1 and RIPv2 specifications and rejecting non-compliant RIP messages.

When configured to false, this command disables the check and allows the receipt of RIP messages even if the mandatory zero fields are non-zero.
  Default false
  Introduced 16.0.R4
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string ripng description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R4
 

Platforms

All
export-limit
  Synopsis Enable the export-limit context
  Context configure router string ripng export-limit
  Tree export-limit
  Introduced 16.0.R4
 

Platforms

All
log-percent number
  Synopsis Export limit before warning and SNMP notification sent
  Context configure router string ripng export-limit log-percent number
  Tree log-percent
  Range 1 to 100
  Introduced 16.0.R4
 

Platforms

All
number number
  Synopsis Maximum routes or prefixes exported from route table
  Context configure router string ripng export-limit number number
  Tree number
  Range 1 to 4294967295
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
export-policy reference
  Synopsis Policies to determine exported routes
  Context configure router string ripng export-policy reference
  Tree export-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
group [group-name] string
  Synopsis Enter the group list instance
  Context configure router string ripng group string
  Tree group
  Introduced 16.0.R4
 

Platforms

All
[group-name] string
  Synopsis RIP group name
  Context configure router string ripng group string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of RIPng neighbor interface group
  Context configure router string ripng group string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD to control the state of protocol adjacency
  Context configure router string ripng group string bfd-liveness boolean
  Tree bfd-liveness
 

Description

When configured to true, this command enables BFD to control the state of the associated protocol adjacency.

When configured to false, this command removes BFD from the associated protocol adjacency.
  Introduced 16.0.R4
 

Platforms

All
check-zero boolean
  Synopsis Enable checking of mandatory zero fields
  Context configure router string ripng group string check-zero boolean
  Tree check-zero
 

Description

When configured to true, this command enables checking of the mandatory zero fields in the RIPv1 and RIPv2 specifications and rejecting non-compliant RIP messages.

When configured to false, this command disables the check and allows the receipt of RIP messages even if the mandatory zero fields are non-zero.
  Introduced 16.0.R4
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string ripng group string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R4
 

Platforms

All
export-policy reference
  Synopsis Policies used to rule which routes are exported to RIP
  Context configure router string ripng group string export-policy reference
  Tree export-policy
 

Description

This command specifies the export route policies used to determine which routes are exported to RIP.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
import-policy reference
  Synopsis Policies to decide routes accepted from RIP neighbors
  Context configure router string ripng group string import-policy reference
  Tree import-policy
 

Description

This command configures import route policies to determine which routes are accepted from RIP neighbors.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
message-size number
  Synopsis Maximum number of routes in the message
  Context configure router string ripng group string message-size number
  Tree message-size
  Range 25 to 255
  Introduced 16.0.R4
 

Platforms

All
metric-in number
  Synopsis Metric added to routes received from the neighbor
  Context configure router string ripng group string metric-in number
  Tree metric-in
  Range 1 to 16
  Introduced 16.0.R4
 

Platforms

All
metric-out number
  Synopsis Metric added to routes exported into RIPng
  Context configure router string ripng group string metric-out number
  Tree metric-out
  Range 1 to 16
  Introduced 16.0.R4
 

Platforms

All
neighbor [interface-name] string
  Synopsis Enter the neighbor list instance
  Context configure router string ripng group string neighbor string
  Tree neighbor
  Introduced 16.0.R4
 

Platforms

All
[interface-name] string
  Synopsis Neighbor added to the RIPng group through the interface
  Context configure router string ripng group string neighbor string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the RIPng neighbor
  Context configure router string ripng group string neighbor string admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD to control the state of protocol adjacency
  Context configure router string ripng group string neighbor string bfd-liveness boolean
  Tree bfd-liveness
 

Description

When configured to true, this command enables BFD to control the state of the associated protocol adjacency.

When configured to false, this command removes BFD from the associated protocol adjacency.
  Introduced 16.0.R4
 

Platforms

All
check-zero boolean
  Synopsis Enable checking of mandatory zero fields
  Context configure router string ripng group string neighbor string check-zero boolean
  Tree check-zero
 

Description

When configured to true, this command enables checking of the mandatory zero fields in the RIPv1 and RIPv2 specifications and rejecting non-compliant RIP messages.

When configured to false, this command disables the check and allows the receipt of RIP messages even if the mandatory zero fields are non-zero.
  Introduced 16.0.R4
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string ripng group string neighbor string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R4
 

Platforms

All
export-policy reference
  Synopsis Policies used to rule which routes are exported to RIP
  Context configure router string ripng group string neighbor string export-policy reference
  Tree export-policy
 

Description

This command specifies the export route policies used to determine which routes are exported to RIP.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
import-policy reference
  Synopsis Policies to decide routes accepted from RIP neighbors
  Context configure router string ripng group string neighbor string import-policy reference
  Tree import-policy
 

Description

This command configures import route policies to determine which routes are accepted from RIP neighbors.

If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied.
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
message-size number
  Synopsis Maximum number of routes in the message
  Context configure router string ripng group string neighbor string message-size number
  Tree message-size
  Range 25 to 255
  Introduced 16.0.R4
 

Platforms

All
metric-in number
  Synopsis Metric added to routes received from the neighbor
  Context configure router string ripng group string neighbor string metric-in number
  Tree metric-in
  Range 1 to 16
  Introduced 16.0.R4
 

Platforms

All
metric-out number
  Synopsis Metric added to routes exported into RIPng
  Context configure router string ripng group string neighbor string metric-out number
  Tree metric-out
  Range 1 to 16
  Introduced 16.0.R4
 

Platforms

All
preference number
  Synopsis Route preference
  Context configure router string ripng group string neighbor string preference number
  Tree preference
  Range 1 to 255
  Introduced 16.0.R4
 

Platforms

All
receive keyword
  Synopsis Accepted version on received packets
  Context configure router string ripng group string neighbor string receive keyword
  Tree receive
  Options none, ripng
  Introduced 16.0.R4
 

Platforms

All
send keyword
  Synopsis RIPng version and method used to send RIPng updates
  Context configure router string ripng group string neighbor string send keyword
  Tree send
  Options none, ripng, unicast
  Introduced 16.0.R4
 

Platforms

All
split-horizon boolean
  Synopsis Enable split horizon and poison reverse
  Context configure router string ripng group string neighbor string split-horizon boolean
  Tree split-horizon
 

Description

When configured to true, this command enables the use of split horizon with poison reverse. Split-horizon with poison reverse means that routes learned from a neighbor through a given interface are advertised in updates out of the same interface but with a metric of 16 (infinity).

When configured to false. this command enables split horizon without poison reverse. This allows the routes to be re-advertised on interfaces other than the interface that learned the route, with the advertised metric equaling an increment of the metric-in value.
  Introduced 16.0.R4
 

Platforms

All
timers
  Synopsis Enable the timers context
  Context configure router string ripng group string neighbor string timers
  Tree timers
  Introduced 16.0.R4
 

Platforms

All
flush number
  Synopsis RIP flush timer
  Context configure router string ripng group string neighbor string timers flush number
  Tree flush
 

Description

This command specifies the time a route is maintained in the RIP database after it has been declared invalid. When the timer expires, the route is flushed from the RIP database completely.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
timeout number
  Synopsis RIP timeout timer
  Context configure router string ripng group string neighbor string timers timeout number
  Tree timeout
 

Description

This command specifies the RIP timeout timer. If a route is not updated by the time the timer expires, the route is declared invalid, but the route is maintained in the RIP database.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
update number
  Synopsis Timer that controls the frequency of updates
  Context configure router string ripng group string neighbor string timers update number
  Tree update
  Range 1 to 600
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
unicast-address [address] string
  Synopsis Add a list entry for unicast-address
  Context configure router string ripng group string neighbor string unicast-address string
  Tree unicast-address
  Introduced 16.0.R4
 

Platforms

All
[address] string
  Synopsis Unicast address for the neighbour
  Context configure router string ripng group string neighbor string unicast-address string
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

All
preference number
  Synopsis Route preference
  Context configure router string ripng group string preference number
  Tree preference
  Range 1 to 255
  Introduced 16.0.R4
 

Platforms

All
receive keyword
  Synopsis Accepted version on received packets
  Context configure router string ripng group string receive keyword
  Tree receive
  Options none, ripng
  Introduced 16.0.R4
 

Platforms

All
send keyword
  Synopsis RIPng version and method used to send RIPng updates
  Context configure router string ripng group string send keyword
  Tree send
  Options none, ripng
  Introduced 16.0.R4
 

Platforms

All
split-horizon boolean
  Synopsis Enable split horizon and poison reverse
  Context configure router string ripng group string split-horizon boolean
  Tree split-horizon
 

Description

When configured to true, this command enables the use of split horizon with poison reverse. Split-horizon with poison reverse means that routes learned from a neighbor through a given interface are advertised in updates out of the same interface but with a metric of 16 (infinity).

When configured to false. this command enables split horizon without poison reverse. This allows the routes to be re-advertised on interfaces other than the interface that learned the route, with the advertised metric equaling an increment of the metric-in value.
  Introduced 16.0.R4
 

Platforms

All
timers
  Synopsis Enable the timers context
  Context configure router string ripng group string timers
  Tree timers
  Introduced 16.0.R4
 

Platforms

All
flush number
  Synopsis RIP flush timer
  Context configure router string ripng group string timers flush number
  Tree flush
 

Description

This command specifies the time a route is maintained in the RIP database after it has been declared invalid. When the timer expires, the route is flushed from the RIP database completely.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
timeout number
  Synopsis RIP timeout timer
  Context configure router string ripng group string timers timeout number
  Tree timeout
 

Description

This command specifies the RIP timeout timer. If a route is not updated by the time the timer expires, the route is declared invalid, but the route is maintained in the RIP database.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
update number
  Synopsis Timer that controls the frequency of updates
  Context configure router string ripng group string timers update number
  Tree update
  Range 1 to 600
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
import-policy reference
  Synopsis Import policies to decide routes for routing table
  Context configure router string ripng import-policy reference
  Tree import-policy
 

Reference

configure policy-options policy-statement string

  Max. Instances 5
 

Notes

This element is ordered by the user.
  Introduced 16.0.R4
 

Platforms

All
message-size number
  Synopsis Maximum number of routes in the message
  Context configure router string ripng message-size number
  Tree message-size
  Range 25 to 255
  Default 25
  Introduced 16.0.R4
 

Platforms

All
metric-in number
  Synopsis Metric added to routes received from the neighbor
  Context configure router string ripng metric-in number
  Tree metric-in
  Range 1 to 16
  Default 1
  Introduced 16.0.R4
 

Platforms

All
metric-out number
  Synopsis Metric added to routes exported into RIPng
  Context configure router string ripng metric-out number
  Tree metric-out
  Range 1 to 16
  Default 1
  Introduced 16.0.R4
 

Platforms

All
preference number
  Synopsis Route preference
  Context configure router string ripng preference number
  Tree preference
  Range 1 to 255
  Default 100
  Introduced 16.0.R4
 

Platforms

All
receive keyword
  Synopsis Accepted version on received packets
  Context configure router string ripng receive keyword
  Tree receive
  Default ripng
  Options none, ripng
  Introduced 16.0.R4
 

Platforms

All
send keyword
  Synopsis RIPng version and method used to send RIPng updates
  Context configure router string ripng send keyword
  Tree send
  Default ripng
  Options none, ripng
  Introduced 16.0.R4
 

Platforms

All
split-horizon boolean
  Synopsis Enable split horizon and poison reverse
  Context configure router string ripng split-horizon boolean
  Tree split-horizon
 

Description

When configured to true, this command enables the use of split horizon with poison reverse. Split-horizon with poison reverse means that routes learned from a neighbor through a given interface are advertised in updates out of the same interface but with a metric of 16 (infinity).

When configured to false, this command enables split horizon without poison reverse. This allows the routes to be re-advertised on interfaces other than the interface that learned the route, with the advertised metric equaling an increment of the metric-in value.
  Default true
  Introduced 16.0.R4
 

Platforms

All
timers
  Synopsis Enable the timers context
  Context configure router string ripng timers
  Tree timers
  Introduced 16.0.R4
 

Platforms

All
flush number
  Synopsis RIP flush timer
  Context configure router string ripng timers flush number
  Tree flush
 

Description

This command specifies the time a route is maintained in the RIP database after it has been declared invalid. When the timer expires, the route is flushed from the RIP database completely.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
timeout number
  Synopsis RIP timeout timer
  Context configure router string ripng timers timeout number
  Tree timeout
 

Description

This command specifies the RIP timeout timer. If a route is not updated by the time the timer expires, the route is declared invalid, but the route is maintained in the RIP database.
  Range 1 to 1200
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All
update number
  Synopsis Timer that controls the frequency of updates
  Context configure router string ripng timers update number
  Tree update
  Range 1 to 600
  Units seconds
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

All

router-id string

  Synopsis Unique router ID for the router in the AS
  Context configure router string router-id string
  Tree router-id
  Introduced 16.0.R1
 

Platforms

All

rsvp

  Synopsis Enable the rsvp context
  Context configure router string rsvp
  Tree rsvp
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of RSVP
  Context configure router string rsvp admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
dbw-accounting
  Synopsis Enable the dbw-accounting context
  Context configure router string rsvp dbw-accounting
  Tree dbw-accounting
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
dbw-multiplier number
  Synopsis Dark Bandwidth multiplier
  Context configure router string rsvp dbw-accounting dbw-multiplier number
  Tree dbw-multiplier
  Range 0 to 1000
  Default 100
  Units percent
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
down-threshold
  Synopsis Enter the down-threshold context
  Context configure router string rsvp dbw-accounting down-threshold
  Tree down-threshold
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
bw number
  Synopsis Minimum difference in MRLB or MRB to trigger an update
  Context configure router string rsvp dbw-accounting down-threshold bw number
  Tree bw
  Range 0 to 1000000
  Units megabps
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
percent number
  Synopsis Minimum difference in percent between dark bandwidth and sampled data rate, to trigger IGP-TE update
  Context configure router string rsvp dbw-accounting down-threshold percent number
  Tree percent
  Range 0 to 100
  Default 0
  Units percent
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
sample-interval number
  Synopsis Dark Bandwidth sample interval
  Context configure router string rsvp dbw-accounting sample-interval number
  Tree sample-interval
  Range 10 to 600
  Default 30
  Units seconds
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
sample-multiplier number
  Synopsis Dark Bandwidth sample multiplier
  Context configure router string rsvp dbw-accounting sample-multiplier number
  Tree sample-multiplier
  Range 1 to 10
  Default 3
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
up-threshold
  Synopsis Enter the up-threshold context
  Context configure router string rsvp dbw-accounting up-threshold
  Tree up-threshold
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
bw number
  Synopsis Minimum difference in MRLB or MRB to trigger an update
  Context configure router string rsvp dbw-accounting up-threshold bw number
  Tree bw
  Range 0 to 1000000
  Units megabps
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
percent number
  Synopsis Minimum difference in percent between dark bandwidth and sampled data rate, to trigger IGP-TE update
  Context configure router string rsvp dbw-accounting up-threshold percent number
  Tree percent
  Range 0 to 100
  Default 0
  Units percent
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
diffserv-te
  Synopsis Enable the diffserv-te context
  Context configure router string rsvp diffserv-te
  Tree diffserv-te
  Introduced 16.0.R1
 

Platforms

All
admission-control-model keyword
  Synopsis Parameters for the DiffServ TE node
  Context configure router string rsvp diffserv-te admission-control-model keyword
  Tree admission-control-model
  Options mam, rdm
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
class-type-bw
  Synopsis Enter the class-type-bw context
  Context configure router string rsvp diffserv-te class-type-bw
  Tree class-type-bw
  Introduced 16.0.R1
 

Platforms

All
ct0 number
  Synopsis RSVP interface bandwidth percentage for class type 0
  Context configure router string rsvp diffserv-te class-type-bw ct0 number
  Tree ct0
  Range 0 to 100
  Default 0
  Introduced 16.0.R1
 

Platforms

All
ct1 number
  Synopsis RSVP interface bandwidth percentage for class type 1
  Context configure router string rsvp diffserv-te class-type-bw ct1 number
  Tree ct1
  Range 0 to 100
  Default 0
  Introduced 16.0.R1
 

Platforms

All
ct2 number
  Synopsis RSVP interface bandwidth percentage for class type 2
  Context configure router string rsvp diffserv-te class-type-bw ct2 number
  Tree ct2
  Range 0 to 100
  Default 0
  Introduced 16.0.R1
 

Platforms

All
ct3 number
  Synopsis RSVP interface bandwidth percentage for class type 3
  Context configure router string rsvp diffserv-te class-type-bw ct3 number
  Tree ct3
  Range 0 to 100
  Default 0
  Introduced 16.0.R1
 

Platforms

All
ct4 number
  Synopsis RSVP interface bandwidth percentage for class type 4
  Context configure router string rsvp diffserv-te class-type-bw ct4 number
  Tree ct4
  Range 0 to 100
  Default 0
  Introduced 16.0.R1
 

Platforms

All
ct5 number
  Synopsis RSVP interface bandwidth percentage for class type 5
  Context configure router string rsvp diffserv-te class-type-bw ct5 number
  Tree ct5
  Range 0 to 100
  Default 0
  Introduced 16.0.R1
 

Platforms

All
ct6 number
  Synopsis RSVP interface bandwidth percentage for class type 6
  Context configure router string rsvp diffserv-te class-type-bw ct6 number
  Tree ct6
  Range 0 to 100
  Default 0
  Introduced 16.0.R1
 

Platforms

All
ct7 number
  Synopsis RSVP interface bandwidth percentage for class type 7
  Context configure router string rsvp diffserv-te class-type-bw ct7 number
  Tree ct7
  Range 0 to 100
  Default 0
  Introduced 16.0.R1
 

Platforms

All
fc [fc-name] keyword
  Synopsis Enter the fc list instance
  Context configure router string rsvp diffserv-te fc keyword
  Tree fc
  Introduced 16.0.R1
 

Platforms

All
[fc-name] keyword
  Synopsis Forwarding class for this mapping
  Context configure router string rsvp diffserv-te fc keyword
  Options be, l2, af, l1, h2, ef, h1, nc
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
class-type number
  Synopsis Diff-Serv Class Type (CT) for an LSP
  Context configure router string rsvp diffserv-te fc keyword class-type number
  Tree class-type
  Range 0 to 7
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
te-class [te-class-number] number
  Synopsis Enter the te-class list instance
  Context configure router string rsvp diffserv-te te-class number
  Tree te-class
  Introduced 16.0.R1
 

Platforms

All
[te-class-number] number
  Synopsis TE class number
  Context configure router string rsvp diffserv-te te-class number
  Range 0 to 7
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
class-type number
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis Class type (CT) associated with the TE class
  Context configure router string rsvp diffserv-te te-class number class-type number
  Tree class-type
  Range 0 to 7
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
priority number
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis TE class priority
  Context configure router string rsvp diffserv-te te-class number priority number
  Tree priority
  Range 0 to 7
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
entropy-label-capability boolean
  Synopsis Allow receiving and processing of the entropy label and ELI on incoming packets of RSVP LSPs
  Context configure router string rsvp entropy-label-capability boolean
  Tree entropy-label-capability
  Default false
  Introduced 16.0.R1
 

Platforms

All
graceful-restart
  Synopsis Enter the graceful-restart context
  Context configure router string rsvp graceful-restart
  Tree graceful-restart
  Introduced 16.0.R1
 

Platforms

All
max-recovery number
  Synopsis Maximum time to wait before a graceful helper recovers the session
  Context configure router string rsvp graceful-restart max-recovery number
  Tree max-recovery
  Range 1 to 1800
  Default 300
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
max-restart number
  Synopsis Maximum time that a graceful helper waits for session restart after the neighbor is considered down
  Context configure router string rsvp graceful-restart max-restart number
  Tree max-restart
  Range 1 to 300
  Default 120
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
graceful-shutdown boolean
  Synopsis Initiate a graceful shutdown of all RSVP interfaces on the node
  Context configure router string rsvp graceful-shutdown boolean
  Tree graceful-shutdown
  Default false
  Introduced 16.0.R1
 

Platforms

All
implicit-null-label boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Signal the implicit null option for all RSVP LSPs
  Context configure router string rsvp implicit-null-label boolean
  Tree implicit-null-label
  Default false
  Introduced 16.0.R1
 

Platforms

All
include-node-id-in-rro boolean
  Synopsis Include the node-id sub-object in the RRO (Record Route Object) on the RSVP instance
  Context configure router string rsvp include-node-id-in-rro boolean
  Tree include-node-id-in-rro
  Default false
  Introduced 16.0.R1
 

Platforms

All
interface [interface-name] reference
  Synopsis Enter the interface list instance
  Context configure router string rsvp interface reference
  Tree interface
 

Description

Commands in this context configure the attributes of the RSVP protocol support on an IP interface. RSVP commands are not executed on an IP interface if RSVP is not enabled.

The RSVP interface must be administratively disabled before it can be deleted. 

A corresponding MPLS interface must also be configured. The RSVP interface cannot be deleted without also deleting the MPLS interface.
  Introduced 16.0.R1
 

Platforms

All
[interface-name] reference
  Synopsis Index for router RSVP interface
  Context configure router string rsvp interface reference
 

Reference

configure router string interface string

 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of RSVP on the IP interface
  Context configure router string rsvp interface reference admin-state keyword
  Tree admin-state
  Default enable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
authentication-key string
  Synopsis Authentication or hash key string
  Context configure router string rsvp interface reference authentication-key string
  Tree authentication-key
  String Length 1 to 51
  Introduced 16.0.R1
 

Platforms

All
authentication-keychain reference
  Synopsis TCP authentication keychain for the session
  Context configure router string rsvp interface reference authentication-keychain reference
  Tree authentication-keychain
 

Reference

configure system security keychains keychain string

  Introduced 16.0.R3
 

Platforms

All
bfd-liveness boolean
  Synopsis Enable BFD
  Context configure router string rsvp interface reference bfd-liveness boolean
  Tree bfd-liveness
  Default false
  Introduced 16.0.R1
 

Platforms

All
class-type-bw
  Synopsis Enable the class-type-bw context
  Context configure router string rsvp interface reference class-type-bw
  Tree class-type-bw
  Introduced 16.0.R1
 

Platforms

All
ct0 number
  Synopsis Percentage of link bandwidth for class type (CT) 0
  Context configure router string rsvp interface reference class-type-bw ct0 number
  Tree ct0
  Range 0 to 100
  Introduced 16.0.R1
 

Platforms

All
ct1 number
  Synopsis Percentage of link bandwidth for class type (CT) 1
  Context configure router string rsvp interface reference class-type-bw ct1 number
  Tree ct1
  Range 0 to 100
  Introduced 16.0.R1
 

Platforms

All
ct2 number
  Synopsis Percentage of link bandwidth for class type (CT) 2
  Context configure router string rsvp interface reference class-type-bw ct2 number
  Tree ct2
  Range 0 to 100
  Introduced 16.0.R1
 

Platforms

All
ct3 number
  Synopsis Percentage of link bandwidth for class type (CT) 3
  Context configure router string rsvp interface reference class-type-bw ct3 number
  Tree ct3
  Range 0 to 100
  Introduced 16.0.R1
 

Platforms

All
ct4 number
  Synopsis Percentage of link bandwidth for class type (CT) 4
  Context configure router string rsvp interface reference class-type-bw ct4 number
  Tree ct4
  Range 0 to 100
  Introduced 16.0.R1
 

Platforms

All
ct5 number
  Synopsis Percentage of link bandwidth for class type (CT) 5
  Context configure router string rsvp interface reference class-type-bw ct5 number
  Tree ct5
  Range 0 to 100
  Introduced 16.0.R1
 

Platforms

All
ct6 number
  Synopsis Percentage of link bandwidth for class type (CT) 6
  Context configure router string rsvp interface reference class-type-bw ct6 number
  Tree ct6
  Range 0 to 100
  Introduced 16.0.R1
 

Platforms

All
ct7 number
  Synopsis Percentage of link bandwidth for class type (CT) 7
  Context configure router string rsvp interface reference class-type-bw ct7 number
  Tree ct7
  Range 0 to 100
  Introduced 16.0.R1
 

Platforms

All
dbw-down-threshold
  Synopsis Enable the dbw-down-threshold context
  Context configure router string rsvp interface reference dbw-down-threshold
  Tree dbw-down-threshold
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
bw number
  Synopsis Minimum difference in MRLB or MRB to trigger an update
  Context configure router string rsvp interface reference dbw-down-threshold bw number
  Tree bw
  Range 0 to 1000000
  Units megabps
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
percent number
  Synopsis Minimum difference in percent between dark bandwidth and sampled data rate, to trigger IGP-TE update
  Context configure router string rsvp interface reference dbw-down-threshold percent number
  Tree percent
  Range 0 to 100
  Units percent
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
dbw-multiplier number
  Synopsis Configure the Dark Bandwidth multiplier.
  Context configure router string rsvp interface reference dbw-multiplier number
  Tree dbw-multiplier
  Range 0 to 1000
  Units percent
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
dbw-up-threshold
  Synopsis Enable the dbw-up-threshold context
  Context configure router string rsvp interface reference dbw-up-threshold
  Tree dbw-up-threshold
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
bw number
  Synopsis Minimum difference in MRLB or MRB to trigger an update
  Context configure router string rsvp interface reference dbw-up-threshold bw number
  Tree bw
  Range 0 to 1000000
  Units megabps
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
percent number
  Synopsis Minimum difference in percent between dark bandwidth and sampled data rate, to trigger IGP-TE update
  Context configure router string rsvp interface reference dbw-up-threshold percent number
  Tree percent
  Range 0 to 100
  Units percent
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-s, 7950 XRS
graceful-restart-helper-mode boolean
  Synopsis Enable graceful restart helper for the RSVP interface
  Context configure router string rsvp interface reference graceful-restart-helper-mode boolean
  Tree graceful-restart-helper-mode
  Default false
  Introduced 16.0.R1
 

Platforms

All
graceful-shutdown boolean
  Synopsis Initiate a graceful shutdown of RSVP interface
  Context configure router string rsvp interface reference graceful-shutdown boolean
  Tree graceful-shutdown
  Default false
  Introduced 16.0.R1
 

Platforms

All
hello-interval number
  Synopsis Time between RSVP Hello messages
  Context configure router string rsvp interface reference hello-interval number
  Tree hello-interval
  Range 0 to 60
  Default 3
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
implicit-null-label boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Signal the implicit null label value for all LSPs
  Context configure router string rsvp interface reference implicit-null-label boolean
  Tree implicit-null-label
  Introduced 16.0.R1
 

Platforms

All
refresh-reduction
  Synopsis Enable the refresh-reduction context
  Context configure router string rsvp interface reference refresh-reduction
  Tree refresh-reduction
  Introduced 16.0.R1
 

Platforms

All
reliable-delivery boolean
  Synopsis Reliable delivery of RSVP messages over the RSVP interface
  Context configure router string rsvp interface reference refresh-reduction reliable-delivery boolean
  Tree reliable-delivery
  Default false
  Introduced 16.0.R1
 

Platforms

All
subscription number
  Synopsis Percentage of the link bandwidth to use for reservation
  Context configure router string rsvp interface reference subscription number
  Tree subscription
  Range 0 to 1000
  Default 100
  Introduced 16.0.R1
 

Platforms

All
te-down-threshold
  Synopsis Enable the te-down-threshold context
  Context configure router string rsvp interface reference te-down-threshold
  Tree te-down-threshold
  Introduced 16.0.R1
 

Platforms

All
value number
  Synopsis Threshold level per interface
  Context configure router string rsvp interface reference te-down-threshold value number
  Tree value
  Range 0 to 100
  Max. Instances 16
  Min. Instances 1
 

Notes

This element is ordered by the user.
  Introduced 16.0.R2
 

Platforms

All
te-up-threshold
  Synopsis Enable the te-up-threshold context
  Context configure router string rsvp interface reference te-up-threshold
  Tree te-up-threshold
  Introduced 16.0.R1
 

Platforms

All
value number
  Synopsis Threshold level per interface
  Context configure router string rsvp interface reference te-up-threshold value number
  Tree value
  Range 0 to 100
  Max. Instances 16
  Min. Instances 1
 

Notes

This element is ordered by the user.
  Introduced 16.0.R2
 

Platforms

All
keep-multiplier number
  Synopsis Value for the keep-multiplier to declare a reservation or neighbor as down
  Context configure router string rsvp keep-multiplier number
  Tree keep-multiplier
  Range 1 to 255
  Default 3
  Introduced 16.0.R1
 

Platforms

All
msg-pacing
  Synopsis Enable the msg-pacing context
  Context configure router string rsvp msg-pacing
  Tree msg-pacing
  Introduced 16.0.R1
 

Platforms

All
max-burst number
  Synopsis Maximum RSVP messages that are sent over a specified period when message pacing is enabled
  Context configure router string rsvp msg-pacing max-burst number
  Tree max-burst
  Range 100 to 1000
  Default 650
  Introduced 16.0.R1
 

Platforms

All
period number
  Synopsis Time for RSVP message pacing
  Context configure router string rsvp msg-pacing period number
  Tree period
  Range 100 to 1000
  Default 100
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

All
p2mp-merge-point-abort-timer number
  Synopsis Merge pointer timer for abort timer
  Context configure router string rsvp p2mp-merge-point-abort-timer number
  Tree p2mp-merge-point-abort-timer
  Range 1 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
p2p-merge-point-abort-timer number
  Synopsis Merge pointer timer for P2P paths
  Context configure router string rsvp p2p-merge-point-abort-timer number
  Tree p2p-merge-point-abort-timer
  Range 1 to 65535
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
preemption-timer number
  Synopsis Preemption timer for the MPLS instance
  Context configure router string rsvp preemption-timer number
  Tree preemption-timer
  Range 0 to 1800
  Default 300
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
rapid-retransmit-time number
  Synopsis Rapid retransmission interval to reliably deliver RSVP messages
  Context configure router string rsvp rapid-retransmit-time number
  Tree rapid-retransmit-time
  Range 1 to 100
  Default 5
  Units deciseconds
  Introduced 16.0.R1
 

Platforms

All
rapid-retry-limit number
  Synopsis Rapid retry limit to reliably deliver RSVP messages
  Context configure router string rsvp rapid-retry-limit number
  Tree rapid-retry-limit
  Range 1 to 6
  Default 3
  Introduced 16.0.R1
 

Platforms

All
refresh-reduction-over-bypass boolean
  Synopsis Enable refresh reduction capabilities over tunnels
  Context configure router string rsvp refresh-reduction-over-bypass boolean
  Tree refresh-reduction-over-bypass
  Default false
  Introduced 16.0.R1
 

Platforms

All
refresh-time number
  Synopsis Interval between refresh messages
  Context configure router string rsvp refresh-time number
  Tree refresh-time
  Range 1 to 65535
  Default 30
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
te-down-threshold number
  Synopsis Value for the te-down-threshold
  Context configure router string rsvp te-down-threshold number
  Tree te-down-threshold
  Range 0 to 100
  Max. Instances 16
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
te-threshold-update
  Synopsis Enable the te-threshold-update context
  Context configure router string rsvp te-threshold-update
  Tree te-threshold-update
  Introduced 16.0.R1
 

Platforms

All
on-cac-failure boolean
  Synopsis CAC (Call Admission Control) failure-triggered IGP update
  Context configure router string rsvp te-threshold-update on-cac-failure boolean
  Tree on-cac-failure
  Default false
  Introduced 16.0.R1
 

Platforms

All
update-timer number
  Synopsis Timer-based IGP updates
  Context configure router string rsvp te-threshold-update update-timer number
  Tree update-timer
  Range 1 to 300
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
te-up-threshold number
  Synopsis Value for the te-up-threshold
  Context configure router string rsvp te-up-threshold number
  Tree te-up-threshold
  Range 0 to 100
  Max. Instances 16
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All

segment-routing

  Synopsis Enter the segment-routing context
  Context configure router string segment-routing
  Tree segment-routing
  Introduced 16.0.R1
 

Platforms

All
maintenance-policy [policy-name] string
  Synopsis Enter the maintenance-policy list instance
  Context configure router string segment-routing maintenance-policy string
  Tree maintenance-policy
 

Description

Commands in this context configure a named maintenance policy that can be applied to SR policy candidate paths that are either statically configured or imported via BGP.
  Introduced 20.10.R1
 

Platforms

All
[policy-name] string
  Synopsis Maintenance policy name
  Context configure router string segment-routing maintenance-policy string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 20.10.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the maintenance policy
  Context configure router string segment-routing maintenance-policy string admin-state keyword
  Tree admin-state
 

Description

This command sets the administrative state of the maintenance policy.

A maintenance policy must be administratively disabled to change any of the parameters.

When a maintenance template is administratively disabled, all applicable candidate paths are removed from the data path.
  Default disable
  Options enable, disable
  Introduced 20.10.R1
 

Platforms

All
bfd-liveness boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable seamless BFD for segment lists of candidate path
  Context configure router string segment-routing maintenance-policy string bfd-liveness boolean
  Tree bfd-liveness
 

Description

When configured to true, this command enables seamless BFD on every segment list of an SR policy candidate path to which the maintenance policy is applied. The BFD template configures the parameters for the BFD session.

When configured to false, seamless BFD is disabled.
  Default false
  Introduced 20.10.R1
 

Platforms

All
bfd-template reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis BFD template to be used by seamless BFD
  Context configure router string segment-routing maintenance-policy string bfd-template reference
  Tree bfd-template
 

Description

This command references a named BFD template to be used by seamless BFD. A BFD template must exist on the system before being referenced from a maintenance policy. The template specifies parameters that are used by the BFD session, such as the minimum transmit and receive control packet timer intervals.
 

Reference

configure bfd bfd-template string

  Introduced 20.10.R1
 

Platforms

All
hold-down-timer number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Hold down timer for SR policy candidate paths
  Context configure router string segment-routing maintenance-policy string hold-down-timer number
  Tree hold-down-timer
 

Description

This command configures the hold down timer for the maintenance policy. The purpose of the timer is to prevent bouncing of the SR policy path state if S-BFD sessions associated with the segment lists flap, causing the threshold to be repeatedly crossed in a short period of time.

The timer is started when the number of up S-BFD sessions drops below the threshold. The SR policy path is not considered to be up again until the hold down timer has expired and the number of up S-BFD sessions reaches or exceeds the threshold and the internal hold timer is not running.

If the revert timer is also configured, the revert timer is not started until after the number of up S-BFD sessions equals or exceeds the threshold and the hold down timer for the primary candidate path has expired.
  Range 0 to 5000
  Default 0
  Units deciseconds
  Introduced 20.10.R1
 

Platforms

All
mode keyword
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Protection mode for SR policy candidate paths
  Context configure router string segment-routing maintenance-policy string mode keyword
  Tree mode
 

Description

This command specifies the data path programming and protection mechanism for SR policy candidate paths to which the maintenance policy is applied.
  Default none
  Options none, ecmp-protected, linear
  Introduced 20.10.R1
 

Platforms

All
revert-timer number
  Synopsis Revert timer for SR policy candidate paths
  Context configure router string segment-routing maintenance-policy string revert-timer number
  Tree revert-timer
 

Description

This command configures the revert timer for SR Policy candidate paths.

The revert timer is started when the primary path recovers (the number of S-BFD sessions that are up equals or exceeds the threshold value and the hold down timer has expired). When the timer expires, the system reverts to the primary path.
  Range 0 to 4320
  Default 0
  Units minutes
  Introduced 20.10.R1
 

Platforms

All
threshold number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Minimum number of up S-BFD sessions for up path status
  Context configure router string segment-routing maintenance-policy string threshold number
  Tree threshold
 

Description

This command configures the minimum number of S-BFD sessions that must be up for the SR policy candidate path to be considered up. If the number of up sessions is below this threshold value, the policy candidate path is marked as BFD degraded by the system.

This command is only valid in the ecmp-protected mode.
  Range 1 to 32
  Default 1
  Introduced 20.10.R1
 

Platforms

All
segment-routing-v6
  Synopsis Enable the segment-routing-v6 context
  Context configure router string segment-routing segment-routing-v6
  Tree segment-routing-v6
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
base-routing-instance
  Synopsis Enter the base-routing-instance context
  Context configure router string segment-routing segment-routing-v6 base-routing-instance
  Tree base-routing-instance
 

Description

Commands in this context configure SRv6 SID functions for End, End.X, and service SIDs for IPv4 and IPv6 prefixes in the base routing instance.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
locator [locator-name] reference
  Synopsis Enter the locator list instance
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference
  Tree locator
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[locator-name] reference
  Synopsis SRv6 locator name
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference
 

Reference

configure router string segment-routing segment-routing-v6 locator string

 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
function
  Synopsis Enter the function context
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function
  Tree function
 

Description

Commands in this context configure the function value of SRv6 SIDs.

The end-dt46 command is mutually exclusive with the end-dt4 and end-dt6 commands.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
end [value] number
  Synopsis Enter the end list instance
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end number
  Tree end
 

Description

Commands in this context configure the attributes of SRv6 End SID function. The End SID functions for each SRH mode must be statically allocated. The value is not automatically allocated by default for a locator. 
  Max. Instances 8
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[value] number
  Synopsis SRv6 End SID function value
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end number
  Range 1 to 1048575
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
srh-mode keyword
  Synopsis Segment Routing Header (SRH) mode
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end number srh-mode keyword
  Tree srh-mode
 

Description

This command specifies the SRH statically allocated End.X SID function.
  Default psp
  Options psp, usp
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
end-dt4
  Synopsis Enable the end-dt4 context
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-dt4
  Tree end-dt4
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
value number
  Synopsis Service SID value for base router routes
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-dt4 value number
  Tree value
 

Description

This command assigns a SID function value for all IPv4 and/or IPv6 routes in the base routing instance. These can be signaled using BGP or static.
  Range 1 to 1048575
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
end-dt46
  Synopsis Enable the end-dt46 context
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-dt46
  Tree end-dt46
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
value number
  Synopsis Service SID value for base router routes
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-dt46 value number
  Tree value
 

Description

This command assigns a SID function value for all IPv4 and/or IPv6 routes in the base routing instance. These can be signaled using BGP or static.
  Range 1 to 1048575
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
end-dt6
  Synopsis Enable the end-dt6 context
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-dt6
  Tree end-dt6
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
value number
  Synopsis Service SID value for base router routes
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-dt6 value number
  Tree value
 

Description

This command assigns a SID function value for all IPv4 and/or IPv6 routes in the base routing instance. These can be signaled using BGP or static.
  Range 1 to 1048575
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
end-x [value] number
  Synopsis Enter the end-x list instance
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-x number
  Tree end-x
 

Description

Commands in this context configure the attributes of the End.X SID function associated with a P2P interface.

A static function value can be configured for each combination of SRH mode and protection type. For a specific interface, the static function value associated with the same combination of protection type and SRH mode overrides any corresponding function value that is automatically allocated (end.x-auto-allocate list configuration).

If more than one value is configured for an interface and combination of SRH mode and protection type, they are all advertised in IS-IS.

When used in remote TI-LFA repair tunnel programming, IS-IS uses rules to select one End.X value from the multiple values received in IS-IS link advertisements. 

Values assigned to loopback and system interfaces are not advertised in IS-IS.

End.X SID functions for adjacencies over broadcast interfaces are always automatically allocated based on the configuration of the end.x-auto-allocate list.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[value] number
  Synopsis SRv6 End SID function value
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-x number
  Range 1 to 1048575
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
interface-name reference
  Synopsis Interface name
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-x number interface-name reference
  Tree interface-name
 

Reference

configure router string interface string

  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
protection keyword
  Synopsis Adjacency protection for static End.x SID function
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-x number protection keyword
  Tree protection
 

Description

This command specifies the adjacency protection for the statically allocated End.x SID function.
  Default protected
  Options unprotected, protected
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
srh-mode keyword
  Synopsis Segment Routing Header (SRH) mode
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-x number srh-mode keyword
  Tree srh-mode
 

Description

This command specifies the SRH statically allocated End.X SID function.
  Default psp
  Options psp, usp
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
end-x-auto-allocate [srh-mode] keyword protection keyword
  Synopsis Add a list entry for end-x-auto-allocate
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-x-auto-allocate keyword protection keyword
  Tree end-x-auto-allocate
 

Description

This command adds a list entry for the automatic allocation of the End.X SID function for all adjacencies over all network interfaces on the router (P2P and broadcast interfaces).

A list entry is a combination of the protection type and the SRH mode. Any combinations in addition to the maximum supported by this command must be allocated statically under each P2P interface (end.x configuration).

When no list entries are configured, no End.X function values are automatically allocated by default for a locator.
  Max. Instances 2
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[srh-mode] keyword
  Synopsis Segment Routing Header (SRH) mode
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-x-auto-allocate keyword protection keyword
 

Description

This command specifies the SRH automatically allocated End.X SID function.
  Options psp, usp
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
protection keyword
  Synopsis Adjacency protection for automatic End.x SID function
  Context configure router string segment-routing segment-routing-v6 base-routing-instance locator reference function end-x-auto-allocate keyword protection keyword
 

Description

This command specifies the adjacency protection for the automatically allocated End.x SID function.
  Options unprotected, protected
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
locator [locator-name] string
  Synopsis Enter the locator list instance
  Context configure router string segment-routing segment-routing-v6 locator string
  Tree locator
  Max. Instances 16
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[locator-name] string
  Synopsis SRv6 locator name
  Context configure router string segment-routing segment-routing-v6 locator string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
admin-state keyword
  Synopsis Administrative state of the SRv6 locator
  Context configure router string segment-routing segment-routing-v6 locator string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
algorithm number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Algorithm ID
  Context configure router string segment-routing segment-routing-v6 locator string algorithm number
  Tree algorithm
  Range 128 to 255
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
block-length number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis SRv6 locator block address length
  Context configure router string segment-routing segment-routing-v6 locator string block-length number
  Tree block-length
  Range 0 to 96
  Default 0
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
function-length number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Function length
  Context configure router string segment-routing segment-routing-v6 locator string function-length number
  Tree function-length
 

Description

This command configures the size of the function length. The sum of the function length and the locator prefix length must not exceed 128 bits. Operators can configure the locator level label-block command before they configure a function length of 16. If the function length is configured as 16, the locator level label-block must be configured rather than the static-function level label-block. The validation occurs when committed.
  Range 16 | 20 to 96
  Default 20
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
label-block reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Reserved label block name for service termination
  Context configure router string segment-routing segment-routing-v6 locator string label-block reference
  Tree label-block
 

Reference

configure router string mpls-labels reserved-label-block string

  Introduced 22.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
prefix
  Synopsis Enter the prefix context
  Context configure router string segment-routing segment-routing-v6 locator string prefix
  Tree prefix
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
ip-prefix string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis SRv6 locator prefix
  Context configure router string segment-routing segment-routing-v6 locator string prefix ip-prefix string
  Tree ip-prefix
 

Description

This command configures the IPv6 prefix for the locator. The prefix length range is the sum of the length of the block field and the length of the node ID field. 
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
static-function
  Synopsis Enter the static-function context
  Context configure router string segment-routing segment-routing-v6 locator string static-function
  Tree static-function
 

Description

Commands in this context configure the attributes of the function field range reserved for static End.d, End.X, and service SID assignment.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
label-block reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Label block for the service SIDs of the SRv6 locator
  Context configure router string segment-routing segment-routing-v6 locator string static-function label-block reference
  Tree label-block
 

Reference

configure router string mpls-labels reserved-label-block string

  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
max-entries number
  Synopsis Maximum number of static SID functions
  Context configure router string segment-routing segment-routing-v6 locator string static-function max-entries number
  Tree max-entries
  Range 1 to 1048575
  Default 1
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
termination-fpe reference
  Synopsis List of the SRv6 termination FPE
  Context configure router string segment-routing segment-routing-v6 locator string termination-fpe reference
  Tree termination-fpe
 

Reference

configure fwd-path-ext fpe number

  Max. Instances 1
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
origination-fpe reference
  Synopsis List of the SRv6 origination FPEs
  Context configure router string segment-routing segment-routing-v6 origination-fpe reference
  Tree origination-fpe
 

Description

This command configures the origination Forwarding Path Extension (FPE) for SRv6 tunnels on local services. The origination FPE must be different from any of the SRv6 termination FPEs.
 

Reference

configure fwd-path-ext fpe number

  Max. Instances 1
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
source-address string
  Synopsis Source address used in the SRv6 packet
  Context configure router string segment-routing segment-routing-v6 source-address string
  Tree source-address
 

Description

This command specifies the global default source IPv6 address used in the SA field of the outerIPv6 header of the SRv6 encapsulated packet.  

The value is inherited in the BGP and services contexts (for example, configure router "base" bgp segment-routing-v6 source-address and configure service vprn bgp-ipvpn segment-routing-v6 source-address), but is overwritten by the value configured in those contexts.  

A source IPv6 address must be configured in the global context or in the BGP or services context. 

The system does not check if the entered address is a valid local address.
  Introduced 21.5.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
sr-mpls
  Synopsis Enter the sr-mpls context
  Context configure router string segment-routing sr-mpls
  Tree sr-mpls
  Introduced 21.10.R1
 

Platforms

All
prefix-sids [interface-name] reference
  Synopsis Enter the prefix-sids list instance
  Context configure router string segment-routing sr-mpls prefix-sids reference
  Tree prefix-sids
 

Description

Commands in this context configure the prefix SIDs for an interface.
  Introduced 21.10.R1
 

Platforms

All
[interface-name] reference
  Synopsis Loopback interface name that owns the prefix to be advertised
  Context configure router string segment-routing sr-mpls prefix-sids reference
 

Reference

configure router string interface string

 

Notes

This element is part of a list key.
  Introduced 21.10.R1
 

Platforms

All
ipv4-sid
  Synopsis Enable the ipv4-sid context
  Context configure router string segment-routing sr-mpls prefix-sids reference ipv4-sid
  Tree ipv4-sid
  Introduced 21.10.R1
 

Platforms

All
index number
  Synopsis Node SID index for the interface
  Context configure router string segment-routing sr-mpls prefix-sids reference ipv4-sid index number
  Tree index
  Range 0 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 21.10.R1
 

Platforms

All
label number
  Synopsis Label value for the node SID
  Context configure router string segment-routing sr-mpls prefix-sids reference ipv4-sid label number
  Tree label
  Range 32 to 1048575
 

Notes

The following elements are part of a choice: index or label.
  Introduced 21.10.R1
 

Platforms

All
ipv6-sid
  Synopsis Enable the ipv6-sid context
  Context configure router string segment-routing sr-mpls prefix-sids reference ipv6-sid
  Tree ipv6-sid
  Introduced 21.10.R1
 

Platforms

All
index number
  Synopsis Node SID index for the interface
  Context configure router string segment-routing sr-mpls prefix-sids reference ipv6-sid index number
  Tree index
  Range 0 to 4294967295
 

Notes

The following elements are part of a choice: index or label.
  Introduced 21.10.R1
 

Platforms

All
label number
  Synopsis Label value for the node SID
  Context configure router string segment-routing sr-mpls prefix-sids reference ipv6-sid label number
  Tree label
  Range 32 to 1048575
 

Notes

The following elements are part of a choice: index or label.
  Introduced 21.10.R1
 

Platforms

All
node-sid boolean
  Synopsis Assign a node SID to the prefix referencing the router
  Context configure router string segment-routing sr-mpls prefix-sids reference node-sid boolean
  Tree node-sid
  Default true
  Introduced 21.10.R1
 

Platforms

All
sr-policies
  Synopsis Enter the sr-policies context
  Context configure router string segment-routing sr-policies
  Tree sr-policies
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of segment routing policies
  Context configure router string segment-routing sr-policies admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
egress-statistics
  Synopsis Enable the egress-statistics context
  Context configure router string segment-routing sr-policies egress-statistics
  Tree egress-statistics
  Introduced 19.10.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the traffic statistics
  Context configure router string segment-routing sr-policies egress-statistics admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 19.10.R1
 

Platforms

All
ingress-statistics
  Synopsis Enable the ingress-statistics context
  Context configure router string segment-routing sr-policies ingress-statistics
  Tree ingress-statistics
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the traffic statistics
  Context configure router string segment-routing sr-policies ingress-statistics admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
reserved-label-block reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Reserved local block for segment routing policies
  Context configure router string segment-routing sr-policies reserved-label-block reference
  Tree reserved-label-block
 

Reference

configure router string mpls-labels reserved-label-block string

  Introduced 16.0.R1
 

Platforms

All
static-policy [name] string
  Synopsis Enter the static-policy list instance
  Context configure router string segment-routing sr-policies static-policy string
  Tree static-policy
  Max. Instances 8192
  Introduced 16.0.R1
 

Platforms

All
[name] string
  Synopsis Name for the segment routing static policy
  Context configure router string segment-routing sr-policies static-policy string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of segment routing static policy
  Context configure router string segment-routing sr-policies static-policy string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
binding-sid number
  Synopsis Segment ID that opaquely represents an SR policy to upstream routers
  Context configure router string segment-routing sr-policies static-policy string binding-sid number
  Tree binding-sid
  Range 32 to 1048575
  Introduced 16.0.R1
 

Platforms

All
color number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Traffic flows to be steered by this policy
  Context configure router string segment-routing sr-policies static-policy string color number
  Tree color
  Range 0 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
distinguisher number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Unique value for a policy
  Context configure router string segment-routing sr-policies static-policy string distinguisher number
  Tree distinguisher
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
endpoint (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Destination of the source-routed path
  Context configure router string segment-routing sr-policies static-policy string endpoint (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree endpoint
  Introduced 16.0.R1
 

Platforms

All
head-end (ipv4-address-no-zone | ipv6-address-no-zone | keyword)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Head end address for this static policy
  Context configure router string segment-routing sr-policies static-policy string head-end (ipv4-address-no-zone | ipv6-address-no-zone | keyword)
  Tree head-end
  Options local
  Introduced 16.0.R1
 

Platforms

All
maintenance-policy reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Policy name
  Context configure router string segment-routing sr-policies static-policy string maintenance-policy reference
  Tree maintenance-policy
 

Reference

configure router string segment-routing maintenance-policy string

  Introduced 20.10.R1
 

Platforms

All
preference number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Preference value of this static policy
  Context configure router string segment-routing sr-policies static-policy string preference number
  Tree preference
  Max. Range 0 to 4294967295
  Default 100
  Introduced 16.0.R1
 

Platforms

All
segment-list [seg-list-index] number
  Synopsis Enter the segment-list list instance
  Context configure router string segment-routing sr-policies static-policy string segment-list number
  Tree segment-list
  Max. Instances 32
  Introduced 16.0.R1
 

Platforms

All
[seg-list-index] number
  Synopsis Index for identifying a particular segment list
  Context configure router string segment-routing sr-policies static-policy string segment-list number
  Range 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of segment list for static policy
  Context configure router string segment-routing sr-policies static-policy string segment-list number admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
segment [segment-index] number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enter the segment list instance
  Context configure router string segment-routing sr-policies static-policy string segment-list number segment number
  Tree segment
  Max. Instances 11
  Introduced 16.0.R1
 

Platforms

All
[segment-index] number
  Synopsis Index for identifying a particular segment list
  Context configure router string segment-routing sr-policies static-policy string segment-list number segment number
  Range 1 to 11
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
mpls-label number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Value for the MPLS label
  Context configure router string segment-routing sr-policies static-policy string segment-list number segment number mpls-label number
  Tree mpls-label
  Range 0 to 1048575
  Introduced 16.0.R1
 

Platforms

All
srv6-sid string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Segment ID for segment routing IPv6
  Context configure router string segment-routing sr-policies static-policy string segment-list number segment number srv6-sid string
  Tree srv6-sid
 

Description

This command defines the 128-bit SRv6 SID for the segment.
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
weight number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Weight of this segment list
  Context configure router string segment-routing sr-policies static-policy string segment-list number weight number
  Tree weight
  Max. Range 0 to 4294967295
  Default 1
  Introduced 16.0.R1
 

Platforms

All
segment-routing-v6
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Enable the segment-routing-v6 context
  Context configure router string segment-routing sr-policies static-policy string segment-routing-v6
  Tree segment-routing-v6
 

Description

Commands in this context configure a static SRv6 policy.
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
binding-sid [index] number
  Synopsis Enter the binding-sid list instance
  Context configure router string segment-routing sr-policies static-policy string segment-routing-v6 binding-sid number
  Tree binding-sid
  Max. Instances 1
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
[index] number
  Synopsis Binding SID index
  Context configure router string segment-routing sr-policies static-policy string segment-routing-v6 binding-sid number
  Range 1
 

Notes

This element is part of a list key.
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
ip-address string
  Synopsis Remote SRv6 binding SID
  Context configure router string segment-routing sr-policies static-policy string segment-routing-v6 binding-sid number ip-address string
  Tree ip-address
 

Description

This command configures an SRv6 binding SID for a remote SRv6 policy. The command cannot be used with a local head end location (configure router segment-routing sr-policies static-policy head-end local). This command and the configure router segment-routing sr-policies static-policy segment-routing-v6 binding-sid locator command for a local SRv6 policy are mutually exclusive.

The format of the binding SID is a 128-bit IPv6 address.
 

Notes

The following elements are part of a choice: ip-address or locator.
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
locator
  Synopsis Enable the locator context
  Context configure router string segment-routing sr-policies static-policy string segment-routing-v6 binding-sid number locator
  Tree locator
 

Description

Commands in this context configure a binding SID locator for a local SRv6 policy. This command and the configure router segment-routing sr-policies static-policy segment-routing-v6 binding-sid ip-address command for a non-local SRv6 policy are mutually exclusive.
 

Notes

The following elements are part of a choice: ip-address or locator.
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
function keyword
  Synopsis Local SRv6 binding SID locator function
  Context configure router string segment-routing sr-policies static-policy string segment-routing-v6 binding-sid number locator function keyword
  Tree function
 

Description

This command configures an SRv6 binding SID function for a static SRv6 policy with a local head end location (configure router segment-routing sr-policies static-policy head-end local).
  Options end-b6-encaps-red
 

Notes

This element is mandatory.
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
function-value number
  Synopsis Local SRv6 binding SID locator function value
  Context configure router string segment-routing sr-policies static-policy string segment-routing-v6 binding-sid number locator function-value number
  Tree function-value
 

Description

This command configures the function value for a static SRv6 policy with a local head end location (configure router segment-routing sr-policies static-policy head-end local). If a function value is configured, the router checks whether this function value is available for the named locator. If no function value is configured, the router dynamically allocates a value.
  Range 1 to 1048575
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
locator-name reference
  Synopsis Local SRv6 binding SID locator name
  Context configure router string segment-routing sr-policies static-policy string segment-routing-v6 binding-sid number locator locator-name reference
  Tree locator-name
 

Description

This command configures an SRv6 binding SID locator for a static SRv6 policy with a local head end location (configure router segment-routing sr-policies static-policy head-end local). A corresponding locator must exist in the configure router segment-routing segment-routing-v6 context.
 

Reference

configure router string segment-routing segment-routing-v6 locator string

 

Notes

This element is mandatory.
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR
type keyword
  Synopsis Static policy type
  Context configure router string segment-routing sr-policies static-policy string type keyword
  Tree type
 

Description

This command configures the type of static policy. Only commands relevant to the type of the static policy can be executed. The type of the static policy can only be changed to a new type if there is no configuration present for the old type, or if all configuration for the old type is deleted.
  Default sr-mpls
  Options sr-mpls, srv6
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS, VSR

selective-fib boolean

  Synopsis Enable selective FIB
  Context configure router string selective-fib boolean
  Tree selective-fib
  Default true
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS

sfm-overload

  Synopsis Enable the sfm-overload context
  Context configure router string sfm-overload
  Tree sfm-overload
  Introduced 16.0.R2
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-2s, 7750 SR-7s, 7750 SR-14s, 7950 XRS, VSR
holdoff-time number
  Synopsis Delay in detecting SFM failures and setting overload
  Context configure router string sfm-overload holdoff-time number
  Tree holdoff-time
  Range 1 to 600
  Units seconds
  Introduced 16.0.R2
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-2s, 7750 SR-7s, 7750 SR-14s, 7950 XRS, VSR

sgt-qos

  Synopsis Enter the sgt-qos context
  Context configure router string sgt-qos
  Tree sgt-qos
  Introduced 16.0.R1
 

Platforms

All
dot1p
  Synopsis Enter the dot1p context
  Context configure router string sgt-qos dot1p
  Tree dot1p
  Introduced 16.0.R1
 

Platforms

All
application [dot1p-app-name] keyword
  Synopsis Enter the application list instance
  Context configure router string sgt-qos dot1p application keyword
  Tree application
  Introduced 16.0.R1
 

Platforms

All
[dot1p-app-name] keyword
  Synopsis Dot1p application identifier on the NOKIA SR OS router that generates control traffic over IP
  Context configure router string sgt-qos dot1p application keyword
  Options arp, isis, pppoe
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
dot1p (keyword | number)
  Synopsis Dot1p value to the traffic generated by this application
  Context configure router string sgt-qos dot1p application keyword dot1p (keyword | number)
  Tree dot1p
  Range 0 to 7
  Options be, l2, af, l1, h2, ef, h1, nc
  Introduced 16.0.R1
 

Platforms

All
dscp
  Synopsis Enter the dscp context
  Context configure router string sgt-qos dscp
  Tree dscp
  Introduced 16.0.R1
 

Platforms

All
application [dscp-app-name] keyword
  Synopsis Enter the application list instance
  Context configure router string sgt-qos dscp application keyword
  Tree application
  Introduced 16.0.R1
 

Platforms

All
[dscp-app-name] keyword
  Synopsis DSCP application identifier on the NOKIA SR OS router that generates control traffic over IP
  Context configure router string sgt-qos dscp application keyword
  Options bgp, cflowd, dhcp, dns, ftp, icmp, igmp, l2tp, ldp, mld, msdp, ndis, ntp, ospf, pim, radius, rip, rsvp, snmp, snmp-notification, srrp, ssh, syslog, tacplus, telnet, tftp, traceroute, vrrp, ptp, igmp-reporter, gtp, sflow, diameter, pcep, call-trace, bmp, grpc, mtrace2, http, mpls-udp-return, pfcp, ibcp
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
dscp (keyword | number)
  Synopsis DSCP value to the traffic generated by this application
  Context configure router string sgt-qos dscp application keyword dscp (keyword | number)
  Tree dscp
  Range 0 to 63
  Options be, cp1, cp2, cp3, cp4, cp5, cp6, cp7, cs1, cp9, af11, cp11, af12, cp13, af13, cp15, cs2, cp17, af21, cp19, af22, cp21, af23, cp23, cs3, cp25, af31, cp27, af32, cp29, af33, cp31, cs4, cp33, af41, cp35, af42, cp37, af43, cp39, cs5, cp41, cp42, cp43, cp44, cp45, ef, cp47, nc1, cp49, cp50, cp51, cp52, cp53, cp54, cp55, nc2, cp57, cp58, cp59, cp60, cp61, cp62, cp63
  Introduced 16.0.R1
 

Platforms

All
dscp-map [dscp-name] keyword
  Synopsis Enter the dscp-map list instance
  Context configure router string sgt-qos dscp dscp-map keyword
  Tree dscp-map
  Introduced 16.0.R2
 

Platforms

All
[dscp-name] keyword
  Synopsis DSCP name mapped to forwarding class
  Context configure router string sgt-qos dscp dscp-map keyword
  Options be, cp1, cp2, cp3, cp4, cp5, cp6, cp7, cs1, cp9, af11, cp11, af12, cp13, af13, cp15, cs2, cp17, af21, cp19, af22, cp21, af23, cp23, cs3, cp25, af31, cp27, af32, cp29, af33, cp31, cs4, cp33, af41, cp35, af42, cp37, af43, cp39, cs5, cp41, cp42, cp43, cp44, cp45, ef, cp47, nc1, cp49, cp50, cp51, cp52, cp53, cp54, cp55, nc2, cp57, cp58, cp59, cp60, cp61, cp62, cp63
 

Notes

This element is part of a list key.
  Introduced 16.0.R2
 

Platforms

All
fc keyword
  Synopsis Value for the forwarding class for this mapping
  Context configure router string sgt-qos dscp dscp-map keyword fc keyword
  Tree fc
  Options be, l2, af, l1, h2, ef, h1, nc
  Introduced 16.0.R2
 

Platforms

All

static-routes

  Synopsis Enter the static-routes context
  Context configure router string static-routes
  Tree static-routes
  Introduced 16.0.R1
 

Platforms

All
hold-down
  Synopsis Enable the hold-down context
  Context configure router string static-routes hold-down
  Tree hold-down
  Introduced 16.0.R1
 

Platforms

All
initial number
  Synopsis Value for the initial hold down time
  Context configure router string static-routes hold-down initial number
  Tree initial
  Range 1 to 65535
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
max-value number
  Synopsis Maximum value of the hold down time
  Context configure router string static-routes hold-down max-value number
  Tree max-value
  Range 1 to 65535
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
multiplier number
  Synopsis Value by which the previous hold-down time is multiplied to calculate the new one
  Context configure router string static-routes hold-down multiplier number
  Tree multiplier
  Range 1 to 10
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

All
route [ip-prefix] (ipv4-prefix | ipv6-prefix) route-type keyword
  Synopsis Enter the route list instance
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword
  Tree route
  Introduced 16.0.R1
 

Platforms

All
[ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis IP prefix and prefix length for the static routes
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
route-type keyword
  Synopsis Static route type for unicast or multicast RPF
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword
  Options unicast, multicast
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
backup-tag number
  Synopsis Static route backup tag
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword backup-tag number
  Tree backup-tag
 

Description

This command associates a 4-byte backup route tag with the static route when the backup next-hop functionality is activated. The tag value is used in route policies to control distribution of the static route into other protocols when the backup next-hop function is activated for the associated static route.

The tag specified at this level of the static route causes the tag values that are configured under the next-hop, black-hole, and indirect contexts of the static route to be ignored.
  Range 1 to 4294967295
  Introduced 21.2.R1
 

Platforms

All
blackhole
  Synopsis Enable the blackhole context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole
  Tree blackhole
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the static route operation
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
community string
  Synopsis Community ID associated with the static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole community string
  Tree community
  String Length 1 to 72
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
dynamic-bgp boolean
  Synopsis Derive static route next hop from BGP next hop value
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole dynamic-bgp boolean
  Tree dynamic-bgp
  Default false
  Introduced 16.0.R1
 

Platforms

All
generate-icmp boolean
  Synopsis Send ICMP unreachable messages when received packets match a static route with black-hole next-hop
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole generate-icmp boolean
  Tree generate-icmp
  Default false
  Introduced 16.0.R1
 

Platforms

All
metric number
  Synopsis Static route metric
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole metric number
  Tree metric
  Range 0 to 65535
  Default 1
  Introduced 16.0.R1
 

Platforms

All
preference number
  Synopsis Priority of this static route over the routes from different sources
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole preference number
  Tree preference
  Range 1 to 255
  Default 5
  Introduced 16.0.R1
 

Platforms

All
prefix-list
  Synopsis Enter the prefix-list context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole prefix-list
  Tree prefix-list
  Introduced 16.0.R1
 

Platforms

All
flag keyword
  Synopsis Static route match condition from prefix list
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole prefix-list flag keyword
  Tree flag
  Default any
  Options any, all, none
  Introduced 16.0.R1
 

Platforms

All
name reference
  Synopsis Prefix list name
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole prefix-list name reference
  Tree name
 

Reference

configure policy-options prefix-list string

  Introduced 16.0.R1
 

Platforms

All
tag number
  Synopsis Static route tag
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword blackhole tag number
  Tree tag
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
community string
  Synopsis Community ID associated with the static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword community string
  Tree community
  String Length 1 to 72
  Max. Instances 12
 

Notes

This element is ordered by the user.
  Introduced 16.0.R1
 

Platforms

All
indirect [ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the indirect list instance
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree indirect
  Introduced 16.0.R1
 

Platforms

All
[ip-address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Next-hop IP address used to reach the destination
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone)
 

Description

This command specifies the next-hop IP address used to reach the destination. The specified IP address can be either on the network side or the access side and is typically at least one hop away from the node.
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the static route operation
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
community string
  Synopsis Community ID associated with the static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) community string
  Tree community
  String Length 1 to 72
  Introduced 16.0.R1
 

Platforms

All
cpe-check [address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the cpe-check list instance
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree cpe-check
 

Description

When configured, this command enables the Customer Premises Equipment (CPE) check feature and specifies the IP address of the target CPE device.

This option initiates a background ICMP ping test to the configured target IP address. The IP address can either be an IPv4 address for IPv4 static routes or an IPv6 address for IPv6 static routes. To avoid possible circular references, the target IP address cannot exist in the same subnet as the static route subnet. This command is mutually exclusive with BFD support on a specific static route.

Note: A node that is sourcing CPE-check packets waits an additional full interval before taking action, which gives the CPE time to respond. For example, with a drop-count of 3 and an interval of 1s, three CPE-check packets are sent out and the node waits for the duration of another interval before acting on the loss. Failure declaration may take extra time depending on the load, interval, and other factors. In line with multitasking, multi-priority operating principles of the node, and the relative priority of cpe-ping, the node paces these minor events.
  Max. Instances 1
  Introduced 16.0.R1
 

Platforms

All
[address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis IP address of the target CPE device
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
drop-count number
  Synopsis Consecutive ping replies missed before CPE deemed down
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) drop-count number
  Tree drop-count
  Range 1 to 255
  Default 3
  Introduced 16.0.R1
 

Platforms

All
interval number
  Synopsis Time between ICMP pings to the target CPE IP address
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) interval number
  Tree interval
  Range 1 to 255
  Default 1
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
log boolean
  Synopsis Log the transitions between active and inactive based on the CPE connectivity check
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) log boolean
  Tree log
  Default false
  Introduced 16.0.R1
 

Platforms

All
padding-size number
  Synopsis Padding size for the ICMP ping test packet of the CPE connectivity check
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) padding-size number
  Tree padding-size
  Range 0 to 16384
  Default 56
  Units bytes
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
destination-class number
  Synopsis Destination class for this static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) destination-class number
  Tree destination-class
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS
metric number
  Synopsis Static route metric
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) metric number
  Tree metric
  Range 0 to 65535
  Default 1
  Introduced 16.0.R1
 

Platforms

All
preference number
  Synopsis Priority of this static route over the routes from different sources
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) preference number
  Tree preference
  Range 1 to 255
  Default 5
  Introduced 16.0.R1
 

Platforms

All
prefix-list
  Synopsis Enter the prefix-list context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) prefix-list
  Tree prefix-list
  Introduced 16.0.R1
 

Platforms

All
flag keyword
  Synopsis Static route match condition from prefix list
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) prefix-list flag keyword
  Tree flag
  Default any
  Options any, all, none
  Introduced 16.0.R1
 

Platforms

All
name reference
  Synopsis Prefix list name
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) prefix-list name reference
  Tree name
 

Reference

configure policy-options prefix-list string

  Introduced 16.0.R1
 

Platforms

All
qos
  Synopsis Enter the qos context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) qos
  Tree qos
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
forwarding-class keyword
  Synopsis Forwarding class associated with the static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) qos forwarding-class keyword
  Tree forwarding-class
  Options be, l2, af, l1, h2, ef, h1, nc
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
priority keyword
  Synopsis Static route priority
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) qos priority keyword
  Tree priority
  Options low, high
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
source-class number
  Synopsis Source class for this static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) source-class number
  Tree source-class
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS
tag number
  Synopsis Static route tag
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tag number
  Tree tag
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
tunnel-next-hop
  Synopsis Enter the tunnel-next-hop context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop
  Tree tunnel-next-hop
  Introduced 16.0.R1
 

Platforms

All
disallow-igp boolean
  Synopsis Do not resolve indirect static routes using IGP next-hops in RTM if no tunnel next-hops found in TTM
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop disallow-igp boolean
  Tree disallow-igp
  Default false
  Introduced 16.0.R1
 

Platforms

All
flex-algo number
  Synopsis Flexible Algorithm ID
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop flex-algo number
  Tree flex-algo
  Range 128 to 255
  Introduced 20.7.R1
 

Platforms

All
resolution keyword
  Synopsis Tunnel next hop resolution to resolve indirect static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution keyword
  Tree resolution
  Default none
  Options none, filter, any
  Introduced 16.0.R1
 

Platforms

All
resolution-filter
  Synopsis Enter the resolution-filter context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter
  Tree resolution-filter
  Introduced 16.0.R1
 

Platforms

All
ldp boolean
  Synopsis Use LDP Route Forwarding Equivalence Class (FEC) tunneling for next-hop resolution
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter ldp boolean
  Tree ldp
  Default false
  Introduced 16.0.R1
 

Platforms

All
mpls-fwd-policy boolean
  Synopsis Use MPLS forwarding policy for tunnel-next-hop
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter mpls-fwd-policy boolean
  Tree mpls-fwd-policy
  Default false
  Introduced 16.0.R4
 

Platforms

All
rib-api boolean
  Synopsis Set RIB API type for use with tunnel next-hop
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter rib-api boolean
  Tree rib-api
  Default false
  Introduced 16.0.R4
 

Platforms

All
rsvp-te
  Synopsis Enable the rsvp-te context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter rsvp-te
  Tree rsvp-te
  Introduced 16.0.R1
 

Platforms

All
lsp [lsp-name] string
  Synopsis Add a list entry for lsp
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter rsvp-te lsp string
  Tree lsp
  Introduced 16.0.R1
 

Platforms

All
[lsp-name] string
  Synopsis Labeled Switch Path name
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter rsvp-te lsp string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
sr-isis boolean
  Synopsis Use the SR ISIS tunneling mechanism to resolve next hop for the static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter sr-isis boolean
  Tree sr-isis
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-ospf boolean
  Synopsis Use SR OSPF tunneling for next-hop resolution
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter sr-ospf boolean
  Tree sr-ospf
  Default false
  Introduced 16.0.R1
 

Platforms

All
sr-ospf3 boolean
  Synopsis Use SR OSPFv3 tunneling mechanism to resolve next-hop
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter sr-ospf3 boolean
  Tree sr-ospf3
  Default false
  Introduced 16.0.R6
 

Platforms

All
sr-te
  Synopsis Enable the sr-te context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter sr-te
  Tree sr-te
  Introduced 16.0.R1
 

Platforms

All
lsp [lsp-name] string
  Synopsis Add a list entry for lsp
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter sr-te lsp string
  Tree lsp
  Introduced 16.0.R1
 

Platforms

All
[lsp-name] string
  Synopsis Labeled Switch Path name
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword indirect (ipv4-address-no-zone | ipv6-address-no-zone) tunnel-next-hop resolution-filter sr-te lsp string
  String Length 1 to 64
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
interface [interface-name] string
  Synopsis Enter the interface list instance
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string
  Tree interface
  Introduced 16.0.R1
 

Platforms

All
[interface-name] string
  Synopsis Router interface name
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the static route operation
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
community string
  Synopsis Community ID associated with the static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string community string
  Tree community
  String Length 1 to 72
  Introduced 16.0.R1
 

Platforms

All
cpe-check [address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the cpe-check list instance
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string cpe-check (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree cpe-check
  Max. Instances 1
  Introduced 16.0.R1
 

Platforms

All
[address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis IP address of the target CPE device
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string cpe-check (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
drop-count number
  Synopsis Consecutive ping replies missed before CPE deemed down
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) drop-count number
  Tree drop-count
  Range 1 to 255
  Default 3
  Introduced 16.0.R1
 

Platforms

All
interval number
  Synopsis Time between ICMP pings to the target CPE IP address
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) interval number
  Tree interval
  Range 1 to 255
  Default 1
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
log boolean
  Synopsis Log the transitions between active and inactive based on the CPE connectivity check
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) log boolean
  Tree log
  Default false
  Introduced 16.0.R1
 

Platforms

All
padding-size number
  Synopsis Padding size for the ICMP ping test packet of the CPE connectivity check
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) padding-size number
  Tree padding-size
  Range 0 to 16384
  Default 56
  Units bytes
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
destination-class number
  Synopsis Destination class for this static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string destination-class number
  Tree destination-class
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS
load-balancing-weight number
  Synopsis Load-balancing weight for all of the ECMP next hops
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string load-balancing-weight number
  Tree load-balancing-weight
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
metric number
  Synopsis Static route metric
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string metric number
  Tree metric
  Range 0 to 65535
  Default 1
  Introduced 16.0.R1
 

Platforms

All
preference number
  Synopsis Priority of this static route over the routes from different sources
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string preference number
  Tree preference
  Range 1 to 255
  Default 5
  Introduced 16.0.R1
 

Platforms

All
prefix-list
  Synopsis Enter the prefix-list context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string prefix-list
  Tree prefix-list
  Introduced 16.0.R1
 

Platforms

All
flag keyword
  Synopsis Static route match condition from prefix list
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string prefix-list flag keyword
  Tree flag
  Default any
  Options any, all, none
  Introduced 16.0.R1
 

Platforms

All
name reference
  Synopsis Prefix list name
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string prefix-list name reference
  Tree name
 

Reference

configure policy-options prefix-list string

  Introduced 16.0.R1
 

Platforms

All
qos
  Synopsis Enter the qos context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string qos
  Tree qos
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
forwarding-class keyword
  Synopsis Forwarding class associated with the static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string qos forwarding-class keyword
  Tree forwarding-class
  Options be, l2, af, l1, h2, ef, h1, nc
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
priority keyword
  Synopsis Static route priority
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string qos priority keyword
  Tree priority
  Options low, high
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
source-class number
  Synopsis Source class for this static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string source-class number
  Tree source-class
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS
tag number
  Synopsis Static route tag
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword interface string tag number
  Tree tag
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
ipsec-tunnel [ipsec-tunnel-name] string
  Synopsis Enter the ipsec-tunnel list instance
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword ipsec-tunnel string
  Tree ipsec-tunnel
  Introduced 22.7.R1
 

Platforms

VSR
[ipsec-tunnel-name] string
  Synopsis IPsec tunnel name.
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword ipsec-tunnel string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 22.7.R1
 

Platforms

VSR
admin-state keyword
  Synopsis Administrative state of the static route operation
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword ipsec-tunnel string admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 22.7.R1
 

Platforms

VSR
community string
  Synopsis Community ID associated with the static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword ipsec-tunnel string community string
  Tree community
  String Length 1 to 72
  Introduced 22.7.R1
 

Platforms

VSR
description string
  Synopsis Text description
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword ipsec-tunnel string description string
  Tree description
  String Length 1 to 80
  Introduced 22.7.R1
 

Platforms

VSR
metric number
  Synopsis Static route metric
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword ipsec-tunnel string metric number
  Tree metric
  Range 0 to 65535
  Default 1
  Introduced 22.7.R1
 

Platforms

VSR
preference number
  Synopsis Priority of this static route over the routes from different sources
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword ipsec-tunnel string preference number
  Tree preference
  Range 1 to 255
  Default 5
  Introduced 22.7.R1
 

Platforms

VSR
tag number
  Synopsis Static route tag
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword ipsec-tunnel string tag number
  Tree tag
  Range 1 to 4294967295
  Introduced 22.7.R1
 

Platforms

VSR
next-hop [ip-address] (ipv4-address-with-zone | ipv6-address-with-zone)
  Synopsis Enter the next-hop list instance
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone)
  Tree next-hop
  Introduced 16.0.R1
 

Platforms

All
[ip-address] (ipv4-address-with-zone | ipv6-address-with-zone)
  Synopsis IP address of the directly-connected next hop
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone)
 

Description

This command specifies the IP address of the directly-connected next hop. The IP address can either be on the network side or the access side on the node. The address must be associated with a network directly connected to a network configured on the node.
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
admin-state keyword
  Synopsis Administrative state of the static route operation
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) admin-state keyword
  Tree admin-state
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

All
backup-next-hop
  Synopsis Enter the backup-next-hop context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) backup-next-hop
  Tree backup-next-hop
 

Description

Commands in this context configure static route entry fast failover.
  Introduced 21.2.R1
 

Platforms

All
address (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Backup next-hop IP address
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) backup-next-hop address (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree address
 

Description

This command specifies the backup IP forwarding address that is used for static route Fast ReRoute (FRR). The configured address, if reachable, acts as pre-installed backup forwarding information that can be used when the primary IP next-hop suddenly fails.

The configured backup next-hop IP address can be directly or indirectly connected (using an IGP or tunnel) to the node. The backup next-hop forwarding information or the Next-hop Label Forwarding Entry (NHLFE) tunnel forwarding information from the IP Routing Table Manager (RTM) is used to preconfigure an IP fast-reroute backup path.

One backup next-hop address can protect a single primary static route entry next-hop address without ECMP and it is only activated when the primary next-hop has no active ECMP.

The configured IP address can be either on the network or the access side.
  Introduced 21.2.R1
 

Platforms

All
bfd-liveness boolean
  Synopsis Use Bidirectional Forwarding Detection on this static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) bfd-liveness boolean
  Tree bfd-liveness
  Default false
  Introduced 16.0.R1
 

Platforms

All
community string
  Synopsis Community ID associated with the static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) community string
  Tree community
  String Length 1 to 72
  Introduced 16.0.R1
 

Platforms

All
cpe-check [address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis Enter the cpe-check list instance
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree cpe-check
 

Description

When configured, this command enables the Customer Premises Equipment (CPE) check feature and specifies the IP address of the target CPE device.

This option initiates a background ICMP ping test to the configured target IP address. The IP address can either be an IPv4 address for IPv4 static routes or an IPv6 address for IPv6 static routes. To avoid possible circular references, the target IP address cannot exist in the same subnet as the static route subnet. This command is mutually exclusive with BFD support on a specific static route.

Note: A node that is sourcing CPE-check packets waits an additional full interval before taking action, which gives the CPE time to respond. For example, with a drop-count of 3 and an interval of 1s, three CPE-check packets are sent out and the node waits for the duration of another interval before acting on the loss. Failure declaration may take extra time depending on the load, interval, and other factors. In line with multitasking, multi-priority operating principles of the node, and the relative priority of cpe-ping, the node paces these minor events.
  Max. Instances 1
  Introduced 16.0.R1
 

Platforms

All
[address] (ipv4-address-no-zone | ipv6-address-no-zone)
  Synopsis IP address of the target CPE device
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone)
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
drop-count number
  Synopsis Consecutive ping replies missed before CPE deemed down
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) drop-count number
  Tree drop-count
  Range 1 to 255
  Default 3
  Introduced 16.0.R1
 

Platforms

All
interval number
  Synopsis Time between ICMP pings to the target CPE IP address
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) interval number
  Tree interval
  Range 1 to 255
  Default 1
  Units seconds
  Introduced 16.0.R1
 

Platforms

All
log boolean
  Synopsis Log the transitions between active and inactive based on the CPE connectivity check
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) log boolean
  Tree log
  Default false
  Introduced 16.0.R1
 

Platforms

All
padding-size number
  Synopsis Padding size for the ICMP ping test packet of the CPE connectivity check
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) cpe-check (ipv4-address-no-zone | ipv6-address-no-zone) padding-size number
  Tree padding-size
  Range 0 to 16384
  Default 56
  Units bytes
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
destination-class number
  Synopsis Destination class for this static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) destination-class number
  Tree destination-class
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS
ldp-sync boolean
  Synopsis Use LDP synchronization feature for a static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) ldp-sync boolean
  Tree ldp-sync
  Default false
  Introduced 16.0.R1
 

Platforms

All
load-balancing-weight number
  Synopsis Load-balancing weight for all of the ECMP next hops
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) load-balancing-weight number
  Tree load-balancing-weight
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
metric number
  Synopsis Static route metric
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) metric number
  Tree metric
  Range 0 to 65535
  Default 1
  Introduced 16.0.R1
 

Platforms

All
preference number
  Synopsis Priority of this static route over the routes from different sources
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) preference number
  Tree preference
  Range 1 to 255
  Default 5
  Introduced 16.0.R1
 

Platforms

All
prefix-list
  Synopsis Enter the prefix-list context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) prefix-list
  Tree prefix-list
  Introduced 16.0.R1
 

Platforms

All
flag keyword
  Synopsis Static route match condition from prefix list
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) prefix-list flag keyword
  Tree flag
  Default any
  Options any, all, none
  Introduced 16.0.R1
 

Platforms

All
name reference
  Synopsis Prefix list name
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) prefix-list name reference
  Tree name
 

Reference

configure policy-options prefix-list string

  Introduced 16.0.R1
 

Platforms

All
qos
  Synopsis Enter the qos context
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) qos
  Tree qos
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
forwarding-class keyword
  Synopsis Forwarding class associated with the static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) qos forwarding-class keyword
  Tree forwarding-class
  Options be, l2, af, l1, h2, ef, h1, nc
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
priority keyword
  Synopsis Static route priority
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) qos priority keyword
  Tree priority
  Options low, high
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
source-class number
  Synopsis Source class for this static route
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) source-class number
  Tree source-class
  Range 1 to 255
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-s, 7950 XRS
tag number
  Synopsis Static route tag
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) tag number
  Tree tag
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All
validate-next-hop boolean
  Synopsis Track the state of the next hop in the IPv4 ARP Cache or the IPv6 Neighbor Cache
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword next-hop (ipv4-address-with-zone | ipv6-address-with-zone) validate-next-hop boolean
  Tree validate-next-hop
  Default false
  Introduced 16.0.R1
 

Platforms

All
tag number
  Synopsis Static route tag
  Context configure router string static-routes route (ipv4-prefix | ipv6-prefix) route-type keyword tag number
  Tree tag
  Range 1 to 4294967295
  Introduced 16.0.R1
 

Platforms

All

triggered-policy boolean

  Synopsis Trigger route policy re-evaluation
  Context configure router string triggered-policy boolean
  Tree triggered-policy
  Default false
  Introduced 16.0.R1
 

Platforms

All

ttl-propagate

  Synopsis Enter the ttl-propagate context
  Context configure router string ttl-propagate
  Tree ttl-propagate
  Introduced 16.0.R1
 

Platforms

All
label-route-local keyword
  Synopsis TTL propagation from IP header into label stack for local packets
  Context configure router string ttl-propagate label-route-local keyword
  Tree label-route-local
  Default none
  Options none, all
  Introduced 16.0.R1
 

Platforms

All
label-route-transit keyword
  Synopsis TTL propagation from IP header into label stack for transit packets
  Context configure router string ttl-propagate label-route-transit keyword
  Tree label-route-transit
  Default none
  Options none, all
  Introduced 16.0.R1
 

Platforms

All
lsr-label-route keyword
  Synopsis TTL propagation from IP header into label stack
  Context configure router string ttl-propagate lsr-label-route keyword
  Tree lsr-label-route
  Default none
  Options none, all
  Introduced 16.0.R1
 

Platforms

All
vprn-local keyword
  Synopsis TTL propagation from IP header into label stack for VPRN local packets
  Context configure router string ttl-propagate vprn-local keyword
  Tree vprn-local
  Default vc-only
  Options none, all, vc-only
  Introduced 16.0.R1
 

Platforms

All
vprn-transit keyword
  Synopsis TTL propagation from IP header into label stack for VPRN transit packets
  Context configure router string ttl-propagate vprn-transit keyword
  Tree vprn-transit
  Default vc-only
  Options none, all, vc-only
  Introduced 16.0.R1
 

Platforms

All

tunnel-interface

  Synopsis Enter the tunnel-interface context
  Context configure router string tunnel-interface
  Tree tunnel-interface
  Introduced 16.0.R1
 

Platforms

All
ldp-p2mp-leaf [p2mp-id] number sender-address string
  Synopsis Enter the ldp-p2mp-leaf list instance
  Context configure router string tunnel-interface ldp-p2mp-leaf number sender-address string
  Tree ldp-p2mp-leaf
  Introduced 16.0.R1
 

Platforms

All
[p2mp-id] number
  Synopsis Identifier used for signaling MLDP P2MP LSP
  Context configure router string tunnel-interface ldp-p2mp-leaf number sender-address string
  Max. Range 0 to 4294967295
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
sender-address string
  Synopsis Address of an LDP sender for the P2MP RSVP tunnel interface instance
  Context configure router string tunnel-interface ldp-p2mp-leaf number sender-address string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string tunnel-interface ldp-p2mp-leaf number sender-address string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
ldp-p2mp-root [p2mp-id] number sender-address string
  Synopsis Enter the ldp-p2mp-root list instance
  Context configure router string tunnel-interface ldp-p2mp-root number sender-address string
  Tree ldp-p2mp-root
  Introduced 16.0.R1
 

Platforms

All
[p2mp-id] number
  Synopsis Identifier used for signaling MLDP P2MP LSP
  Context configure router string tunnel-interface ldp-p2mp-root number sender-address string
  Range 1 to 8192
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
sender-address string
  Synopsis Address of an LDP sender for the P2MP RSVP tunnel interface instance
  Context configure router string tunnel-interface ldp-p2mp-root number sender-address string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string tunnel-interface ldp-p2mp-root number sender-address string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
rsvp-p2mp-leaf [lsp-name] string sender-address string
  Synopsis Enter the rsvp-p2mp-leaf list instance
  Context configure router string tunnel-interface rsvp-p2mp-leaf string sender-address string
  Tree rsvp-p2mp-leaf
  Introduced 16.0.R1
 

Platforms

All
[lsp-name] string
  Synopsis LSP name of the P2MP RSVP tunnel interface
  Context configure router string tunnel-interface rsvp-p2mp-leaf string sender-address string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
sender-address string
  Synopsis Address of a sender for the P2MP RSVP tunnel interface instance
  Context configure router string tunnel-interface rsvp-p2mp-leaf string sender-address string
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string tunnel-interface rsvp-p2mp-leaf string sender-address string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All
rsvp-p2mp-root [lsp-name] string
  Synopsis Enter the rsvp-p2mp-root list instance
  Context configure router string tunnel-interface rsvp-p2mp-root string
  Tree rsvp-p2mp-root
  Introduced 16.0.R1
 

Platforms

All
[lsp-name] string
  Synopsis LSP name of the P2MP RSVP tunnel interface
  Context configure router string tunnel-interface rsvp-p2mp-root string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

All
description string
  Synopsis Text description
  Context configure router string tunnel-interface rsvp-p2mp-root string description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R1
 

Platforms

All

twamp-light

  Synopsis Enter the twamp-light context
  Context configure router string twamp-light
  Tree twamp-light
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
reflector
  Synopsis Enable the reflector context
  Context configure router string twamp-light reflector
  Tree reflector
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
admin-state keyword
  Synopsis Administrative state of TWAMP Light functionality
  Context configure router string twamp-light reflector admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
allow-ipv6-udp-checksum-zero boolean
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Process IPv6 packets with a zero UDP checksum
  Context configure router string twamp-light reflector allow-ipv6-udp-checksum-zero boolean
  Tree allow-ipv6-udp-checksum-zero
 

Description

When configured to true, this command allows the processing of IPv6 packets that arrive with a UDP checksum of zero. The destination UDP ports that are registered as TWAMP Test packets as part of this template allow this behavior. 

When configured to false, IPv6 packets that arrive with a UDP checksum of zero are discarded.
  Default false
  Introduced 21.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
description string
  Synopsis Text description
  Context configure router string twamp-light reflector description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
prefix [ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Enter the prefix list instance
  Context configure router string twamp-light reflector prefix (ipv4-prefix | ipv6-prefix)
  Tree prefix
  Max. Instances 50
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
[ip-prefix] (ipv4-prefix | ipv6-prefix)
  Synopsis Source prefix for the TWAMP-Light reflector
  Context configure router string twamp-light reflector prefix (ipv4-prefix | ipv6-prefix)
 

Notes

This element is part of a list key.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
description string
  Synopsis Text description
  Context configure router string twamp-light reflector prefix (ipv4-prefix | ipv6-prefix) description string
  Tree description
  String Length 1 to 80
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
type keyword
  Synopsis Processing behavior type for the reflector
  Context configure router string twamp-light reflector type keyword
  Tree type
 

Description

This command configures the processing behavior of the TWAMP Light reflector. When the value is twamp-light the reflector does not check the received PDU as a traditional base TWAMP Light packet without TLV processing. When the value is stamp, the reflector attempts to find and process supported STAMP TLVs that follow the base STAMP packet. 

In mixed environments where different types of Session-Senders may be targeting a common TWAMP Light reflector, set the value to stamp. When the reflector is operating in stamp mode, the primary parsing is based on STAMP, checking and processing known TLVs, or determining if the arriving PDU is a TWAMP Light PDU. A Session-Sender launching a TWAMP Light-based packet must use all zeros padding pattern when the pad size is non zero.
  Default twamp-light
  Options stamp, twamp-light
  Introduced 22.7.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
udp-port number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis UDP port on which the specified TWAMP-Light reflector listens for TWAMP PDUs
  Context configure router string twamp-light reflector udp-port number
  Tree udp-port
  Range 862 | 64364 to 64373
 

Notes

This element is mandatory.
  Introduced 16.0.R4
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS

vrgw

  Synopsis Enter the vrgw context
  Context configure router string vrgw
  Tree vrgw
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
lanext
  Synopsis Enable the lanext context
  Context configure router string vrgw lanext
  Tree lanext
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of Home LAN Extension
  Context configure router string vrgw lanext admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
vxlan-port number
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis UDP port to be used by local or remote VXLAN VTEP
  Context configure router string vrgw lanext vxlan-port number
  Tree vxlan-port
  Range 4789 | 8472
  Default 4789
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
vxlan-vtep-range
  Synopsis Enter the vxlan-vtep-range context
  Context configure router string vrgw lanext vxlan-vtep-range
  Tree vxlan-vtep-range
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
end (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Upper bound of the VXLAN VTEP range
  Context configure router string vrgw lanext vxlan-vtep-range end (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree end
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
start (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis Lower bound of the VXLAN VTEP range
  Context configure router string vrgw lanext vxlan-vtep-range start (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree start
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
wlan-gw-group reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis WLAN-GW group used for Home LAN Extension
  Context configure router string vrgw lanext wlan-gw-group reference
  Tree wlan-gw-group
 

Reference

configure isa wlan-gw-group number

  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR

weighted-ecmp keyword

  Synopsis Weighted load-balancing capability for ECMP routes
  Context configure router string weighted-ecmp keyword
  Tree weighted-ecmp
  Default false
  Options false, true, strict
  Introduced 16.0.R1
 

Platforms

All

wlan-gw

  Synopsis Enable the wlan-gw context
  Context configure router string wlan-gw
  Tree wlan-gw
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
distributed-subscriber-mgmt
  Synopsis Enter the distributed-subscriber-mgmt context
  Context configure router string wlan-gw distributed-subscriber-mgmt
  Tree distributed-subscriber-mgmt
  Introduced 16.0.R4
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
ipv6-tcp-mss-adjust number
  Synopsis TCP-MSS adjustment value in upstream direction for DSM
  Context configure router string wlan-gw distributed-subscriber-mgmt ipv6-tcp-mss-adjust number
  Tree ipv6-tcp-mss-adjust
  Range 160 to 10240
  Introduced 16.0.R4
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
mobility-triggered-accounting
  Synopsis Enter the mobility-triggered-accounting context
  Context configure router string wlan-gw mobility-triggered-accounting
  Tree mobility-triggered-accounting
  Introduced 16.0.R4
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of mobility triggered accounting
  Context configure router string wlan-gw mobility-triggered-accounting admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R4
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
hold-down number
  Synopsis Hold additional mobility-triggered update until this timer expires
  Context configure router string wlan-gw mobility-triggered-accounting hold-down number
  Tree hold-down
  Range 60 to 86400
  Units seconds
  Introduced 16.0.R4
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
include-counters boolean
  Synopsis Include counters in interim updates
  Context configure router string wlan-gw mobility-triggered-accounting include-counters boolean
  Tree include-counters
  Default false
  Introduced 16.0.R4
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
xconnect
  Synopsis Enter the xconnect context
  Context configure router string wlan-gw xconnect
  Tree xconnect
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the WLAN-GW cross-connect
  Context configure router string wlan-gw xconnect admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
tunnel-source-ip string
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis IPv6 address and prefix for the tunnel source
  Context configure router string wlan-gw xconnect tunnel-source-ip string
  Tree tunnel-source-ip
  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR
wlan-gw-group reference
WARNING:

Modifying this element toggles the admin-state of the parent element automatically for the new value to take effect.
  Synopsis ISA WLAN-GW Group
  Context configure router string wlan-gw xconnect wlan-gw-group reference
  Tree wlan-gw-group
 

Reference

configure isa wlan-gw-group number

  Introduced 16.0.R1
 

Platforms

7750 SR, 7750 SR-e, 7750 SR-s, VSR

wpp

  Synopsis Enable the wpp context
  Context configure router string wpp
  Tree wpp
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of WPP
  Context configure router string wpp admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
portal [name] string
  Synopsis Enter the portal list instance
  Context configure router string wpp portal string
  Tree portal
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
[name] string
  Synopsis Web portal name
  Context configure router string wpp portal string
  String Length 1 to 32
 

Notes

This element is part of a list key.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ack-auth-retry-count number
  Synopsis Number of retransmissions of an ACK_OUT message
  Context configure router string wpp portal string ack-auth-retry-count number
  Tree ack-auth-retry-count
  Range 0 to 5
  Default 5
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
address (ipv4-address-no-zone | ipv6-address-no-zone)
WARNING:

Modifying this element recreates the parent element automatically for the new value to take effect.
  Synopsis WPP portal address
  Context configure router string wpp portal string address (ipv4-address-no-zone | ipv6-address-no-zone)
  Tree address
 

Notes

This element is mandatory.
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
admin-state keyword
  Synopsis Administrative state of the WPP portal server
  Context configure router string wpp portal string admin-state keyword
  Tree admin-state
  Default disable
  Options enable, disable
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ntf-logout-retry-count number
  Synopsis Number of retransmissions of an NTF_LOGOUT message
  Context configure router string wpp portal string ntf-logout-retry-count number
  Tree ntf-logout-retry-count
  Range 0 to 5
  Default 5
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
port-format keyword
  Synopsis Format of the port in the ACK_INO message
  Context configure router string wpp portal string port-format keyword
  Tree port-format
  Default standard
  Options standard, vendor-specific
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
retry-interval number
  Synopsis Time between two consecutive retransmissions
  Context configure router string wpp portal string retry-interval number
  Tree retry-interval
  Range 10 to 2000
  Default 2000
  Units milliseconds
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
secret string
  Synopsis Message authentication between portal and BRAS by applying the secret used by WPPv2
  Context configure router string wpp portal string secret string
  Tree secret
  String Length 1 to 115
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
version number
  Synopsis Protocol version to be expected by the WPP portal
  Context configure router string wpp portal string version number
  Tree version
  Range 1 | 2
  Default 1
  Introduced 16.0.R1
 

Platforms

7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR