19. p Commands
19.1. p2mp
p2mp
Syntax
Context
Full Contexts
Description
This command displays LDP P2MP FEC bindings.
Parameters
ipv4-address | - a.b.c.d |
ipv6-address | - x:x:x:x:x:x:x:x (eight 16-bit pieces) |
x:x:x:x:x:x:d.d.d.d | |
x - [0 to FFFF]H | |
d - [0 to 255]D |
Output
The following show output displays recursive FECs.
Platforms
All
p2mp
Syntax
Context
Full Contexts
Description
Parameters
x:x:x:x:x:x:x:x (eight 16-bit pieces) | |
port-id | |||
aps-group-id[.channel] | |||
keyword | |||
esat-id[/slot/[u]port] | |||
keyword | |||
tsat-id[/slot/[u]port.channel] | |||
keyword | |||
| 1 to 20 | |||
pxc-id.sub-port | |||
keyword | |||
| 1 to 64 | |||
Platforms
All
19.2. p2mp-candidate-path
p2mp-candidate-path
Syntax
Context
Full Contexts
Description
This command displays candidate path information.
Parameters
Platforms
All
19.3. p2mp-info
p2mp-info
Syntax
Context
Full Contexts
Description
This command displays P2MP cross-connect information.
Parameters
Output
The following output is an example of MPLS p2mp information.
Platforms
All
19.4. p2mp-lsp
p2mp-lsp
Syntax
Context
Full Contexts
Description
This command displays MPLS P2MP LSP information.
Parameters
Output
The following output is an example of MPLS p2mp LSP information.
Note that the normal output is in detailed format only. There is no separate detail format.
Platforms
All
19.5. p2mp-policy
p2mp-policy
Syntax
Context
Full Contexts
Description
This command displays the policy information present in the P2MP SR tree database.
Parameters
Output
The following output is an example of P2MP SR tree database policy information.
Platforms
All
p2mp-policy
Syntax
Context
Full Contexts
Description
This command displays the P2MP policy information.
Parameters
Output
The following output is an example of P2MP SR tree policy information.
Platforms
All
19.6. p2mp-sr-tree
p2mp-sr-tree
Syntax
Context
Full Contexts
Description
Commands in this context display P2MP SR tree information.
Platforms
All
19.7. packet
packet
Syntax
Context
Full Contexts
Description
This command displays the OAM egress port finder information for a specific packet.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
19.8. packet-size
packet-size
Syntax
Context
Full Contexts
Description
This command displays packet size distribution for sampled IP traffic. Values are displays in decimal format (1.0 = 100%, .500 = 50%). Separate statistics are maintained and shown for IPv4 and IPv6 traffic.
Output
The following output is an example of cflowd packet size information.
Platforms
All
19.9. parameters
parameters
Syntax
Context
Full Contexts
Description
This command displays configuration information about LDP parameters.
Output
LDP Parameters Output
Table 331 describes the LDP parameters output fields.
Table 331: LDP Parameters Output Fields
Label | Description |
Keepalive Timeout | The time interval (in s), that LDP waits before tearing down a session. If no LDP messages are exchanged during this time interval, the LDP session is torn down. Generally the value is configured to be 3 times the keepalive time (the time interval between successive LDP keepalive messages). |
Timeout Factor | The value by which the keepalive timeout should be divided to give the keepalive time, for example, the time interval (in s), between LDP keepalive messages. LDP keepalive messages are sent to keep the LDP session from timing out when no other LDP traffic is being sent between the neighbors. |
Hold Time | The hello time, also known as hold time. It is the time interval (in s), that LDP waits before declaring a neighbor to be down. Hello timeout is local to the system and is sent in the hello messages to a neighbor. |
Hello Factor | The value by which the hello timeout should be divided to give the hello time, for example, the time interval (in s), between LDP hello messages. LDP uses hello messages to discover neighbors and to detect loss of connectivity with its neighbors. |
Auth | Enabled — Authentication using MD5 message based digest protocol is enabled. Disabled — No authentication is used. |
Admin Status | inService — The LDP is administratively enabled. outService — The LDP is administratively disabled. |
Deaggregated FECs | False — LDP aggregates multiple prefixes into a single Forwarding Equivalence Class (FEC) and advertises a single label for the FEC. This value is only applicable to LDP interfaces and not for targeted sessions. True — LDP de-aggregates prefixes into multiple FECs. |
Propagate Policy | The Propagate Policy value specifies whether the LSR should generate FECs and which FECs it should generate. system — LDP will distribute label bindings only for the router's system IP address. interface — LDP will distribute label bindings for all LDP interfaces. all — LDP will distribute label bindings for all prefixes in the routing table. none — LDP will not distribute any label bindings. |
Transport Address | interface — The interface's IP address is used to set up the LDP session between neighbors. If multiple interfaces exist between two neighbors, the 'interface' mode cannot be used since only one LDP session is actually set up between the two neighbors. system — The system's IP address is used to set up the LDP session between neighbors. |
Label-Retention | liberal — All advertised label mappings are retained whether they are from a valid next hop or not. When the label distribution value is downstream unsolicited, a router may receive label bindings for the same destination for all its neighbors. Labels for the non-next hops for the FECs are retained in the software but not used. When a network topology change occurs where a non-nexthop becomes a true next hop, the label received earlier is then used. conservative — Advertised label mappings are retained only if they will be used to forward packets; for example, if the label came from a valid next hop. Label bindings received from non-next hops for each FEC are discarded. |
Control Mode | ordered — Label bindings are not distributed in response to a label request until a label binding has been received from the next hop for the destination. independent — Label bindings are distributed immediately in response to a label request even if a label binding has not yet been received from the next hop for the destination. |
Route Preference | The route preference assigned to LDP routes. When multiple routes are available to a destination, the route with the lowest preference will be used. This value is only applicable to LDP interfaces and not for targeted sessions. |
Loop Detection | none — Loop detection is not supported on this router. This is the only valid value since Path Vector based loop detection is not supported. other — Loop detection is supported but by a method other than hopCount, pathVector, or hopCountAndPathVector. hopCount — Loop detection is supported by hop count only. pathVector — Loop detection is supported by path vector only. hopCountAndPathVector — Loop detection is supported by both path vector and hop count. |
Keepalive Timeout | The factor used to derive the Keepalive interval. |
Keepalive Factor | The time interval (in s), that LDP waits before tearing down the session. |
Hold-Time | The time left before a neighbor is declared to be down. |
Hello Factor | The value by which the hello timeout should be divided to give the hello time, for example, the time interval (in s), between LDP hello messages. LDP uses hello messages to discover neighbors and to detect loss of connectivity with its neighbors. |
Auth | Enabled — Authentication using MD5 message based digest protocol is enabled. Disabled — No authentication is used. |
Passive-Mode | true — LDP responds only when it gets a connect request from a peer and will not attempt to actively connect to its neighbors. false — LDP actively tries to connect to its peers. |
Targeted-Sessions | true — Targeted sessions are enabled. false — Targeted sessions are disabled. |
Platforms
All
19.10. partition
partition
Syntax
Context
Full Contexts
Description
This command displays partition information.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
19.11. password-options
password-options
Syntax
Context
Full Contexts
Description
This command displays configured password options.
Output
The following output is an example of password options information, and Table 332 describes the output fields.
Table 332: Show Password Options Output Fields
Label | Description |
Password aging in days | Displays the number of days a user password is valid before the user must change their password. |
Time required between password changes | Displays the time interval between changed passwords. |
Number of invalid attempts permitted per login | Displays the number of unsuccessful login attempts allowed for the specified time. |
Time in minutes per login attempt | Displays the period of time, in minutes, that a specified number of unsuccessful attempts can be made before the user is locked out. |
Lockout period (when threshold breached) | Displays the number of minutes that the user is locked out if the threshold of unsuccessful login attempts has been exceeded. |
Authentication order | Displays the sequence in which password authentication is attempted among RADIUS, TACACS+, and local passwords. |
User password history length | Displays the size of the password history file to be stored. |
Password hashing | Displays the system hashing algorithm for passwords. |
Accepted password length | Displays the minimum length required for local passwords. |
Credits for each character type | Displays the credit for each character type. A credit is obtained for a particular character type; for example, uppercase, lowercase, numeric, or special character. Credits per character type are configurable. Credits can be used towards the minimum length of the password, so a trade-off can be made between a very long, simple password and a short, complex one. |
Required character types | Displays the character types that are required in a password; for example, uppercase, lowercase, numeric, or special character. |
Minimum number different character types | Displays the minimum number of each different character types in a password. |
Required distance with previous password | Displays the minimum Levenshtein distance between a new password and the old password. |
Allow consecutively repeating a character | Displays the number of times the same character is allowed to be repeated consecutively. |
Allow passwords containing username | Displays whether the user name is allowed as part of the password. |
Palindrome allowed | Displays whether palindromes are allowed as part of the password. |
Platforms
All
password-options
Syntax
Context
Full Contexts
Description
This command displays password options.
Output
The following is an example of password option information.
Table 333 describes password-options output fields.
Table 333: Show Password-Options Output Fields
Label | Description |
Password aging in days | Displays the number of days a user password is valid before the user must change his password. |
Number of invalid attempts permitted per login | Displays the maximum number of unsuccessful login attempts allowed for a user. |
Time in minutes per login attempt | Displays the time in minutes that user is to be locked out. |
Lockout period (when threshold breached) | Displays the number of minutes the user is locked out if the threshold of unsuccessful login attempts has exceeded. |
Authentication order | Displays the most preferred method to authenticate and authorize a user. |
User password hashing algorithm | Displays the algorithm with which the system hashes the user passwords. |
Configured complexity options | Displays the complexity requirements of locally administered passwords, HMAC-MD5-96, HMAC-SHA-96 and DES-keys configured in the authentication section. |
Minimum password length | Displays the minimum number of characters required in the password. |
Platforms
All
19.12. path
path
Syntax
Context
Full Contexts
Description
This command displays GMPLS path information.
Parameters
Platforms
7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
path
Syntax
Context
Full Contexts
Description
This command dumps information about paths. Configuring the path-name parameter will only dump information about the specified path.
Parameters
Output
The following output is an example of path information.
Platforms
7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
path
Syntax
Context
Full Contexts
Description
This command displays MPLS paths.
Parameters
Output
The following output is an example of MPLS path information.
Table 334 describes MPLS Path output fields.
Table 334: MPLS Path Output Fields
Label | Description |
Path Name | The unique name label for the LSP path. |
Adm | Down — The path is administratively disabled. Up — The path is administratively enabled. |
Hop Index | The value used to order the hops in a path. |
IP Address | The IP address of the hop that the LSP should traverse on the way to the egress router. |
Strict/Loose | Strict — The LSP must take a direct path from the previous hop router to the next router. Loose — The route taken by the LSP from the previous hop to the next hop can traverse through other routers. |
LSP Name | The name of the LSP used in the path. |
Binding | Primary — The preferred path for the LSP. Secondary — The standby path for the LSP. |
Paths | Total number of paths configured. |
Platforms
All
19.13. path-request
path-request
Syntax
Context
Full Contexts
Description
This command displays the PCEP path request information.
Parameters
 | Note: The LSP type, rsvp-p2mp, is not supported for PCE controlled or PCE initiated LSPs. |
Platforms
All
19.14. paths
paths
Syntax
Context
Full Contexts
Description
This command displays a summary of BGP path attributes.
Output
Table 335: Show Router BGP Path Field Descriptions
Label | Description |
BGP Router ID | The local BGP router ID. |
AS | The configured autonomous system number. |
Local AS | The configured local AS setting. If not configured, then the value is the same as the AS. |
Path | The AS path attribute. |
Origin | EGP — The NLRI is learned by an EGP protocol. IGP — The NLRI is interior to the originating AS. INCOMPLETE — NLRI was learned another way. |
Next Hop | The advertised BGP nexthop. |
MED | The Multi-Exit Discriminator value. |
Local Preference | The local preference value. |
Refs | The number of routes using a specified set of path attributes. |
ASes | The number of autonomous system numbers in the AS path attribute. |
Segments | The number of segments in the AS path attribute. |
Flags | EBGP-learned — Path attributes learned by an EBGP peering. IBGP-Learned — Path attributes learned by an IBGP peering. |
Aggregator | The route aggregator ID. |
Community | The BGP community attribute list. |
Originator ID | The originator ID path attribute value. |
Cluster List | The route reflector cluster list. |
Platforms
All
19.15. pattern-match
pattern-match
Syntax
Context
Full Contexts
Description
This command displays pattern match records.
Parameters
Output
The following output is an example of detailed pattern match records.
Platforms
All
19.16. pbb base
pbb base
Syntax
Context
Full Contexts
Description
This command displays information about a PBB base.
Output
The following output is an example of PBB base information.
19.17. pbb mac-name
pbb mac-name
Syntax
Context
Full Contexts
Description
This command displays information on a specific MAC name.
Parameters
Output
The following output is an example of PBB MAC information.
19.18. pbr-steering
pbr-steering
Syntax
Context
Full Contexts
Description
This command displays PBR steering VAS interfaces with VAS interface type configuration.
Output
The following output is an example of router PBR steering VAS interfaces information.
Platforms
All
19.19. pcap
pcap
Syntax
Context
Full Contexts
Description
This command shows the information about the packet capture session and confirms if the packet is reliable.
Parameters
Output
The following output displays information about the packet capture session.
Table 336: Show PCAP Output Fields
Label | Description |
Buffer Size | The maximum buffer size is 20 Mb. If the number of packets in the buffer exceeds 20 Mb, packets are dropped. |
File Size | The current size of the capture file. |
Write Failures | The number of errors that occurred when packets were written into the buffer. A number greater than zero indicates that some packets were not captured. |
Read Failures | The errors occurred when packets were read from the buffer for exporting to FTP or TFTP. A number greater than zero indicates that some packets were not captured. |
Process Time Bailouts | A system process timeout. Some packets were not captured. |
Dropped Packets | The number of packets dropped from the buffer due to errors. |
Platforms
All
19.20. pcc
pcc
Syntax
Context
Full Contexts
Description
Commands in this context clear PCEP PCC related data.
Platforms
All
pcc
Syntax
Context
Full Contexts
Description
Commands in this context display PCEP PCC related information.
Platforms
All
pcc
Syntax
Context
Full Contexts
Description
This command deletes all PCE-initiated LSPs on the PCC. This command is applicable whether or not PCEP is up. The PCC informs the PCE when this command is performed by sending a PCRpt with the R flag of the LSP object set to 1 to indicate that the LSP has been removed.
pcc
Syntax
Context
Full Contexts
Description
Commands in this context dump tools for PCEP PCC.
Platforms
All
19.21. pcc-rule
pcc-rule
Syntax
Context
Full Contexts
Description
This command displays a list of PCC rules and associated monitoring keys in the system.
Parameters
Output
The following is an example of subscriber management PCC rule information.
Table 337 describes subscriber management PCC rule output fields.
Table 337: Policy and Charging Control Rule Field Descriptions
Field | Description |
Nbr Active PCC Rules | The number of active PCC rules |
Nbr Active Combinations | The number of active IP PCC rule combinations |
IPv4 Filter | The number of IPv4 filter combinations |
IPv6 Filter | The number of IPv6 filter combinations |
Egress QoS | The number of active egress QoS PCC rule combinations |
Ingress QoS | The number of active ingress QoS PCC rule combinations |
Id | The PCC ID |
Dir | The flow direction on which the PCC-rule acts |
ForwardAction | The filter action of the PCC-rule |
QosAction | The Qos action of the PCC-rule. The value account(3) is only relevant if the PCC-rule was received by the system as part of a RADIUS Subscriber Service attribute |
name | The PCC rule name |
monitorKey | The monitor key name that can be received in a PCC rule. An empty string (length 0) indicates that no monitor key is defined in the PCC rule |
PCC rule name | The name of a PCC rule |
PCC rule id | The PCC rule ID |
Monitoring key | The monitoring key defined in this PCC-rule. This value is only considered if monitor is set in the QoS action. |
Flow status | The PCC rule flow status; enabled or disabled |
Nbr of Flows | The number of flow rules defined in this PCC rule |
HTTP-Redirect | The URL to which all data flows that pertain to this PCC-rule must be redirected |
Next-Hop Redir. IPv4 | The IPv4 address to which all IPv4 data flows that pertain to this PCC-rule be redirected |
Next-Hop Redir. IPv6 | The IPv6 address to which all IPv6 data flows that pertain to this PCC-rule be redirected |
QoS Ingr. CIP/PIR | The ingress QoS CIP and PIR values |
QoS Egr. CIP/PIR | The egress QoS CIP and PIR values |
FC change | The forwarding class (FC) that is assigned to all data flows that pertain to this PCC-rule |
Src. IP | The address type of the source address |
Src. Port | The port type of the source address |
Dst. IP | The address type of the destination address |
Protocol | The IPv4 protocol value, and for IPv6 the next header type used in the match criteria for this flow
|
DSCP | The DSCP to be matched for this flow |
Subscriber | The subscriber SAP |
SLA Profile Instance sap | The SLA profile instance SAP |
Ingr QoS Policy Override | The ID of the overriding ingress Qos policy |
Egr QoS Policy Override | The ID of the overriding egress Qos policy |
IP Address | The subscriber IP address |
MAC Address | The subscriber MAC address |
PPPoE-SID | The PPPoE session ID of this subscriber host |
Origin | The origin of this subscriber host |
Preference | The preference with respect to other PCC rules |
Rule ID | The PCC rule ID |
Rule Name | The PCC rule name |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pcc-rule
Syntax
Context
Full Contexts
Description
This command specifies the PCC rule.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.22. pce-associations
pce-associations
Syntax
Full Contexts
Description
Commands in this context display information about PCE associations configured under the PCC.
Platforms
All
19.23. pcep
pcep
Syntax
Context
Full Contexts
Description
Commands in this context clear PCEP related data.
Platforms
All
pcep
Syntax
Context
Full Contexts
Description
Commands in this context display PCEP related information.
Platforms
All
pcep
Syntax
Context
Full Contexts
Description
This command enters the context for PCEP-related tools perform commands.
pcep
Syntax
Context
Full Contexts
Description
Commands in this context dump tools for PCEP.
Platforms
All
19.24. pcm
pcm
Syntax
Context
Full Contexts
Description
This command displays PCM information.
Parameters
Output
The following output shows PCM information.
19.25. pcp-server
pcp-server
Syntax
Context
Full Contexts
Description
This command displays PCP server information.
Parameters
Output
The following outputs are examples of router PCP server information.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
pcp-server
Syntax
Context
Full Contexts
Description
This command clears NAT PCP server data.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
pcp-server
Syntax
Context
Full Contexts
Description
This command configures performance tools for a specified NAT port control policy server.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
19.26. pcp-server-policy
pcp-server-policy
Syntax
Context
Full Contexts
Description
This command displays PCP server policy information.
19.27. pcs
pcs
Syntax
Context
Full Contexts
Description
This command dumps the Physical Coding Sublayer (PCS) information for the port.
Platforms
All
19.28. peak
peak
Syntax
Context
Full Contexts
Description
Parameters
Platforms
VSR
19.29. peakvalue-stats
peakvalue-stats
Syntax
Context
Full Contexts
Description
This command resets the most recent peak enhanced subscriber management counter per port, PW port, MDA, IOM, system, service, subscriber interface, or group interface.
| Note: Clearing one counter will not impact other counters. For example, clearing the most recent peak value for an IOM will not impact chassis peak value. |
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.30. peer
peer
Syntax
Context
Full Contexts
Description
This command displays GTP peer information.
Parameters
ipv4-address: | a.b.c.d |
ipv6-address: | x:x:x:x:x:x:x:x (eight 16-bit pieces) |
x:x:x:x:x:x:d.d.d.d | |
x - [0 to FFFF]H | |
d - [0 to 255]D |
ipv4-address: | a.b.c.d |
ipv6-address: | x:x:x:x:x:x:x:x (eight 16-bit pieces) |
x:x:x:x:x:x:d.d.d.d | |
x - [0 to FFFF]H | |
d - [0 to 255]D |
Output
The following is an example of peer GTP information.
Platforms
7750 SR, 7750 SR-e, 7750 SR-s, VSR
peer
Syntax
Context
Full Contexts
Description
This command clears all states for a given peer in this routing context. The system no longer sends keep-alive messages to the peer, and all active sessions are terminated.
If the optional statistics parameter is specified, only the peer statistics are cleared and all sessions remain.
Parameters
ipv4-address: | a.b.c.d (host bits must be 0) |
ipv6-address: | x:x:x:x:x:x:x:x (eight 16-bit pieces) |
x:x:x:x:x:x:d.d.d.d | |
x - [0 to FFFF]H | |
d - [0 to 255]D |
Platforms
7750 SR, 7750 SR-e, 7750 SR-s, VSR
peer
Syntax
Context
Full Contexts
Description
This command displays information regarding all configured L2TP peers.
If this command is executed without specifying a peer IP address, then a list of all L2TP peers are listed along with the type of transport used and statistics on the total number of tunnels and sessions, as well as the number of active tunnels and sessions.
If this command is executed with a specific peer IP address, then a detailed view for that peer is displayed.
Parameters
Output
The following output is an example of L2TP peer operational information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer
Syntax
Context
Full Contexts
Description
This command displays L2TP peer operational information.
Parameters
ipv4-address | a.b.c.d |
ipv6-address | x:x:x:x:x:x:x:x (eight 16-bit pieces) |
x:x:x:x:x:x:d.d.d.d | |
x - [0 to FFFF]H | |
d - [0 to 255]D | |
draining | keyword |
statistics | keyword |
port | [1 to 65535] |
Output
The following output is an example of L2TP peer information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer
Syntax
Context
Full Contexts
Description
This command clears L2TP peer data.
Parameters
ipv4-address: | a.b.c.d | |
ipv6-address: | x:x:x:x:x:x:x:x (eight 16-bit pieces) | |
x:x:x:x:x:x:d.d.d.d | ||
x: | [0 to FFFF]H | |
d: | [0 to 255]D | |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer
Syntax
Context
Full Contexts
Description
This command configures performance tools for an L2TP peer.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer
Syntax
Context
Full Contexts
Description
This command displays RIP peer information.
Parameters
Output
Table 338 describes the command output fields for a RIP peer.
Table 338: RIP Peer Output Fields
Label | Description |
Peer IP Addr | The IP address of the peer router. |
Interface Name | The peer interface name. |
Version | The version of RIP running on the peer. |
Last Update | The number of days since the last update. |
No. of Peers | The number of RIP peers. |
The following output is an example of RIP peer information.
Platforms
All
peer
Syntax
Context
Full Contexts
Description
This command displays GMPLS peer information.
Parameters
Platforms
7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
peer
Syntax
Context
Full Contexts
Description
This command displays LMP peer information.
Parameters
Output
The following output is an example of peer information, and Table 339 describes the peer output fields.
Table 339: Peer Output Fields
Label | Description |
Admin State | The administrative state of the LMP peer node. |
Oper State | The operational state of the LMP peer node. |
Retrans Intvl | The configured interval between resubmitted LMP messages. |
Retry Limit | The configured number of times LMP resends a message before restarting the process. |
Platforms
7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
peer
Syntax
Context
Full Contexts
Description
This command restarts or clears statistics for the GMPLS peer.
Parameters
Platforms
7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
peer
Syntax
Context
Full Contexts
Description
This command dumps information about peer nodes. Configuring the peer-node-id parameter will only dump information about the specified peer node.
Parameters
Output
The following output is an example of peer information.
Platforms
7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
peer
Syntax
Context
Full Contexts
Description
This command dumps information about a specific LMP peer.
Parameters
Platforms
7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
peer
Syntax
Context
Full Contexts
Description
This command restarts or clears statistics for LDP targeted peers.
Parameters
Platforms
All
peer
Syntax
Context
Full Contexts
Description
This command dumps information for an LDP peer.
Platforms
All
peer
Syntax
Context
Full Contexts
Description
This command displays the PCEP peer information.
Parameters
Output
PCEP Peer Output
Table 340 describes PCEP Peer output fields.
Table 340: PCEP Peer Output Fields
Label | Description |
IP Address | Specifies the IP address. |
Peer Capabilities | Specifies the peer capabilities. |
Speaker ID | Specifies the sender IP address. |
Sync State | Specifies the synchronization state. |
Peer Overload | Specifies the peer overload. |
Session Establish Time | Specifies the session establish time. |
Oper Keepalive | Specifies the operational keepalive value. |
Oper DeadTimer | Specifies the operational dead timer value. |
Platforms
All
peer
Syntax
Context
Full Contexts
Description
This command displays information about an MSDP peer.
Parameters
Output
The following is an example of MSDP peer information. Table 341 provides MSDP field descriptions.
Table 341: MSDP Fields
Label | Description |
Peer | The IP address of the peer. |
Local Address | The local IP address. |
State | The current state of the peer. |
Last State Change | The date and time of the peer’s last state change. |
SA Learn | The number of SAs learned through a peer. |
Platforms
All
peer
Syntax
Context
Full Contexts
Description
This command displays information for a specific peer.
Parameters
Output
The following output is an example of PTP information for a single peer.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
peer
Syntax
Context
Full Contexts
Description
This command clears multi-chassis ring peer statistics.
Parameters
- x:x:x:x:x:x:x:x (eight 16-bit pieces)
- x:x:x:x:x:x:d.d.d.d
- x – [0 to FFFF] H
- d – [0 to 255] D
Platforms
All
peer
Syntax
Context
Full Contexts
Description
This command clears PTP peer information.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
peer
Syntax
Context
Full Contexts
Description
This command displays RIPng peer information.
Parameters
Output
The following is an example of RIPng peer information.
Platforms
All
peer
Syntax
Context
Full Contexts
Description
This command displays connectivity details for a specific PFCP connection to a peer and the PFCP association to which the peer is linked. Multiple connections can exist per PFCP association.
Parameters
Output
The following example shows output of the show subscriber-mgmt PFCP peer command.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
peer
Syntax
Context
Full Contexts
Description
This command clears PTP peer information.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
peer
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
peer
Syntax
Context
Full Contexts
Description
Parameters
Platforms
All
19.31. peer-profile
peer-profile
Syntax
Context
Full Contexts
Description
This command displays GTP peer profile information.
Parameters
Output
The following is an example of GTP peer profile information.
Platforms
7750 SR, 7750 SR-e, 7750 SR-s, VSR
19.32. peer-profile-map
peer-profile-map
Syntax
Context
Full Contexts
Description
This command displays the peer profile mapping that is used to connect to S11 peers.
Output
The following is an example of GTP peer profile map information.
Platforms
7750 SR, 7750 SR-e, 7750 SR-s, VSR
peer-profile-map
Syntax
Context
Full Contexts
Description
Platforms
7750 SR, 7750 SR-e, 7750 SR-s, VSR
19.33. peers
peers
Syntax
Context
Full Contexts
Description
This command displays summary information for all the PTP peers.
Parameters
Output
The following output is an example of PTP information for all peers.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
19.34. peq
peq
Syntax
Context
Full Contexts
Description
This command displays APEQ information.
Parameters
Output
The following outputs are examples of PEQ information, and Table 342 describes the output fields.
In the following example, the entries for PEQ 2 to PEQ 11 are not shown.
Table 342: Output Fields: show peq
Label | Description |
Slot | The number of the slot in which the APEQ is installed. |
Provisioned Type Equipped Type (if different) | The APEQ type provisioned. |
Admin State | The administrative state. |
Operational State | The operational state. |
Input | Specifies the input battery feed: A, or B. |
Zone | Specifies the chassis power zone. |
Hardware Data: | |
Part number | The APEQ part number. |
CLEI code | The APEQ CLEI code. |
Serial number | The APEQ serial number. |
Manufacture date | The date the APEQ was manufactured. |
Manufacturing deviations | Specifies any manufacturing deviations. |
Manufacturing assembly number | The APEQ assembly number. |
Administrative state | Specifies the administrative state of the APEQ. |
Operational state | Specifies the operational state of the APEQ. |
Time of last boot | Indicates the time stamp of the last system restart. |
Current alarm state | Indicates the current alarm state. |
Platforms
7750 SR-12e, 7750 SR-s, 7950 XRS
19.35. per-link-hash
per-link-hash
Syntax
Context
Full Contexts
Description
Parameters
Platforms
All
19.36. per-peer-queuing
per-peer-queuing
Syntax
Context
Full Contexts
Description
This command enables or disables CPM hardware queuing per peer. TTL security only operates when per-peer-queuing is enabled.
Output
The following is an example of per peer queuing information.
Table 343 describes per-peer-queuing output fields.
Table 343: Show Per-Peer-Queuing Output Fields
Label | Description |
Per Peer Queuing | Displays the status (enabled or disabled) of CPM hardware queuing per peer. |
Total Num of Queues | Displays the total number of hardware queues. |
Num of Queues In Use | Displays the total number of hardware queues in use. |
Platforms
All
per-peer-queuing
Syntax
Context
Full Contexts
Description
This command displays the number of queues in use by the Qchip, which in turn is used by PPQ, CPM filter, SAP, and so on.
Output
The following is an example of per peer queuing information.
Table 344 describes the per-peer-queuing output fields.
Table 344: Show per-peer-queuing Output Fields
Label | Description |
Per Peer Queuing | Displays whether per-peer-queuing is enabled or disabled. When enabled, a peering session is established and the router will automatically allocate a separate CPM hardware queue for that peer. When disabled, no hardware queuing per peer occurs. |
Total Num of Queues | Displays the total number of CPM hardware queues. |
Num of Queues In Use | Displays the number of CPM hardware queues that are in use. |
Platforms
All
19.37. perform
perform
Syntax
Context
Full Contexts
Description
Platforms
All
19.38. performance
performance
Syntax
Context
Full Contexts
Description
This command generates an overview of the processing load and data processed by the specified ISA over a period of time. The following time periods are supported:
- last minute with seconds granularity
- last hour with minutes granularity
- last day with hours granularity
- last day with days granularity
Parameters
Output
This command displays performance information.
Platforms
7750 SR, 7750 SR-e, 7750 SR-s
performance
Syntax
Context
Full Contexts
Description
This command generates an overview of the processing load and data processed by the specified ISA over a period of time. The following time periods are supported:
- last minute with seconds granularity
- last hour with minutes granularity
- last day with hours granularity
- last 31 days with days granularity
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
19.39. persistence
persistence
Syntax
Context
Full Contexts
Description
Commands in this context configure downgrade parameters.
Platforms
All
19.40. persistent
persistent
Syntax
Context
Full Contexts
Description
Commands in this context display persistent telemetry information.
Platforms
All
19.41. pfcp
pfcp
Syntax
Context
Full Contexts
Description
Commands in this context display all related PFCP information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.42. pfcp-association
pfcp-association
Syntax
Context
Full Contexts
Description
This command clears all message statistics associated with the specified PFCP association.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.43. pfcp-session
pfcp-session
Syntax
Context
Full Contexts
Description
This command locally clears a PFCP session, either by providing the session ID or the associated SAP ID and MAC address.
| Note: This command does not delete the session on the BNG CPF and should only be used as a last attempt to delete the PFCP sessions. It is always recommended to first attempt to gracefully delete the session from the BNG CPF. |
Parameters
null | port-id | bundle-id | bpgrp-id | lag-id | aps-id | ||
dot1q | port-id | bundle-id | bpgrp-id | lag-id | aps-id | pw-id | eth-sat-id:[qtag1 | cp-conn-prof-id] | ||
qinq | port-id | bundle-id | bpgrp-id | lag-id | pw-id | eth-sat-id:[qtag1 cp-conn-prof-id].[qtag2 | cp-conn-prof-id] | ||
cp | keyword | ||
conn-prof-id | 1 to 8000 | ||
atm | port-id | aps-id [:vpi/vci | vpi | vpi1.vpi2 | cp.conn-prof-id] | ||
cp | keyword | ||
conn-prof-id | 1 to 8000 | ||
frame | port-id | aps-id:dlci | ||
cisco-hdlc | slot/mda/port.channel | ||
cem | slot/mda/port.channel | ||
ima-grp | bundle-id [:vpi/vci | vpi | vpi1.vpi2 | cp.conn-prof-id] | ||
cp | keyword | ||
conn-prof-id | 1 to 8000 | ||
port-id | slot/mda/port[.channel] | ||
bundle-id | bundle-type-slot/mda.-bundle-num | ||
bundle | keyword | ||
type | ima | fr | ppp | ||
bundle-num | 1 to 336 | ||
bpgrp-id | bpgrp-type-bpgrp-num | ||
bpgrp | keyword | ||
type | ima | ppp | ||
bgrp-num | 1 to 2000 | ||
aps-id | aps-group-id[.channel] | ||
aps | keyword | ||
group-id | 1 to 128 | ||
eth-tunnel | eth-tunnel-id[:eth-tun-sap-id] | ||
id | 1 to 1024 | ||
eth-tun-sap-id | 0 to 4094 | ||
lag-id | lag-id | lag-string | ||
lag | keyword | ||
id | 1 to 800 | ||
string | 23 characters max | ||
pw-id | pw-id | ||
pw | keyword | ||
id | 1 to 32767 | ||
qtag1 | * | 0 to 4094 | ||
qtag2 | * | null | 0 to 4094 | ||
vpi | 0 to 4095 (NNI) | ||
0 to 255 (UNI) | |||
vci | 1 | 2 | 5 to 65535 | ||
dlci | 16 to 1022 | ||
tunnel-id | tunnel-id.private | public:tag | ||
tunnel | keyword | ||
id | 1 to 16 | ||
tag | 0 to 4094 | ||
eth-sat-id | esat-id / slot / port | ||
esat | keyword | ||
id | 1 to 20 | ||
pxc-id | pxc-id.sub-port | ||
pxc | keyword | ||
id | 1 to 64 | ||
sub-port | a, b | ||
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.44. pim
pim
Syntax
Context
Full Contexts
Description
Commands in this context clear and reset PIM entities.
Platforms
All
pim
Syntax
Context
Full Contexts
Description
Commands in this context display PIM related information.
Platforms
All
pim
Syntax
Context
Full Contexts
Description
This command enables tools to perform certain PIM tasks.
Platforms
All
pim
Syntax
Context
Full Contexts
Description
This command monitors commands for the PIM instance.
Platforms
All
19.45. pim-policy
pim-policy
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.46. pim-snooping
pim-snooping
Syntax
Context
Full Contexts
Description
Commands in this context display PIM snooping information.
Platforms
All
pim-snooping
Syntax
Context
Full Contexts
Description
Commands in this context clear PIM snooping information.
Platforms
All
19.47. ping-template
ping-template
Syntax
Context
Full Contexts
Description
This command displays a summary of configured ping templates and the total number service interfaces that reference the template. By specifying template name, the values for the specified interface and the total and active references for that specific template are displayed.
Parameters
Output
The following output is an example of ping template information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
19.48. ping-template-sync
ping-template-sync
Syntax
Context
Full Contexts
Description
This command updates all values for service IP interfaces that reference the specified config>test-oam>icmp>ping-template template-name. Changes to the ping-template in this context are not automatically pushed to service IP interfaces. Values imported by the service interface are those configured when the service IP interface referenced the ping- template.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
19.49. ping-template-using
ping-template-using
Syntax
Context
Full Contexts
Description
This command displays information about service IP interfaces that reference a ping template, the associated router instance, and the administrative state of the ping template under that interface.
Parameters
Output
The following output is an example ping template output information.
Table 345 describes ping template fields.
Table 345: Show test-oam icmp ping-template-using Output Fields
Template Name | The template name |
Router Instance | The router instance name |
Admin | The administrative state |
Interface Name | The interface name |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
19.50. pip
pip
Syntax
Context
Full Contexts
Description
This command clears the Provider Internal Port statistics for this service.
Platforms
All
19.51. plr
plr
Syntax
Context
Full Contexts
Description
Dump the Point of Local Repair (PLR) information for the MPLS bypass tunnel.
Output
The following output is an example of MPLS Bypass Tunnels PLR fields.
19.52. policer
policer
Syntax
Context
Full Contexts
Description
This command displays application-assurance policer information.
Parameters
Output
The following is an example show output for the policer command.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
policer
Syntax
Context
Full Contexts
Description
This command displays rates for the policer for a specific day and time.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
policer
Syntax
Context
Full Contexts
Description
Platforms
All
19.53. policer-control-policy
policer-control-policy
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, 7950 XRS, VSR
19.54. policer-hierarchy
policer-hierarchy
Syntax
Context
Full Contexts
Description
This command displays policer hierarchy information.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, 7950 XRS, VSR
19.55. policers
policers
Syntax
Context
Full Contexts
Description
This command displays policer configuration information.
Output
The following is an example output for the policers command.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
19.56. policy
policy
Syntax
Context
Full Contexts
Description
Commands in this context display application-assurance policy configuration information.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
policy
Syntax
Context
Full Contexts
Description
This command displays MCAC policy information.
Parameters
Output
The following displays MCAC policy information.
Platforms
All
policy
Syntax
Context
Full Contexts
Description
This command displays configured policy statement information.
Parameters
| Note: This parameter is not available in the MD-CLI. |
| Note: This parameter is not available in the MD-CLI. |
Output
Table 346 describes route policy output fields.
Table 346: Route Policy Output Fields
Label | Description |
Policy | Displays a list of route policy names. |
Description | Displays the description of each route policy. |
Policies | The total number of policies configured. |
The following route policy commands are displayed with different command parameter options:
- show router policy
- show router policy admin
- show router policy “BGP to RIP”
- show router policy damping
- show router policy “pol1” sub-pol entry 10 name “pol2”
The following output is an example of route policy information.
The show router policy command displays all configured route policies.
The show router policy admin command is similar to the info command which displays information about the route policies and parameters.
The show router policy name command displays information about a specific route policy.
show router policy “BGP To RIP”
The show router policy damping command displays information about the route policy damping configurations.
A:ALA-1# show router policy damping
The show router policy name sub-policy entry entry-id name subpol-name command displays information about the subroutine called by an entry of the route policy. In the following sample output, the term “telnet” is the value of a variable.
Platforms
All
policy
Syntax
Context
Full Contexts
Description
This command displays VRRP priority control policy information.
If no command line options are specified, a summary of the VRRP priority control event policies displays.
Parameters
Output
VRRP Policy Output — The following output is an example of VRRP policy information, and Table 347 describes the fields.
Table 347: Show VRRP Policy Output Fields
Label | Description |
Policy Id | The VRRP priority control policy associated with the VRRP virtual router instance A value of 0 indicates that no control policy is associated with the virtual router instance |
Current Priority & Effects | |
Current Explicit | When multiple explicitly defined events associated with the priority control policy happen simultaneously, the lowest value of all the current explicit priorities will be used as the in-use priority for the virtual router |
Current Delta Sum | The sum of the priorities of all the delta events when multiple delta events associated with the priority control policy happen simultaneously; this sum is subtracted from the base priority of the virtual router to give the in-use priority |
Delta Limit | The delta-in-use-limit for a VRRP policy; once the total sum of all delta events has been calculated and subtracted from the base-priority of the virtual router, the result is compared to the delta-in-use-limit value; if the result is less than this value, the delta-in-use-limit value is used as the virtual router in-use priority value; if an explicit priority control event overrides the delta priority control events, the delta-in-use-limit has no effect If the delta-in-use-limit is 0, the sum of the delta priority control events to reduce the virtual router's in-use-priority to 0 can prevent it from becoming or staying master |
Current Priority | The configured delta-in-use-limit priority for a VRRP priority control policy or the configured delta or explicit priority for a priority control event |
Applied | The number of virtual router instances to which the policy has been applied; the policy cannot be deleted unless this value is 0 |
Description | A text string which describes the VRRP policy |
Event Type & ID | A delta priority event is a conditional event defined in a priority control policy that subtracts a given amount from the base priority to give the current in-use priority for the VRRP virtual router instances to which the policy is applied An explicit priority event is a conditional event defined in a priority control policy that explicitly defines the in-use priority for the VRRP virtual router instances to which the policy is applied Explicit events override all delta events; when multiple explicit events occur simultaneously, the event with the lowest priority value defines the in-use priority |
Event Oper State | The operational state of the event |
Hold Set Remaining | The amount of time that must pass before the set state for a VRRP priority control event can transition to the cleared state to dampen flapping events |
Priority & Effect | Delta — the priority-level value is subtracted from the associated virtual router instance’s base priority when the event is set and no explicit events are set; the sum of the priority event priority-level values on all set delta priority events are subtracted from the virtual router base priority to derive the virtual router instance in-use priority value If the delta priority event is cleared, the priority-level is no longer used in the in-use priority calculation |
Explicit — the priority-level value is used to override the base priority of the virtual router instance if the priority event is set and no other explicit priority event is set with a lower priority-level The set explicit priority value with the lowest priority-level determines the actual in-use protocol value for all virtual router instances associated with the policy | |
In Use | Specifies whether the event is currently affecting the in-use priority of some virtual router |
VRRP Policy Event Output — The following output is an example of VRRP policy event information, and Table 348 describes the fields.
Table 348: Show VRRP Policy Event Output Fields
Label | Description |
Description | A text string which describes the VRRP policy |
Policy Id | The VRRP priority control policy associated with the VRRP virtual router instance A value of 0 indicates that no control policy is associated with the virtual router instance |
Current Priority | The base router priority for the virtual router instance used in the master election process |
Current Explicit | When multiple explicitly defined events associated with the priority control policy happen simultaneously, the lowest value of all the current explicit priorities will be used as the in-use priority for the virtual router |
Applied | The number of virtual router instances to which the policy has been applied; the policy cannot be deleted unless this value is 0 |
Current Delta Sum | The sum of the priorities of all the delta events when multiple delta events associated with the priority control policy happen simultaneously; this sum is subtracted from the base priority of the virtual router to give the in-use priority |
Delta Limit | The delta-in-use-limit for a VRRP policy; once the total sum of all delta events has been calculated and subtracted from the base-priority of the virtual router, the result is compared to the delta-in-use-limit value; if the result is less than this value, the delta-in-use-limit value is used as the virtual router in-use priority value; if an explicit priority control event overrides the delta priority control events, the delta-in-use-limit has no effect If the delta-in-use-limit is 0, the sum of the delta priority control events to reduce the virtual router's in-use-priority to 0 can prevent it from becoming or staying master |
Applied to Interface Name | The interface name where the VRRP policy is applied |
VR ID | The virtual router ID for the IP interface |
Opr | Up — indicates that the operational state of the VRRP instance is up |
Down — indicates that the operational state of the VRRP instance is down | |
Base Pri | The base priority used by the virtual router instance |
InUse Priority | The current in-use priority associated with the VRRP virtual router instance |
Master Priority | The priority of the virtual router instance which is the current master |
Priority | The base priority used by the virtual router instance |
Priority Effect | Delta — a delta priority event is a conditional event defined in a priority control policy that subtracts a given amount from the base priority to give the current in-use priority for the VRRP virtual router instances to which the policy is applied |
Explicit — a conditional event defined in a priority control policy that explicitly defines the in-use priority for the VRRP virtual router instances to which the policy is applied Explicit events override all delta events; when multiple explicit events occur simultaneously, the event with the lowest priority value defines the in-use priority | |
Current Priority | The configured delta-in-use-limit priority for a VRRP priority control policy or the configured delta or explicit priority for a priority control event |
Event Oper State | The operational state of the event |
Hold Set Remaining | The amount of time that must pass before the set state for a VRRP priority control event can transition to the cleared state to dampen flapping events |
Priority | The base priority used by the virtual router instance |
Priority Effect | Delta — the priority-level value is subtracted from the associated virtual router instance’s base priority when the event is set and no explicit events are set; the sum of the priority event priority-level values on all set delta priority events are subtracted from the virtual router base priority to derive the virtual router instance in-use priority value If the delta priority event is cleared, the priority-level is no longer used in the in-use priority calculation |
Explicit — the priority-level value is used to override the base priority of the virtual router instance if the priority event is set and no other explicit priority event is set with a lower priority-level The set explicit priority value with the lowest priority-level determines the actual in-use protocol value for all virtual router instances associated with the policy | |
Hold Set Config | The configured number of seconds that the hold-set timer waits after an event enters a set state or enters a higher threshold set state, depending on the event type |
Value In Use | Yes — the event is currently affecting the in-use priority of some virtual router |
No — the event is not affecting the in-use priority of some virtual router | |
# trans to Set | The number of times the event has transitioned to one of the 'set' states |
Last Transition | The time and date when the operational state of the event last changed |
Platforms
All
policy
Syntax
Context
Full Contexts
Description
This command displays CPU protection policy information.
Parameters
Platforms
7450 ESS, 7750 SR-7/12/12e, 7750 SR-7s, 7750 SR-14s, 7950 XRS
- show system security cpu-protection policy
All
- show system security dist-cpu-protection policy
policy
Syntax
Context
Full Contexts
Description
This command displays the policy association information.
If a policy association name is not specified, the information for all configured policy associations is displayed.
Parameters
Output
The following output is an example of policy association information, and Table 349 describes the output fields.
Table 349: Show Policy Association Descriptions
Label | Description |
Association Name | The policy association name |
Association ID | The policy association ID |
Association Source | The source IP address of the policy association. Both IPv4 and IPv6 are supported. |
Platforms
All
19.57. policy-edits
policy-edits
Syntax
Context
Full Contexts
Description
This command displays edited policy information that was entered in the classic CLI.
| Note: This command is not available in the MD-CLI. |
Platforms
All
19.58. policy-test
policy-test
Syntax
Context
Full Contexts
Description
This command allows the operator to evaluate existing route policy or chain of route policies or route policy logical expression effects, as a BGP import or export policy, by identifying the routes that would be accepted or rejected after the complete evaluation.
When the policy, list of policies or logical expression is used as a BGP export policy, the export keyword must be included. When the policy is used as a BGP import policy, the export keyword should not be included.
Parameters
- ip-addr:comm-val
- 2byte-asnumber:ext-comm-val
- 4byte-asnumber:comm-val
Output
The following output is an example of policy test information, and Table 350 describes the output fields.
Table 350: Show Policy Test Field Descriptions
Field | Description |
Status codes | Codes used for used, suppressed, history, decayed or valid status |
Origin codes | Codes used for IGP, EGP, incomplete, best or backup origin |
Flag | Indicator for network, nexthop or as-path routes |
Platforms
All
19.59. pool
pool
Syntax
Context
Full Contexts
Description
This command performs local DHCP or DHCP6 server IP address pool tasks.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pool
Syntax
Context
Full Contexts
Description
This command displays NAT pool information.
Parameters
Output
The following is sample output for this command.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
19.60. pool-ext-stats
pool-ext-stats
Syntax
Context
Full Contexts
Description
This command displays extended statistics per DHCPv4 pool in local DHCPv4 server.
The following statistics are included in output:
- The number of stable leases in the pool
- The number of provisioned address in the pool
- The number of used address in the pool
- The number of free address in the pool
- The percentage of used address
- The percentage of free address
For each statistic (except for provisioned addresses), there is current value and peak value, peak value is the highest value since pool creation or last reset via the clear router rt-id dhcp local-dhcp-server svr-name pool-ext-stats command.
Parameters
Output
The following output is an example of pool extended statistics information.
Table 351 describes extended pool statistics output fields.
Table 351: Extended Pool Statistics Field Descriptions
Field | Description |
Current | The current pool statistics |
Peak | The peak value since the last reset |
Timestamp | The date and time of the last reset |
Pool | The pool name |
Stable Leases | The number of stable leases in the pool |
Provisioned Addresses | The number of provisioned addresses in the pool |
Used Addressed | The number of used addresses in the pool |
Free Addresses | The number of free addresses in the pool |
Used Pct | The percentage of subnets in use in the pool |
Free Pct | The percentage of unused subnets in the pool |
Last Reset Time | The date and time of the last reset in the pool |
Number of entries | The total number of entries |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pool-ext-stats
Syntax
Context
Full Contexts
Description
This command displays extended statistics per DHCPv6 pool in local DHCPv6 server.
The following statistics are included in output:
- The number of stable leases in the pool
- The number of provisioned /64 address block in the pool
- The number of used /64 address block in the pool
- The number of free /64 address block in the pool
- The percentage of used address (with /64 address block)
- The percentage of free address (with /64 address block)
For each statistic (except for Provisioned Addresses), there is current value and peak value, peak value is the highest value since pool creation or last reset via command “clear router <rt-id> dhcp6 local-dhcp-server <svr-name> pool-ext-stats”.
Parameters
Output
The following output is an example of subnet statistics information.
Table 352 describes DHCP6 extended pool statistics output fields.
Table 352: DHCP6 Pool Ext Stats Field Descriptions
Field | Description |
Current | The current pool statistics |
Peak | The peak value since the last reset |
TimeStamp | The date and time of the last reset |
Pool | The pool name |
Stable Leases | The number of stable leases |
Provisioned Blks | The number of provisioned blocks in this pool |
Free Blks | The number of free blocks in this pool |
Used Pct | The percentage of extended statistics in use |
Free Pct | The percentage of /64 blocks currently unused |
Last Reset Time | The date and time of the last reset |
Number of entries | The total number of entries |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pool-ext-stats
Syntax
Context
Full Contexts
Description
This command clears extended pool statistics.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.61. pool-stats
pool-stats
Syntax
Context
Full Contexts
Description
This command displays pool statistics.
Parameters
Output
The following output is an example of pool statistics information.
Table 353 describes pool statistics output field descriptions.
Table 353: Failover Pool Statistics Field Descriptions
Field | Description |
Failover Admin State | Identifiers the failover state of the DHCP server instance inService — The failover admin state is in service outOfService — The failover admin state is out of service |
Failover Oper State | The operational state of a DHCP server instance |
Failover Persist Key | The maximum amount of time that one server can extend a lease for a client's binding beyond the time known by the partner server |
Administrative MCLT | The administrative Maximum Client Lead Time (MCLT) |
Operational MCLT | Indicates the operational MCLT |
Startup Wait Time | The startup wait time. The startup wait time is the time that one IP address pool attempts to contact the partner IP address pool. During this time, the IP address pool is unresponsive to DHCP client requests. |
Partner Down Delay | The minimum safe-time after the beginning of COMMUNICATIONS-INTERRUPTED state. After the expiry of this time, the server enters the PARTNER-DOWN state. |
Ignore McLT | The ignore McLT status. If, after the transition COMMUNICATIONS-INTERRUPTED-to-PARTNER-DOWN state, the DHCP server instance ignores the safety period with a duration of Maximum Client Lead Time; a ‘true’ value has the effect that the DHCP server starts offering IP addresses from the partner's scope immediately after this transition, without waiting for existing leases allocated by the partner and not known by this system to time out. A ‘true’ value increases the risk that duplicate addresses are offered; if the transition to PARTNER-DOWN state is likely to be caused by a failure of the partner system rather than a communications problem, this risk is reduced. |
Failover statistics for pool | The failover statistics for each pool |
Dropped Invalid Packets | The number of BNDUPD packets that were dropped because the packet was malformed |
Failover Shutdown | The number of BNDUPD packets that were dropped because the failover state if the DHCP server instance is shut down |
Lease Already Expired | The number of BNDUPD packets that were dropped because the corresponding lease has expired |
Maximum Lease Count Reached | The number of BNDUPD packets that were dropped because the maximum number of leases were reached |
Subnet Not Found | The number of BNDUPD packets that were dropped because a valid subnet could not be found for the lease |
Range Not Found | The number of BNDUPD packets that were dropped because a valid include range could not be found for the lease. |
Host Conflict | The number of BNDUPD packets that were dropped because this DHCP server instance has already leased this address to another host |
Address Conflict | The number of BNDUPD packets that were dropped because this DHCP server instance has already leased another address to this host |
Peer Conflict | The number of BNDUPD packets that were dropped because the failover peer has leased an address within a subnet range of which the failover control is set to local on this local DHCP server instance |
Persist Congestion | The number of BNDUPD packets that were dropped because of persistence congestion on this DHCP server instance |
No Lease Hold Time Configured | The number of BNDUPD packets that were dropped because the lease hold time is zero on this DHCP server instance |
Lease Not Found | The number of Binding Database Update (BNDUPD) remove packets were dropped because the corresponding lease could not be found. |
Number of pools found | The total number of pools found |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.62. pool-threshold-stats
pool-threshold-stats
Syntax
Context
Full Contexts
Description
This commands displays pool level threshold stats of local DHCPv6 server. A minimum-free threshold needs to be configured before system collects threshold stats for the prefix.
The stats for each threshold are calculated based on the configured minimum-free prefix length.
For example, a /59 prefix is provision in the local DHCPv6 server, and the server allocated two PD leases, one /62 and one /63. And there is a /63 minimum threshold configured. The threshold stats are calculated based on /63 as the base unit (block). Then the value of current used block would be 3 because there is one /62 lease and one /63 lease, that equals to a total of three /63.
Parameters
Output
The following output is an example of pool threshold statistics information.
The command shown above displays an overview of pool level thresholds in the specified pool:
- The Peak field indicates the peak value of used
- The Too low field indicate if the configured minimum-free threshold is exceeded
- The Depleted field indicate if there is no available prefix with the length in the provisioned prefix
- The Peak timestamp field indicates the time of peak used value
The above command displays detailed statistics of all pool level thresholds in the specified pool:
- Blks in the output means the minimum free prefix length.
- Valid Data output indicates whether the data you see is valid or not. The data is invalid when a background stats update is scheduled or busy.
Table 354 describes pool threshold statistics output fields.
Table 354: Pool Threshold Statistics Field Descriptions
Field | Description |
Operational state | The operational state of the local DHCP server instance unknown — The operational state is unknown inService — The operational state is in service outOfService — The operational state is out of service transition — The operational state is in transition waitPersistence — The DHCP server instance is waiting for a persistence action to complete. |
Pool | The pool ID |
Stable Leases | The number of stable leases |
Advertised leases | The number of advertised leases |
Threshold | The prefix level threshold |
Current Provisioned Blks | The number of provisioned blocks in this pool |
Current Used Blks | The number of used blocks in this pool |
Current Free Blks | The number of free blocks in this pool |
Current Used Percent | The percentage of used prefixes with the minimum free threshold length in the pool compared to the number of provisioned prefixes |
Current Used Peak Blks | A 64-bit word of the peak value of the number of used blocks in the pool with a prefix length |
Current Used Peak Percent | The peak value of the number of used prefixes with the minimum free threshold length in the pool as a percentage of the provisioned prefixes. This depends on the current failover state of the DHCP server or pool |
Current Used Peak Time | The time at which the peak value of the number of used prefixes in the pool was reached |
Current Free Percent | The percentage of free prefixes with the minimum free threshold length in the pool compared to the number of provisioned prefixes. This depends on the current failover state of the DHCP server or pool |
Current Free Too Low | The number of free prefixes with the minimum free threshold length available in the pool that is below the configured number of prefixes with the minimum free threshold length |
Current Free Depleted | The number of prefixes with the minimum free threshold length available in the pool |
Local Provisioned Blks | A 64-bit word of the number of provisioned prefixes with the minimum free threshold length local in the pool |
Local Used Blks | A 64-bit word of the number of used prefixes with the minimum free threshold length local in the pool |
Local Free Blks | A 64-bit word of the number of free prefixes with the minimum free threshold length local in the pool |
Local Used Peak Blks | A 64-bit word of the peak value of the number of used prefixes with the minimum free threshold length local in the pool |
Local Used Peak Percent | The peak value of the number of used prefixes with the minimum free threshold length local in the pool as a percentage of the provisioned prefixes |
Local Used Peak Time | The time at which the peak value of the number of used prefixes local in the pool was reached |
Remote Provisioned Blks | A 64-bit word of the number of provisioned prefixes with the minimum free threshold length remote in the pool |
Remote Used Blks | A 64-bit word of the number of used prefixes with the minimum free threshold length remote in the pool |
Remote Free Blks | A 64-bit word of the number of free prefixes with the minimum free threshold length remote in the pool |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pool-threshold-stats
Syntax
Context
Full Contexts
Description
This commands resets the peak stats in the pool level threshold stats in the specified pool. If the pool name is not specified, then the peak stats in all pools in the server are reset.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.63. pools
pools
Syntax
Context
Full Contexts
Description
This command displays pool information.
Parameters
Output
The following outputs are example of pool information, and Table 355 describes the output fields.
| Note: The pool shared in use stat only increases when a queue is asking for a buffer outside it’s reserved size. If all the buffers in a pool are assigned to queues within their reserved size, then only the reserved in use size will increase. In case of resv CBS over subscription (CBS sum for all queues is bigger than pool resvCbs), it is possible that pool resv in use stat can increase above the actual pool reserved size. |
Table 355 describes the output fields for the show pools command.
Table 355: Output Fields: show pools
Label | Description |
Type | Specifies the pool type. |
ID-FP | Specifies the card-FP or MDA-FP or card, MDA, or port designation. |
Application/Type | Specifies what the pool would be used for. The pools could be used for access or network traffic at either ingress or egress. |
Pool Name | Specifies the name of the pool being used. |
Resv CBS | Specifies the percentage of pool size reserved for CBS. |
Utilization | Specifies the type of the slope policy. |
State | The administrative status of the port. |
Start-Avg | Specifies the percentage of the buffer utilized after which the drop probability starts to rise above 0. |
Max-Avg | Specifies the percentage of the buffer utilized after which the drop probability is 100 percent. This implies that all packets beyond this point will be dropped. |
Time Avg Factor | Specifies the time average factor the weighting between the previous shared buffer average utilization result and the new shared buffer utilization in determining the new shared buffer average utilization. |
Actual ResvCBS | Specifies the actual percentage of pool size reserved for CBS. |
Admin ResvCBS | Specifies the percentage of pool size reserved for CBS. |
PoolSize | Specifies the size in percentage of buffer space. The value '-1' implies that the pool size should be computed as per fair weighting between all other pools. |
Pool Total | Displays the total pool size. |
Pool Shared | Displays the amount of the pool which is shared. |
Pool Resv | Specifies the percentage of reserved pool size. |
Pool Total In Use | Displays the total amount of the pool which is in use. |
Pool Shared In Use | Displays the amount of the pool which is shared that is in use. |
Platforms
All
19.64. port
port
Syntax
Context
Full Contexts
Description
This command displays port or channel information.
If the detail keyword is specified without any port-id, the detailed output of every port is displayed. This is useful for generating a complete report or as an input into the "| match" post-filtering command to display only specific fields for all ports (customized summaries).
If the port-id specifies a unique port, information about that port is displayed. The specific information displayed depends on the type of port. Additional information can be displayed if the detail keyword is included. In addition, information subsets can be displayed by using various keywords. For example, the otu keyword displays only the OTU interface information for the port.
When the associations keyword is specified and the port-id is a member of a LAG, the command is interpreted as a request to display the associations of that LAG (see the show lag lag-id associations command).
Parameters
Table 356: Port ID values
Product | Slot | MDA | Port | Values |
7750 SR-12 | 1 to 10 | 1, 2 | 1 to 60 (depending on the MDA type) | — |
7750 SR-7 | 1 to 5 | 1, 2 | — | |
7950 XRS | 1 to 20 | — | — | |
7450 ESS-7 | — | — | 1 to 4 | |
7450 ESS-12 | — | — | 1 to 0 | |
Channelized MDAs | ||||
CHOC12-SFP | — | slot/mda/port [1 to 4]. [1 to 3]. [1 to 28]. [..24] For example, 7/2/1.1.1.28.24 | ||
CHOC3-SFP | — | slot/mda/port. [1 to 3]. [1 to 28]. [..24] For example, 7/2/1.1.28.24 | ||
DS3 | — | slot/mda/port. [1 to 28] . [..24] For example, 7/1/1.1.1 | ||
port-id | slot[/mda[/port]] or | ||
slot/mda/port [.channel] | |||
aps-id | aps-group-id[.channel] | ||
aps | keyword | ||
group-id | 1 to 64 | ||
ccag-id | slot/mda/path-id[cc-type] | ||
path-id | a,b | ||
cc-type | .sap-net, .net-sap | ||
eth-sat-id | esat-id [/slot/[u]port] | ||
esat | keyword | ||
id | 1 to 20 | ||
u | keyword for up-link port | ||
pxc-id | pxc-id.sub-port | ||
pxc | keyword | ||
id | 1 to 64 | ||
sub-port | a, b | ||
esa-port | esa-esa-id[/vm-id[/esa-keyword]] | ||
esa | keyword | ||
esa-id | 1 to 16 | ||
vm-id | 1 to 4 | ||
esa-keyword | fm-sub | Information/statistics on the internal interface toward an AA ESA-VM for from-subscriber traffic | |
to-sub | Information/statistics on the internal interface toward an AA ESA-VM for to-subscriber traffic | ||
aa-svc | Information/statistics on the internal interface toward an AA ESA-VM for aa-service traffic | ||
private | Information/statistics on the internal interface toward a tunnel ESA-VM for private traffic | ||
public | Information/statistics on the internal interface toward a tunnel ESA-VM for public traffic | ||
ike | Information/statistics on the internal interface toward a tunnel ESA-VM for IKE traffic | ||
icmp | Information/statistics on the internal interface toward a tunnel ESA-VM for ICMP traffic | ||
frag | Information/statistics on the internal interface toward a tunnel ESA-VM for fragmented traffic | ||
nat-in-ip | Information/statistics on the internal interface toward a BB ESA-VM for NAT44 and NAT64 upstream/downstream traffic on the inside, for WLAN-GW tunnel traffic from/towards access points, or for a reassembly traffic over a SAP-based interface | ||
nat-out-ip | Information/statistics on the internal interface toward a BB ESA-VM for NAT44, DS-Lite, NAT64 and L2-aware NAT upstream/downstream traffic on the outside, or for WLAN-GW UE traffic from/towards the network | ||
nat-in-l2 | Information/statistics on the internal interface toward a BB ESA-VM for L2-aware NAT | ||
lns-net | Information/statistics on the internal interface toward a LNS ESA-VM, L2TP encapsulated packets from the LAC undergoes L2TP header removal | ||
lns-esm | Information/statistics on the internal interface toward a LNS ESA-VM, IP packets from the network which undergoes L2TP encapsulation | ||
nat-in-ds | Information/statistics on the internal interface toward a BB ESA-VM for DS-lite upstream/downstream traffic on the inside | ||
lo-gre | Information/statistics on the internal interface between a WLAN-GW anchor ESA VM and tunnel ESA VM, for both up and downstream traffic | ||
Output
The following sections provide output samples. Table 357 provides an alphabetized list of descriptions for the output fields.
| Note: |
The following output displays an example of a PPP link inside a multilink-bundle group:
The output displays the aggregate egress queue statistics for ports configured with monitor-agg-egress-queue-stats which have non-zero counters. This can be shown for a single port, or all ports on an MDA or card. When the detail parameter is added, the output includes those ports with counters that are all zero.
If the Vport name is omitted, statistics for all Vports are displayed (bulk read). The statistics are displayed only for the levels, groups, and agg-eps for which the monitor-threshold is enabled. The output information filtering per level, group, or agg-eps is not embedded in the show commands natively. Instead, the output can be filtered with the match extensions for the show command. For example, show port 1/1/1 vport test monitor-threshold | match Lvl-1.
Table 357 describes the output fields for the show port <port-id> command.
Table 357: Output Fields: show port <port-id>
Label | Description |
50GHz Ch Min/Max | The 50 GHz channel minimum and maximum |
100GHz Ch Min/Max | The 100 GHz channel minimum and maximum |
AAL Type | ATM Adaptation Layer 5 (AAL5) information |
Acct Pol | The accounting policy for the egress queue-group |
ACFC | Address and Control Field PPP Header Compression is enabled or disabled |
ACL Filter Discards | |
Active Pre-Shared Key CKN | The active PSK CAK name |
Active Pre-Shared Key Index | The active pre-shared key index: 1 to 2 (default 1) |
Adapter Type | The type of adapter module |
Addr Ctrl Invalid | The number of invalid address control received |
Address | The IP address associated with the index |
Admin CIR | The administrative Committed Information Rate (CIR) parameters for the queue. The CIR defines the rate at which the system prioritizes the queue over other queues competing for the same bandwidth. |
Admin FIR | The admin queue FIR rate |
Admin PIR | The administrative Peak Information Rate (PIR) parameters for the queue. The PIR defines the maximum rate that the queue can transmit packets through the switch fabricor out an egress interface. |
Admin State | Up — The entity is administratively up Down — The entity is administratively down |
Agg. Limit | The agg-rate adaptation rule setting |
AIS | The number of AIS cells transmitted and received on this connection for both end to end and segment |
AIS-P | The number of AIS-P packets received |
Alarm Status | The bits used to indicate alarms: loc — A loss of clock which causes the operational state of the port to be downed lais — Line alarm indication signal errors lrdi — Line remote defect indication errors. LRDIs are caused by remote LOF, LOC, and LOS ss1f — Section synchronization failure as reported by the S1 byte sb1err — Section B1 errors lb2erSd — Line signal degradation BER errors lb2erSf — Line signal failure BER errors slof — Section loss of frame errors slos — Section loss of signal errors stxptr — Section synchronization error on the transmit side. Indicates if there is a positive or negative justification count per channel srxptr — Section synchronization error on the receive side. Indicates if there is a positive or negative justification count per SONET path lrei — Line error condition raised by the remote as a result of B1 errors received from this node |
Alignment Errors | The total number of packets received that had a length (excluding framing bits, but including FCS octets) of between 64 and 1518 octets, inclusive, but had either a bad Frame Check Sequence (FCS) with an integral number of octets (FCS Error) or a bad FCS with a non-integral number of octets |
AN | The AN for identifying the receiving SA |
Assigned ports | Specifies all ports that contain this CA |
ATM Link Bandwidth | The total ATM link bandwidth accepted on this interface |
authentication method | The 802.1x session authentication method |
Authenticator PAE state | The 802.1x port authenticator PAE state |
Auto-negotiate | True — The link attempts to automatically negotiate the link speed and duplex parameters False — The duplex and speed values are used for the link |
Average Elapsed Time | The average elapsed time |
Backend state | The 802.1x port backend state |
Bad Tag Packets | The number of received packets discarded with an invalid SecTAG or a zero value Packet Number (PN) or an invalid Integrity Check Value (ICV) |
BFD Spoof Check Failed | The received BFD packet either failed the TTL check (single hop BFD TTL should be 255) or failed the source IP address lookup of known sessions. This counter may increment when BFD sessions are first configured since one side may start sending before the other is completely programmed and ready. |
Broadcast Packets Input/Output | The number of packets, delivered by this sub-layer to a higher (sub-) layer, which were addressed to a broadcast address at this sub-layer. The total number of packets that higher-level protocols requested be transmitted, and which were addressed to a multicast address at this sub-layer, including those that were discarded or not sent. For a MAC layer protocol, this includes both Group and Functional addresses. |
Broadcast Packets | Input — The number of input broadcast packets Output — The number of output broadcast packets |
Broadcast Pckts | The number of packets, delivered by this sub-layer to a higher (sub-) layer, which were addressed to a broadcast address at this sub-layer. The total number of packets that higher-level protocols requested be transmitted, and which were addressed to a multicast address at this sub-layer, including those that were discarded or not sent. For a MAC layer protocol, this includes both Group and Functional addresses. |
CA name/ca-name | The CA name assigned to the port |
Cast Type | The connection topology type |
CBS | The CBS value defining the reserved size for the queue |
Cell Mode | The cell format (UNI or NNI) that is used on the ATM interface |
Cells | The number of input and output cells HEC discarded cells are not included in the input cell numbers |
Cfg Alarm | The alarms that are reported when raised or cleared. Alarms that are not in this list are not reported when they are raised or cleared but appear in the Alarm Status. pais — Path alarm indication signal errorsplop — Path loss of pointer (per tributary) errorsprdi — Path remote defect indication errorspb3err — Path B3 errorspplm — Path payload mismatch. As a result, the path can be operationally downedprei — Path error condition raised by the remote as a result of B3 errors received from this nodepuneq — Unequipped path errors.plcd — Path loss of codegroup delineation error. It is applicable only when the value of tmnxPortEtherXGigMode is set to 'wan'. |
Cfg MTU | The configured MTU |
Cfg Rx Channel | The configured DWDM ITU channel at which the coherent optical module is expected to operate |
Cfg Rx LOS Thresh | The configured LOS threshold of the average input power |
Cfg Tx Pwr Maximum | |
Cfg Tx Pwr Minimum | |
Cfg Tx Target power | The manually-configured average target output power |
Chan-Grp IfIndex | The channel group’s interface index number which reflects its initialization sequence |
Cipher Suite | The cipher suite used for encrypting the SAK: gcm-aes-128, gcm-aes-256, gcm-aes-xpn-128, gcm-aes-xpn-256 |
CIR Rule | min — The operational CIR for the queue is equal to or greater than the administrative rate specified using the rate command except where the derived operational CIR is greater than the operational PIR. If the derived operational CIR is greater than the derived operational PIR, the operational CIR will be made equal to the operational PIR. max — The operational CIR for the queue is equal to or less than the administrative rate specified using the rate command. closest — The operational CIR for the queue is the rate closest to the rate specified using the rate command without exceeding the operational CIR. |
CIR Weight | The weight the queue or scheduler uses at the within-CIR port priority level |
Clear Tag Mode | In the case of VLAN-tagged traffic, if the traffic is crossing a network, one or two VLAN tags can be transmitted in clear text so that this traffic can receive preferential treatment over the network based on 802.1 q-tag or p-bits. Values: single-tag, dual-tag |
Coherent Optical Module | Displays information for the coherent optical module |
Coherent Optical Port Statistics | For Coherent CFP, the Rx Power field displays per-channel power. |
Collect-stats Collect Stats | Enabled — The collection of accounting and statistical data for the network Ethernet port is enabled. When applying accounting policies the data by default will be collected in the appropriate records and written to the designated billing file. Disabled — Collection is disabled. Statistics are still accumulated by the IOM cards, however, the CPU will not obtain the results and write them to the billing file. |
Collisions | The best estimate of the total number of collisions on this Ethernet segment |
Config Duplex | Full — The link is set to full duplex mode Half — The link is set to half duplex mode |
Config Revision | The configuration revision |
Config Speed | The configured speed of the interface |
Configured Address | The configured Ethernet MAC address |
Configured Mode | network — The port is configured for transport network use access — The port is configured for service access |
Configured Mode | network — The port is configured for transport network use access — The port is configured for service access. Channelized ports are always access ports |
Configured VCs | The number of configured VCs |
Coherent Optical Module | Information for the coherent optical module |
Connector Code | The vendor organizationally unique identifier field (OUI) contains the IEEE company identifier for the vendor |
CRC | The precision of the cyclic redundancy check. 16 — A 16-bit CRC calculation. 32 — A 32-bit CRC calculation. 32-bit CRC increases the error detection ability, but it also adds some performance overhead. |
CRC Mon SD Thresh | The error rate (for CRC errors) at which to declare the Signal Degrade (SD) condition on an Ethernet interface. If the field displays Disabled, no error rate has been specified. |
CRC Mon SF Thresh | The CRC error rate at which to declare the Signal Fail (SF) condition on an Ethernet interface. If the field displays Disabled, no error rate has been specified. |
CRC Mon Window | The size of the sliding window, in seconds, over which the Ethernet frames are sampled to detect signal fail or signal degrade conditions. |
CRC/Align Errors | The total number of packets received that had a length (excluding framing bits, but including FCS octets) of between 64 and 1518 octets, inclusive, but had either a bad Frame Check Sequence (FCS) with an integral number of octets (FCS Error) or a bad FCS with a non-integral number of octets (Alignment Error). |
CRC-10 Errors | The number of cells discarded on this VPL with CRC 10 errors |
CRC-32 Errors | The number of valid AAL-5 SDUs and AAL-5 SDUs with CRC-32 errors received by the AAL-5 VCC |
CSE | The number of times that the carrier sense condition was lost or never asserted when attempting to transmit a frame on a particular interface |
CV-P | The number of Coding Violations |
Current Penalties | The current accumulated penalties for port dampening |
DAC Percent | The DAC percentage of the transceiver |
Dampening State | The port dampening state: Disabled, Idle, or Active |
Data Rate | The data rate at which the port is operating. When OTU is encapsulating 10-Gigabit Ethernet WAN, the data rate is 10.709 Gb/s, the G.709 standard OTU2 data rate. When OTU is encapsulating 10-Gigabit Ethernet LAN, the data rate is either 11.049 Gb/s or 11.096 Gb/s, depending on the otu2-lan-data-rate configuration parameter of the port's OTU parameters. These data rates (11.049 Gb/s and 11.096 Gb/s) are considered OTU2e data rates that are non-standard or over-clocked with respect to G.709, but have become widely used in optical networking to transport un-altered 10-Gigabit Ethernet LAN payloads. |
DDM Events | Enabled — DDM events are enabled Disabled — DDM events are disabled |
Decrypted Octets | The number of octets of plain text recovered from received packets that were integrity protected and encrypted |
Delayed Packets | The number of received packets with the condition a PN lower than the lower bound of the replay protection on this SC |
Description | A text description for the entity |
Diag Capable | Indicates whether the transceiver is capable of performing diagnostics |
Discards | Input — The number of discarded input packets Output — The number of discarded output packets |
Discards Input/Output | The number of inbound packets chosen to be discarded to possibly free up buffer space |
Disp Control Mode | The current operational mode of the tunable dispersion compensation module |
DOIE Tx Disable | Enabled — Laser is enabled if an internal MAC transmit error is encountered Disabled — Laser is disabled if an internal MAC transmit error is encountered |
Dot1Q Ethertype | The Ethertype expected when the port's encapsulation type is Dot1Q |
Down On Int. Error | Enabled — Down on internal error feature is enabled Disabled — Down on internal error feature is disabled |
Down-when-looped | The feature is enabled or disabled |
Drop Count | The number of keepalive or LQR messages that were missed before the line was brought down |
Dropped | The number of dropped packets and octets |
Drop Events | The total number of events in which packets were dropped by the probe due to lack of resources. Note that this number is not necessarily the number of packets dropped; it is just the number of times this condition has been detected. |
Dropped Cells | The number of cells dropped by the ATM SAR device |
Dropped CLP | The number of times the CLP1 cells have been dropped. CLP1 cells have lower priority than CLP0 cells and are expected to be discarded first in times of congestion. |
Dropped Packets | The number of packets dropped by the ATM SAR device |
Dying Gasp | Indicates whether dying gasp is enabled or disabled |
Dying Gasp on Reset | EFM OAM dying gasp messages on reset: true or false |
eapol-destination-address | The destination MAC address used in the EAPoL packet for MACsec Key Agreement (MKA) PDUs |
Encryption Offset | The encryption offset configured on this node: 0, 30, 50. In the case of IP traffic, the IP header can be transmitted in clear text so that the traffic is routed accordingly when crossing the network. A value of 30 is used for IPv4 and 50 for IPv6. |
EFM OAM | Enabled — EFM OAM is enabled Disabled — EFM OAM is disabled |
EFM OAM Link Mon | Enabled — Link monitoring functionality is enabled Disabled — Link monitoring functionality is disabled |
Egr. Sched. Pol | The port scheduler policy or that the default policy default is in use |
Egr. Td Idx | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Egr. Td Idx | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Egress CBR | The total CBR bandwidth consumed on this interface in the egress direction |
Egress NRT-VBR | The total non-real-time variable bit rate (nrt-VBR) bandwidth consumed on this interface in the egress direction |
Egress Octets | The egress octets on a per-port basis |
Egress Packets | The egress packets on a per-port basis |
Egress Rate | The maximum amount of egress bandwidth (in kilobits per second) that this Ethernet interface can generate |
Egress RT-VBR | The total real-time variable bit rate (rt-VBR) bandwidth consumed on this interface in the egress direction |
Egress UBR | The total unspecified bit rate (UBR) bandwidth consumed on this interface in the egress direction |
Encap-match | Specifies which types of traffic MACsec is enabled for |
Encap Type | Null — Ingress frames will not use any tags or labels to delineate a service dot1q — Ingress frames carry 802.1Q tags where each tag signifies a different service |
Encap Value | The dot1q or qinq encapsulation value on the port for this IP interface |
Encrypted Octets | The number of plain text octets that are integrity protected and encrypted on the transmitting SC |
Encrypted Packets | The number of packets that are integrity protected and encrypted for this transmitting SA |
Encrypted SA Packets | The number of packets that are integrity protected and encrypted for this SA |
Encryption Offset | Specifies the encryption offset configured on this node: 0, 30, 50. In the case of IP traffic, the IP header can be transmitted in clear text so that the traffic is routed accordingly when crossing the network. A value of 30 will be used for IPv4 and 50 for IPv6. |
Endpoint Type | The endpoint type |
Errored Frame Enabled | Specifies whether errored frames are enabled |
Errored Frame Event Notify | Specifies whether errored frame events notification is enabled |
Errored Frame Period Enabled | Specifies whether an errored frame period is enabled |
Errored Frame Period Event Notify | Specifies whether an errored frame period event notification is enabled |
Errors Input/Output | For packet-oriented interfaces, the number of inbound packets that contained errors preventing them from being deliverable to a higher-layer protocol. For character-oriented or fixed-length interfaces, the number of inbound transmission units that contained errors preventing them from being deliverable to a higher-layer protocol. For packet-oriented interfaces, the number of outbound packets that could not be transmitted because of errors. For character-oriented or fixed-length interfaces, the number of outbound transmission units that could not be transmitted because of errors. |
ESMC Tunnel | Indicates whether ESMC frames are tunneled in Epipe or VPLS service |
ES-P | The number of Errored Seconds |
Exceed Drop | The queue depth beyond which exceed-profile packets are not accepted into the queue and are discarded |
Excess Collisns | The number of frames for which transmission on a particular interface fails due to excessive collisions |
Far End | The SONET path far end |
FCS Errors | The number of frames received on a particular interface that are an integral number of octets in length but do not pass the FCS check |
FEC Corrected 0s | The number of bits that were received as 0s but corrected to 1s |
FEC Corrected 1s | The number of bits that were received as 1s but corrected to 0s |
FEC Mode | Type of FEC (Forward Error Correction) in effect: g709, enhanced or disabled. When g709 is selected, the standard FEC method is used. When enhanced is selected, a proprietary FEC algorithm is used that extends optical reach in long haul applications. When disabled the bytes that are reserved for FEC in the OTU frame are transmitted as zeros and the FEC decoder is bypassed, but OTU framing is still in effect. |
FEC SES | The number of severely Errored seconds were the number of uncorrectable sub-rows was greater than 15% of the maximum |
FEC Uncorrectable Sub-Rows | The number of sub-rows that were not corrected because too many errors were detected |
Fifo Error | The number of FIFO errors |
FIR Rule | The queue FIR rule |
FR Interface Status | The status of the Frame Relay interface as determined by the performance of the DLCMI. If no DLCMI is running, the Frame Relay interface stays in the running state indefinitely. |
Forwarded | The number of forwarded packets and octets |
Fragments | The total number of packets received that were less than 64 octets in length (excluding framing bits but including FCS octets) and had either a bad Frame Check Sequence (FCS) with an integral number of octets (FCS Error) or a bad FCS with a non-integral number of octets (Alignment Error) |
Frame Based Acc | Frame-based accounting for queues parented to the scheduling policy and for the schedulers within the scheduler policy |
Grace Tx Enable | Specifies whether grace Tx is enbled |
Grace Vendor OUI | The EFM OAM grace vendor Organizationally Unique Identifier (OUI) |
Grp-<name> Group Name | The group name |
Half Life | The time, in seconds, that must pass before penalties decay to one-half the initial amount |
Hardware Address | The interface's hardware or system assigned MAC address at its protocol sub-layer |
HEC Errors (Dropped) | The number of cells with uncorrectable HEC errors on this interface |
HEC Errors (Fixed) | The number of fixed HEC errors on this interface |
HiPlus Drop Tail | The queue depth beyond which inplus-profile packets are not accepted into the queue and are discarded |
Hi Drop Tail | The queue depth beyond which in-profile packets are not accepted into the queue and are discarded |
Hold Time | The EFM OAM hold-time |
Hold time down | The link down dampening time in seconds. The down timer controls the dampening timer for link down transitions |
Hold time up | The link up dampening time in seconds. The port link dampening timer value which reduces the number of link transitions reported to upper layer protocols. |
HS Turbo Queues | HS turbo queues that allow the corresponding HSQ queue group queues for higher throughput |
IfIndex | The interface's index number which reflects its initialization sequence |
Ignore Efm State | The suppress port operational state changes due to EFM OAM: true or false |
Ignr EFM OAM State | Enabled — Any failure in the protocol state machine does not impact the state of the port Disabled — The port state is affected by any existing EFM-OAM protocol fault condition |
Index 1 | Management IP information, one per type maximum (system IPv4, IPv6 system, oob, oob IPv6) |
In Packets | The number of echo-reply packets received |
In Pause Frames | The number of In Pause frames |
Ing. Td Idx | The ATM traffic descriptor profile that applies to the receive direction of the interface connection |
Ingress CBR | The total CBR bandwidth consumed on this interface in the ingress direction |
Ingress NRT-VBR | The total non-real-time variable bit rate (nrt-VBR) bandwidth consumed on this interface in the ingress direction |
Ingress Octets | The ingress octets on a per-port basis |
Ingress Packets | The ingress packets on a per-port basis |
Ingress Port Forwarding Engine Drop Reason Statistics | When any of the packet counters increments, it indicates that a packet was dropped in the ingress data path or extracted to the control plane for further processing. The detailed per-reason drop statistics are available per-port for Ethernet ports (local on the 7450 ESS, 7750 SR, 7950 XRS, or satellite client ports) and for PXC sub-ports. An aggregate forwarding engine drop counter (packet and byte) is available per-SAP. |
Ing. QGroup | The ingress queue group name |
Ingress Rate | The maximum amount of ingress bandwidth (in mb/s) that this Ethernet port can receive with the configured sub-rate using packet-based accounting |
Ingress RT-VBR | The total real-time variable bit rate (rt-VBR) bandwidth consumed on this interface in the ingress direction |
Ingress Total | The number of valid ATM cells received by the ATM interface including both CLP=0 and CLP=1 cells. If traffic policing is implemented, then cells are counted prior to the application of traffic policing. |
Ingress UBR | The total unspecified bit rate (UBR) bandwidth consumed on this interface in the ingress direction |
Host-Matches | A string optionally used by subscriber management to map subscriber's and subscriber host's queued traffic to a specific egress port virtual port |
Input/Output | When the collection of accounting and statistical data is enabled, then octet, packet, error, and utilization statistics are displayed |
Instance-Id | The queue-group instance ID |
Int MAC Rx Errs | The number of frames for which reception on a particular interface fails due to an internal MAC sublayer receive error |
Int MAC Tx Errs | The number of frames for which transmission on a particular interface fails due to an internal MAC sublayer transmit error |
Interface | The port ID displayed in the slot/mda/port format |
Interface Oper Status | The status of the ATM interface. If the SONET-PATH layer and TC sublayer are operationally up, the ATM Interface is considered up. If the SONET-PATH layer and/or TC sublayer is down, the ATM Interface is set to lowerLayerDown. |
Interface-name port-id | The interface name of the port |
ip ip-address | The IP address |
IP Route Blackholed | The destination IP address of the packet matches a black hole route |
IPv4 Header Error | The IPv4 packet header contains an error such as an IPv4 header checksum error, an invalid IP version number (not 4 or 6), or an incorrect Total Length field |
IPv4 Invalid Address | An error in the source (SA) or destination (DA) IPv4 address was detected. For example class D or class E IPv4 DAs, loopback SA (127.0.0.0/8), 0.0.0.0/8 DA, SA is a subnet broadcast or network address and cases where the IPv4 address is a multicast address but the Ethernet destination address is not RFC1112 compliant. RFC1112 checks are also carried out on Ipipe traffic. |
IPv6 Header Error | The IPv6 packet header contains an error such as an incorrect Payload Length field or an IP version not equal to '6' when the Ethernet etype or PPP ID indicates it is IPv6 |
IPv6 Invalid Address | An error in the source (SA) or destination (DA) IPv6 address was detected. For example, an unspecified IPv6 DA, an IPv6 multicast SA and cases where the IPv6 address is a multicast address but the Ethernet destination address is not RFC2464 compliant. RFC 2464 checks are also carried out on IPIPE traffic. |
Jabbers | The total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets), and had either a bad Frame Check Sequence (FCS) with an integral number of octets (FCS Error) or a bad FCS with a non-integral number of octets (Alignment Error) |
Keep Alive | The time interval, in seconds, between keep-alive PDUs |
L2 Service MTU Exceeded | The length of the packet received on a SAP bound to a layer 2 service (such as VPLS or EPIPE) exceeded the configured MTU for the service |
LACP Tunnel | Indicates whether LACP packet tunneling is enabled or disabled |
LAG ID | The LAG or multi-link trunk (MLT) that the port is assigned to |
Laser Tunability | The laser tune-ability of the transceiver |
Last Change | The last time the PPP link state changed |
Last Changed | The date and time when the interface connection entered its current operational state |
Last Changed | The date and time when the interface connection entered its current operational state |
Last Cleared Last Cleared Time | The date and time the restart count reset to zero |
Last cleared time Last Cleared Time | The time of the last clear |
last session id | The 802.1x last session ID |
last session term cause | The 802.1x last session term cause |
last session time | The 802.1x last session time |
last session username | The 802.1x last session username |
Last State Change | The system time moment that the entity is up |
Last Unknown VPI/VCI | The last unknown VPI/VCI that was received on this interface |
Late Collisions | The number of times that a collision is detected on a particular interface later than one slot time into the transmission of a packet |
Late Packets | The number of received packets that have been discarded due to replay window protection on this SC |
LCD-P | The number of LCD-P packets received |
Level | The level number |
Limit Unused BW | The aggregate rate overrun protection on the aggregate context |
Line Monitor Method | The type of line monitoring packets being sent and received on this PPP link |
Link Length support | The link length support for the transceiver |
Link Monitoring | The EFM OAM link monitoring parameters: enabled or disabled |
Link-level | Ethernet — The port is configured as Ethernet SONET — The port is configured as SONET-SDH |
LMI Type | The LMI type |
Load-balance-algo | The load balancing algorithm used on the port |
Local IP address | The IP address assigned the local end of the PPP link |
Local Mac address | The MAC address assigned the local end of the PPP link |
Local Magic Number | The local magic number to be sent to the peer. The magic number provides a method to detect loopbacks. If the value of the local magic number is the same as the value of remote magic number, then it is possible that the link might be looped back. If the two magic numbers do not match, then the link is not looped back. |
Loopback | The number of loopback requests and responses transmitted and received on this connection for both end to end and segment |
Loop Detected | True — Loop detected False — No loop detected |
LOP-P | The number of Loss Of Pointer path (LOP) occurrences |
Low Drop Tail | The low drop tail percent reduction from MBS |
mac mac-address | The MAC address |
Macsec Encrypt | Enabled — MACsec encryption is enabled on the traffic. All fields behind source or destination MAC addresses are encrypted on each packet. Disabled — MACsec encryption is disabled for the traffic. The packet fields are sent in clear text but data integrity is checked on each packet, and the MACsec overhead (header and ICV) is still added to each packet. |
macsec-enabled | The MACsec is enabled or disabled |
Manufacture date | The manufacturing date of the hardware component in the mmddyyyy ASCII format |
Max auth requests | The 802.1x port maximum authorization requests |
Max Packet Error | The number of maximum packet errors |
Min Packet Error | The number of minimum packet errors |
Max Penalties | The maximum penalty value for port dampening |
Max Supported VCs | The maximum number of ATM VPCs that can be configured on this MDA |
Max Suppress Time | Elapsed time, in seconds, after the link comes up before the worst case accumulated penalties have decayed to the reuse threshold |
MBS | The MBS value defining the maximum size for the queue |
Media | The media supported for the SFP |
Min Frame Length | The configured minimum transmitted frame length |
MKA Key Server Priority | The MKA key server priority: 0 to 255 (default 16). A priority of 0 means more it is more likely to become the MKA server. If multiple participants have the same priority, the MAC address becomes the differentiator for electing the MKA server. |
Mode | The mode of the interface. It can be set as Data Terminal Equipment (DTE) or Data Circuit-terminating Equipment (DCE) |
Mode | The mode of OAM operation for an Ethernet port: active or passive |
Model Number | The model number of the transceiver or adapter |
Monitor Depth | Queue depth monitoring for the specified queue enabled or disabled |
Monitor Port Sched | Enabled — Congestion monitoring on an Egress Port Schedule (EPS) is enabled Disabled — Congestion monitoring on an EPS is disabled |
MTU | The size of the largest packet which can be sent/received on the Ethernet physical interface, specified in octets |
Mult Collisions | The number of frames that are involved in more than one collision and are subsequently transmitted successfully |
Multicast MAC With Unicast Dest IP | The Ethernet destination (MAC) address is multicast but the IP address is unicast |
Multicast Packets Input/Output | The number of packets, delivered by this sub-layer to a higher (sub-) layer, which were addressed to a multicast address at this sub-layer. For a MAC layer protocol, this includes both group and functional addresses. The total number of packets that higher-level protocols requested be transmitted, and which were addressed to a multicast address at this sub-layer, including those that were discarded or not sent. For a MAC layer protocol, this includes both Group and Functional addresses. |
Multicast Packets | Input — The number of input multicast packets Output — The number of output multicast packets |
Multicast Pckts | The number of packets, delivered by this sub-layer to a higher (sub-) layer, which were addressed to a multicast address at this sub-layer. For a MAC layer protocol, this includes both Group and Functional addresses. The total number of packets that higher-level protocols requested be transmitted, and which were addressed to a multicast address at this sub-layer, including those that were discarded or not sent. For a MAC layer protocol, this includes both Group and Functional addresses. |
Name | The entity name |
Needs ICMP | The received packet requires the router to generate an ICMP message. For example, the IP packet TTL is expired or the destination host, network, or ESM subscriber is unreachable. Host unreachable can occur, among other reasons, if the destination address (for example, 10.0.1.2) of a packet resolves to a loopback interface subnet (for example, 10.0.1.1/24) but does not match the specific loopback address (for example, 10.0.1.1). Destination unreachable can also occur, for example, in response to an IPv6 packet received by a router from a point-to-point link (a non-Ethernet link) destined to an address within a subnet assigned to that same link (other than one of the receiving router's own addresses) as described in RFC 4443. |
Net. Egr. Queue Pol | The network egress queue policy or that the default policy is used |
No SCI Packets | The number of received packets discarded with unknown SCI information when the C bit in the SecTAG is set |
No Tag Packets | The number of received packets discarded without the MAC security tag (SecTAG) |
No Using SA Packets | The number of received packets that have been discarded on this SA which is not currently in use |
Notifications | LLDP notifications (enabled, disabled) |
Not Valid Packets | The number of not valid packets that have been discarded on this active SA |
Number OCD Events | The number of times the Out of Cell Delineation (OCD) events occurred |
Number of Lanes | The number of lanes of the transceiver |
Number of Logs | The number of logs |
OAM State | The OAM operational status of ATM connections ETE — the end-to-end connection AIS — denotes alarm indication signal RDI — denotes for remote defect indication LOC — the alarm was due to loss of continuity |
Octets | The number of input and output octets. HEC discarded cells are not included in the input octet numbers. |
Octets | The total number of octets received |
OctetsIn Dropped | The number dropped egress octets that were in-profile |
OctetsIn Forwarded | The number of forwarded egress octets that were in-profile |
OctetsIn Total | The total number of egress octets that were forwarded and dropped |
OctetsOut Dropped | The number of dropped egress octets that were out-of-profile |
OctetsOut Forwarded | The number of forwarded egress octets that were in-profile |
OctetsOut Total | The total number of egress octets that were forwarded and dropped |
OK Packets | The number of validated packets on this SA |
Oper Duplex | full — The link is set to full duplex mode half — The link is set to half duplex mode |
Oper Egress Rate | The operational egress bandwidth (in kilobits per second) that the Ethernet interface can generate |
Oper MTU | The negotiated size of the largest packet that can be sent on the port SONET/SDH, channel, specified in octets. For channels that are used for transmitting network datagrams, this is the size of the largest network datagram that can be sent on the channel. |
Oper Speed | The operating speed of the interface |
Oper State | up — The entity is operationally up down — The entity is operationally down Additionally, the lag-id of the LAG it belongs to in addition to the status of the LAG member (active or standby) is specified |
Oper Status | The operational status of the port |
Optical Compliance | The optical compliance code of the transceiver |
Optical Compliance | The optical compliance code of the transceiver |
Other | The number of OAM cells that are received but not identified |
OTU Status | The status of the OTU (Optical Transport Unit): enabled or disabled. When OTU is enabled, and additional layer of framing encapsulates an MDA's natively programmed mode of operation, 10-Gigabit Ethernet LAN or WAN, adding SONET-Like Framing with FEC (Forward Error Correction). When OTU is disabled, the MDA operates in a 10-Gigabit Ethernet LAN or WAN as per Ethernet provisioning. |
Out packets | The number of echo-request packets sent |
Out Pause Frames | The number of Out Pause frames |
Over Sized SDUs | The total number of oversized SDU discards |
Overrun Packets | The number of packets discarded because the number of received packets exceeded the cryptographic performance capabilities |
Oversize Pckts | The total number of packets received that were longer than can be accepted by the physical layer of that port (9900 octets excluding framing bits, but including FCS octets for GE ports) and were otherwise well formed |
Owner | Identifies the system entity that owns a specific ATM connection |
Owner | Identifies the system entity that owns a specific ATM connection |
Packet Abort Error | The number of packets aborted due to errors received |
Packets | The total number of packets received |
Packets | The number of input and output packets. Packets discarded due to HEC or oversize discards are not counted. CRC errors are also in the packet counts show up on the VC level statistics but not on the port level. |
PacketsIn Dropped | The number dropped egress packets that were out-of-profile |
PacketsIn Forwarded | The number of forwarded egress packets that were in-profile |
PacketsIn Total | The total number of egress packets that were forwarded and dropped |
PacketsOut Dropped | The number of dropped egress packets that were out-of-profile |
PacketsOut Forwarded | The number of forwarded egress packets that were in-profile |
PacketsOut Total | The total number of egress packets that were forwarded and dropped |
Parity Error | The number of parity errors received |
Part Number | The vendor part number contains ASCII characters, defining the vendor part number or product name |
PBB Ethertype | The Ethertype used for PBB encapsulation |
Per Threshold MDA Discard Statistics | See the 7450 ESS, 7750 SR, 7950 XRS, and VSR Interface Configuration Guide, “Packet Classification and Scheduling” section |
PFC | Indicates whether Protocol Field PPP Header Compression is enabled |
Phy Link Physical Link | Yes — A physical link is present No — A physical link is not present |
Phys State Chng Cnt | Increments when a fully qualified (de-bounced) transition occurs at the physical layer of an Ethernet port which includes the following transitions of the Port State as shown in the show port summary: - from “Down” to either “Link Up” or “Up” - from either “Link Up” or “Up” to “Down” This counter does not increment for changes purely in the link protocol states (for example, "Link Up" to "Up"). The counter is reset if the container objects for the port are deleted (for example, MDA deconfigured, or IOM type changes). |
PIR Rule | min — The operational PIR for the queue is equal to or greater than the administrative rate specified using the rate command max — The operational PIR for the queue is equal to or less than the administrative rate specified using the rate command closest — The operational PIR for the queue is the rate closest to the rate specified using the rate command |
Physical Link | Yes — A physical link is present No — A physical link is not present |
PLM-P | The number of PLM-P packets received |
PM BEI | The number of backward error indications received from the far end in the path monitor overhead |
PM BIP8 | The number of detected BIP-8 errors in the path monitor overhead |
PM SES | The section monitor severely errored seconds where the number of PM-BIP8 was greater than 15% of the maximum |
Policy-Name | The policy name |
Port control | The 802.1x port control: auto, force-auth, force-unauth |
Port Encap | Null — Ingress frames will not use tags or labels to delineate a service dot1q — Ingress frames carry 802.1Q tags where each tag signifies a different service |
Port ID | The port ID that is configured or displayed. |
Port <id> Bridge nearest-bridge | |
Port <id> Bridge nearest-non-tpmr | |
Port <id> Bridge nearest-customer | |
Port Mode | Network — The port is configured for transport network use Access — The port is configured for service access Hybrid — The port is configured for both access and network use |
Port State | Up — The port is physically present and has physical link present Down — The port is physically present but does not have a link. This state may also be considered as Link Down Ghost — A port that is not physically present None — The port is in its initial creation state or about to be deleted Link Up — A port that is physically present and has physical link present Note that when Link Up appears at the lowest level of a SONET/SDH path or a TDM tributary, it means the physical connection is active but the port is waiting on some other state before data traffic can flow. It is a waiting state and indicates that data traffic will not flow until it transitions to the Up state. |
Port status | The 802.1x port status |
PorID TLV Subtype | The encoding of the port identifier TLVs transmitted to the peer (tx-if-alias, tx-if-name, tx-local) |
Port Type | The type of port or optics installed |
Present Channel | The channel that the transceiver is currently on |
Protected Octets | The number of plain text octets that are integrity protected but not encrypted on the transmitting SC |
Protected Packets | The number of packets that are integrity protected but not encrypted for this transmitting SA |
Protected SA Packets | The number of packets that are integrity protected but not encrypted for this SA |
Protocol | The applicable protocols for the specified port |
QinQ Ethertype | The Ethertype expected when the port's encapsulation type is QinQ |
Queue | The queue information |
Queue Depths (percentage) | The queue depth percentages |
Queue-Id | The queue-id that uniquely identifies the queue |
Quiet period | The 802.1x port quiet period: 1 to 3600 seconds |
Radius-plcy | The 802.1x port RADIUS policy name |
The usable range to fine tune the frequency | |
RDI | The number of RDI cells transmitted and received on this connection for both end to end and segment |
RDI-P | The number of RDI-P packets received |
Reassembly Timeouts | The number of reassembly timeout occurrences |
Reauth enabled | no — The 802.1x port reauth enabled is not up yes — The 802.1x port reauth enabled is up |
Reauth period | The 802.1x port reauthorization period |
Remote Error | The number of remote error received |
Remote IP address | The IP address of the remote end of the PPP link |
Remote Mac address | The Ethernet MAC address sent by the remote end of the PPP link |
Remote Magic Number | The magic number sent by the peer. If the value of remote magic number is the same as the value of the local magic number, then it is possible that the link might be looped back. If the two magic numbers do not match, then the link is not looped back. |
Replay Protection | Enabled — Replay Protection is enabled Disabled — Replay Protection is disabled If replay protection is enabled for this CA, the out of replay-window packets will be discarded. Otherwise, the Replay Window Size value is ignored. The default value is disabled, so that when adding MACsec to an interface, it will not affect traffic immediately. |
Replay Window Size | The size, in packets, of the replay window. Each packet is assigned a unique packet number. Replay protection enforces strict ordering of the packets and protects against replay attacks. In networks where out-of-order packets are expected, the window size can be set up to 4294967295. |
Request Interval | The time interval in seconds at which keepalive requests are issued |
Restart Count | The number of times that this Control Protocol has reached the 'open' state |
Retry | The minimum wait time, in seconds, before re-enabling the port after loop detection |
Reuse Threshold | The threshold at which the port up state is no longer suppressed, after the port has been in a suppressed state and the accumulated penalties decay drops below this threshold |
RS-FEC Mode | The RS-FEC mode to support |
RxDTV Adjust | The Rx DTV adjust status |
Rx Ageouts | The number of LLDP frames received on the port with a properly formatted TLV that was not supported on the receiving port |
Rx Frames | The number of LLDP frames received on the port |
Rx Frame Discard | The number of LLDP frames received but discarded on the port |
Rx Frame Errors | The number of LLDP frames received with errors on the port |
Rx TLV Discard | The number of LLDP frames received on the port discarded because of the TLV |
Rx TLV Unknown | The number of LLDP frames received on the port with a properly formatted TLV that was not supported on the receiving port |
Rx Quality Level | Indicates which QL value has been received from the interface |
Rx Signal Label | The received signal label |
Rx Trace Str (Hex) | The received SONET path trace string in hexadecimal |
sap | The physical port identifier portion of the SAP definition |
Sched Policy | The name of the scheduler policy assigned to the virtual port |
SCI | The Secure Channel Identifier (SCI) |
SD Threshold | The configured error rate threshold at which the SD (Signal Degrade) alarm is raised |
Security Zone | The security zone this port belongs |
Serial Number | The vendor serial number of the hardware component |
Server timeout | The 802.1x port server timeout |
Service-id port-id | The service IDs affected by the encap-match configured under this sub-port. One or more services can be affected by the match (by using * or by targeting ports with traffic aggregations, for example). |
SES-P | The number of Severely Errored Seconds |
SF Threshold | The configured error rate threshold at which the SF (Signal Fail) alarm is raised |
SF/SD Method | The selected method for declaring the SF (Signal Fail) or SD (Signal Degrade) alarm. When BIP8 is selected, the error rate of SM-BIP8 errors in the OTU frames declares SF or SD (This is very similar to SONET SF/SD which uses a rate of B2 errors). When FEC is selected, the rate of corrected bits declares SF or SD. This effectively indicates that the link would be degraded (SD) or failed (SF) if FEC was disabled and gives the user an early warning that the link is degrading or is about to fail. |
Sflow | Enabled — sFlow data collection for the port is enabled Disabled — sFlow data collection is disabled |
SFP/MDI MDX | GIGE — The GigE SFP type FASTE — The FastE SFP type GIGX — The GigX SFP type MDI — Indicates that the Ethernet interface is of type MDI (Media Dependent Interface) MDX — Indicates that the Ethernet interface is of type MDX (Media Dependent Interface with crossovers) |
Shaped Bandwidth | The total shaped bandwidth consumed on this interface in the egress direction |
Signal Label | The C2 byte value |
Single Fiber Mode | Yes - Single fiber option is configured No - Single fiber option is not configured |
Slot ID | The slot number of the card in the chassis |
SM BEI | The number of backward error indications received from the far end in the section monitor overhead |
SM BIP8 | The number of detected BIP-8 errors in the section monitor overhead |
SM SES | Section monitor severely errored seconds where the number of SM-BIP8 was greater than 15% of the maximum |
SM-TTI Rx | This is the SM-TTI (Section Monitor Trail Trace Identifier received by this port. When the received TTI is a printable string of characters, it will be displayed as a text string. When the received TTI contains one or more non-printable characters, it will be displayed at a sequence of 64 hex bytes. When the received TTI is all zeros, the string “Not Specified” will be displayed. |
SM-TTI Tx (<mode>) | This is the configured SM-TTI (Section Monitor Trail Trace Identifier) to be transmitted by this port in the OTU overhead bytes. The modes are auto, string, or bytes. In the auto and string modes, a printable character string will be displayed. In bytes mode, up to 64 hex bytes are displayed. |
Sngl Collisions | The number of frames that are involved in a single collision, and are subsequently transmitted successfully |
Speed | The speed of the DS0 channels used in the associated channel-group |
SQE Errors | The number of times that the SQE TEST ERROR is received on a particular interface |
SSM Code Type | The SSM code type in use on the port |
State | The current status of a PPP link. Values include initial, starting, closed, stopped, closing, stopping, requestSent, ackReceived, ackSent, opened. |
Subport | The MACsec sub-port used. Multiple MACsec instances can be configured under one port, matching traffic based on the encap-match parameter. |
subscr Subscriber | The subscriber ID |
Supplicant timeout | The 802.1x port supplicant timeout |
Suppress Threshold | The threshold at which the port up state is suppressed until the accumulated penalties drop below the reuse threshold again |
Svc ID svc-id | The service identifier |
Symbol Errors | For an interface operating at 100 Mb/s, the number of times there was an invalid data symbol when a valid carrier was present |
Sym Mon SD Thresh | The error rate (for symbol errors) at which to declare the Signal Degrade (SD) condition on an Ethernet interface. If the field displays Disabled, no error rate has been specified |
Sym Mon SF Thresh | The symbol error rate at which to declare the Signal Fail (SF) condition on an Ethernet interface. If the field displays Disabled, no error rate has been specified |
Sym Mon Window | The size of the sliding window, in seconds, over which the errors are measured |
Sync. Status Msg | Whether synchronization status messages are enabled or disabled |
Tagged Cells | The number of cells that have been demoted from CLP0 to CLP1 |
TC Alarm State | Notifications that are generated when the ATM interface indicates that the TC sublayer is currently in the Loss of Cell Delineation (LCD) defect maintenance state or when the TC sublayer is currently not in the Loss of Cell Delineation (LCD) defect maintenance state. |
Threshold exceeded | The number of times that the drop count was reached |
Time to link drop | The time remaining before the link will be declared dropped if a keepalive echo reply packet is not received |
TimeSlots | The DS0 time slot used in the T1/E1 channel-group |
Too long Frames | The number of frames received on a particular interface that exceed the maximum permitted frame size |
Too Long Packets | The number of transmitted packets discarded because the packet length is greater than the Maximum Transmission Unit (MTU) of the Ethernet physical interface |
Total number of access-egress queue groups | The total number of access-egress queue groups associated with the queue-group summary |
Total number of network-egress queue groups | The total number of network-egress queue groups associated with the queue-group summary |
Total number of access-ingress queue groups | The total number of access-ingress queue groups associated with the queue-group summary |
Tot Sym Mon Errs | The total number of symbol errors |
Trace String | The SONET path trace string |
Traffic Statistics | See the 7450 ESS, 7750 SR, 7950 XRS, and VSR Interface Configuration Guide, “Statistics on Physical PXC Ports” section |
Transceiver Code | The code for the transmission media |
Transceiver Digital Diagnostic Monitoring (DDM) | Transceiver Digital Diagnostic Monitoring (DDM) information, such as temperature and supply voltage |
Transceiver Lane Digital Diagnostic Monitoring (DDM) | Transceiver lane DDM information, such as lane temperature and Tx bias current |
Transceiver Status | The status of the transceiver |
Transceiver Type | The type of transceiver |
Transmit Interval | The transmit interval of OAMPDUs |
Transmit period | The 802.1x port transmit period |
Transmit TLVs | The LLDP TLV to transmit (port-desc, sys-name, sys-desc, sys-cap) |
Trigger Fault | The triggered EFM OAM fault |
Tunneling | true — The 802.1x port tunneling is on false — The 802.1x port tunneling is not on. |
Tunnel Nearest Bridge | The nearest bridge tunneling frames (enabled, disabled) |
Tx DUS/DNU | Whether the QL value is forcibly set to QL-DUS/QL-DNU |
Tx Frames | The number of LLDP frames transmitted from the port |
TX Laser Frequency | The transceiver laser frequency |
TX Laser Wavelength | The transceiver laser wavelength |
Tx Length Err Frames | The number of LLDP frames transmitted with length error from the port |
Tx Quality Level | The QL value being transmitted out of the interface |
Type | The connection type |
UAS-P | The number of Unavailable Seconds |
Unchecked Packets | The number of packets that have failed the integrity check on this SC |
Unequipped | The number of unequipped packets received |
Undersize Pckts | The total number of packets received that were less than 64 octets long (excluding framing bits, but including FCS octets) and were otherwise well formed |
Unicast MAC Destination Address Mismatch | The unicast destination MAC address is a null address or does not match any of the expected MAC addresses associated with the receiving interface. Packets with multicast or broadcast MAC addresses do not increment this counter |
Unicast Packets | Input — The number of input unicast packets Output — The number of output unicast packets |
Unicast Packets Input/Output | The number of packets, delivered by this sub-layer to a higher (sub-) layer, which were not addressed to a multicast or broadcast address at this sub-layer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a multicast or broadcast address at this sub-layer, including those that were discarded or not sent. |
Unicast Packets Input/Output | The number of packets, delivered by this sub-layer to a higher (sub-) layer, which were not addressed to a multicast or broadcast address at this sub-layer |
Unicast RPF Check Failed | The IP packet failed the unicast reverse path forwarding (uRPF) check |
Unknown MAC Destination Address Discarded in VPLS | The MAC destination address lookup in the MAC FDB failed and the VPLS service is configured to discard packets with unknown destination MAC addresses |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received through the interface which were discarded because of an unknown or unsupported protocol. For character-oriented or fixed-length interfaces that support protocol multiplexing the number of transmission units received via the interface which were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. For ATM, this field displays cells discarded on an invalid vpi/vci. Unknown proto discards do not show up in the packet counts. |
Unknown Proto Discards | Input — The number of discarded unknown protocol packets |
Untagged Packets | The number of transmitted packets without the MAC security tag (SecTAG) when the value oftmnxMacsecConnAssocReplayProtect for the configured CA is set to 'false' |
Use Broadcast Addr | True — Indicates that the broadcast address is to be used for the destination MAC address False — Indicates that the local port MAC address is to be used for the destination MAC address |
user rx frames | The 802.1x session user Rx frames |
user rx octets | The 802.1x session user Rx octets |
user tx frames | The 802.1x session user Tx frames |
user tx octets | The 802.1x session user Tx octets |
Utilization Input/Output | The value computed as the average of the traffic observed over the configured interval, presented as a percentage of the maximum possible traffic |
Validated Octets | The number of octets of plain text recovered from received packets that were integrity protected but not encrypted |
Vendor OUI | The vendor-specific Organizationally Unique Identifier (OUI) field containing the IEEE company identifier for the vendor |
Violation Last Seen | The date and time of the last violation |
Violation Threshold Percnt | The violation threshold percentage |
Violation Total Count | The violation total count |
VPI/VCI | The VPI/VCI values |
Vport Name | The virtual port name |
Wavelength Tracker | Displays wavelength tracker information |
Weight | The relative weight of this scheduler in comparison to other child schedulers and queues at the same strict level |
Wghtd Avg Queue Poll Interval | The weighted average queue poll interval |
Wghtd Avg HiWtrMark Poll Interval | The weighted average high water mark queue poll interval |
Platforms
All
port
Syntax
Context
Full Contexts
Description
This command displays information about all ports configured on all cards in the chassis.
Parameters
Output
The following output is an example of port information.
Platforms
All
port
Syntax
Context
Full Contexts
Description
This command clears port statistics for the specified ports.
Parameters
bundle-type-slot/mda.bundle-num | |
bundle | keyword |
type | ima, fr, ppp |
bundle-num | 1 to 336 |
bpgrp-type-bpgrp-num | |
bgrp | keyword |
type | ima, ppp |
bgrp-num | 1 to 2000 |
aps-group-id[.channel] | |
aps | keyword |
group-id | 1 to 64 |
Output
The following output is an example of port information.
Platforms
All
port
Syntax
Context
Full Contexts
Description
Commands in this context dump port information.
Parameters
port-id | slot/mda/port | ||
bundle-id | bundle-type-slot/mda.bundle-num | ||
bundle | keyword | ||
type | ima, fr, ppp | ||
bundle-num | 1 to 336 | ||
bpgrp-id | bpgrp-type-bpgrp-num | ||
bpgrp | keyword | ||
type | ima, ppp | ||
bpgrp-num | 1 to 2000 | ||
aps-id | aps-group-id | ||
aps | keyword | ||
group-id | 1 to 128 | ||
Platforms
All
port
Syntax
Context
Full Contexts
Description
This command displays PIM port information.
Parameters
Output
The following output is an example of service PIM snooping information.
Platforms
All
port
Syntax
Context
Full Contexts
Description
This command dumps information about a port.
Parameters
Output
The following output is an example of port information.
Platforms
7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
port
Syntax
Context
Full Contexts
Description
This command displays information about the policer hierarchy per port.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, 7950 XRS, VSR
port
Syntax
Context
Full Contexts
Description
This command displays scheduler hierarchy information per port.
Parameters
port-id | slot/mda/port [.channel] | ||
eth-sat-id | esat-id/slot/port | ||
esat | keyword | ||
id | 1 to 20 | ||
pxc-id | pxc-id.sub-port | ||
pxc | keyword | ||
id | 1 to 64 | ||
sub-port | a, b | ||
Output
The following output is an example of port scheduler hierarchy information, and Table 358 describes port scheduler hierarchy fields.
Table 358: Show QoS Schedule-Hierarchy Port Output Fields
Label | Description |
S | Displays the scheduler name. |
Q | Displays the queue ID and information. |
Admin CIR/PIR: | Specifies the configured value of CIR/PIR. |
Assigned CIR/PIR: | Specifies the on-the-wire PIR/CIR rate given to a member by that parent level. |
Offered CIR/PIR: | Specifies the on-the-wire offered load on that member. |
Consumed CIR/PIR: | Specifies the amount of scheduler bandwidth used by this member. |
Platforms
All
port
Syntax
Context
Full Contexts
Description
This command displays the H-QoS aggregate rate limit per port or Vport.
Parameters
port-id | slot/mda/port [.channel] | ||
eth-sat-id | esat-id/slot/port | ||
esat | keyword | ||
id | 1 to 20 | ||
pxc-id | pxc-id.sub-port | ||
pxc | keyword | ||
id | 1 to 64 | ||
sub-port | a, b | ||
Output
The following output is an example of QoS port aggregation rate output, and Table 359 describes the QoS port aggregation rate fields.
Table 359: Show QoS Aggregation Rate Port Output Fields
Label | Description |
Egress Scheduler Policy | Indicates the name of the egress scheduler policy. |
Egress Queue-Group | Indicates the queue group name. |
Instance-Id | Indicates the identifier of a specific instance of the queue group. |
AdminRate | Displays the configured aggregate rate in the subscriber profile. |
OperRate | Displays the actual downstream rate. |
Limit Unused Bandwidth | Indicates whether the limit-unused-bandwidth command is enabled to protect against exceeding the aggregated bandwidth |
OnTheWireRates | Indicates whether the displayed rates are on-the-wire rates. |
LastMileOnTheWireRates | Indicates whether the displayed rates are on-the-wire rates for the last mile only. |
Platforms
All
port
Syntax
Context
Full Contexts
Description
This command displays port information.
Parameters
Output
The following output is an example of PTP port information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
port
Syntax
Context
Full Contexts
Description
This command clears PTP port information.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
port
Syntax
Context
Full Contexts
Description
This command enables port traffic monitoring. The specified port(s) statistical information displays at the configured interval until the configured count is reached.
The first screen displays the current statistics related to the specified port(s). The subsequent statistical information listed for each interval is displayed as a delta to the previous display.
When the rate is specified, the "rate per second" for each statistic is displayed instead of the delta.
Monitor commands are similar to show commands but only statistical information displays. Monitor commands display the selected statistics according to the configured number of times at the interval specified.
Parameters
port-id | slot/mda/port [.channel] | ||
eth-sat-id | esat-id/slot/port | ||
esat | keyword | ||
id | 1 to 20 | ||
pxc-id | pxc-id.sub-port | ||
pxc | keyword | ||
id | 1 to 64 | ||
sub-port | a, b | ||
aps-id | aps-group-id[.channel] | ||
aps | keyword | ||
group-id | 1 to 64 | ||
bundle ID | bundle-type-slot/mda.bundle-num | ||
bundle | keyword | ||
type | ima, ppp | ||
bundle-num | 1 to 128 | ||
bpgrp-type-bpgrp-num | |||
Output
The following output is an example of port Ethernet information.
Platforms
All
port
Syntax
Context
Full Contexts
Description
This command enables port traffic monitoring. Various keywords can be used to monitor specific attributes of the ATM port. The specified port(s) statistical information displays at the configured interval until the configured count is reached.
The first screen displays the current statistics related to the specified port(s). The subsequent statistical information listed for each interval is displayed as a delta to the previous display.
When the rate is specified, the "rate per second" for each statistic is displayed instead of the delta.
Monitor commands are similar to show commands but only statistical information displays. Monitor commands display the selected statistics according to the configured number of times at the interval specified.
Parameters
port-id | slot/mda/port [.channel] | ||
bundle-id | bundle-type-slot/mda.bundle-num | ||
bundle | keyword | ||
type | ima, fr, ppp | ||
bundle-num | 1 to 336 | ||
bgrp-id | bpgrp-type-bpgrp-num | ||
bgrp | keyword | ||
type | ima, ppp | ||
bgrp-num | 1 to 2000 | ||
aps-id | aps-group-id[.channel] | ||
aps | keyword | ||
group-id | 1 to 64 | ||
Output
The following output is an example of port ATM information.
Platforms
All
port
Syntax
Context
Full Contexts
Description
This command monitors arbiter statistics in an egress port queue group.
Parameters
port-id | slot/mda/port [.channel] | ||
eth-sat-id | esat-id/slot/port | ||
esat | keyword | ||
id | 1 to 20 | ||
pxc-id | pxc-id.sub-port | ||
pxc | keyword | ||
id | 1 to 64 | ||
sub-port | a, b | ||
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, 7950 XRS, VSR
port
Syntax
Context
Full Contexts
Description
This command enables port traffic monitoring.
Parameters
port-id | slot/mda/port [.channel] | ||
eth-sat-id | esat-id/slot/port | ||
esat | keyword | ||
id | 1 to 20 | ||
pxc-id | pxc-id.sub-port | ||
pxc | keyword | ||
id | 1 to 64 | ||
sub-port | a, b | ||
Platforms
All
port
Syntax
Context
Full Contexts
Description
This command monitors expanded secondary shaper statistics.
Parameters
Platforms
All
port
Syntax
Context
Full Contexts
Description
This command clears the arbiter statistics per port.
Parameters
port-id | slot/mda/port [.channel] | ||
pxc-id | pxc-id.sub-port | ||
pxc | keyword | ||
id | 1 to 64 | ||
sub-port | a, b | ||
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, 7950 XRS, VSR
port
Syntax
Context
Full Contexts
Description
This command clears the scheduler statistics per port.
Parameters
Platforms
All
port
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, 7950 XRS, VSR
port
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, 7950 XRS, VSR
19.65. port-connection
port-connection
Syntax
Context
Full Contexts
Description
This command displays port connection information.
Parameters
Output
The following output is an example of port connection information, and Table 360 describes the output fields.
Table 360: Output Fields: show multilink-bundle <bundle-id> ima atm port-connection
Label | Description |
Port ID | Displays the port ID for this bundle. |
Admin State | ima — Indicates that the bundle is of type IMA group. Down — The bundle is administratively down. |
Oper State | Up — The bundle is operationally up. Down—The bundle is operationally down. |
Owner | Identifies the system entity that owns a specific ATM connection. |
Endpoint Type | Displays the endpoint type. |
Cast Type | Indicates the connection topology type. |
Ing. Td Idx | Specifies the ATM traffic descriptor profile that applies to the receive direction of the interface connection. |
Egr. Td Idx | Specifies the ATM traffic descriptor profile that applies to the transmit direction of the interface connection. |
Last Changed | Indicates the date and time when the interface connection entered its current operational state. |
Platforms
7450 ESS, 7750 SR-7/12/12e
19.66. port-db
port-db
Syntax
Context
Full Contexts
Description
This command displays MLD snooping information related to a specific SAP.
Output
The following output is an example of MLD snooping information for a specific SAP.
Platforms
All
port-db
Syntax
Context
Full Contexts
Description
This command displays information on the IGMP snooping port database for the VPLS service.
Parameters
Output
Table 361 describes the show output fields.
Table 361: IGMP Snooping Port Database Fields
Label | Description |
Group Address | The IP multicast group address for which this entry contains information. |
Mode | Specifies the type of membership reports received on the interface for the group. In the include mode, reception of packets sent to the specified multicast address is requested only from those IP source addresses listed in the source-list parameter of the IGMP membership report. In the exclude mode, reception of packets sent to the specified multicast address is requested from all IP source addresses except those listed in the source-list parameter. |
Type | Indicates how this group entry was learned. If this group entry was learned by IGMP, the value is set to dynamic. For statically configured groups, the value is set to static. |
Compatibility mode | Specifies the IGMP mode. This is used for routers to be compatible with older-version routers. IGMPv3 hosts must operate in Version 1 and Version 2 compatibility modes. IGMPv3 hosts must keep state per local interface regarding the compatibility mode of each attached network. A host's compatibility mode is determined from the host compatibility mode variable which can be in one of three states: IGMPv1, IGMPv2 or IGMPv3. This variable is kept per interface and is dependent on the version of general queries heard on that interface as well as the older-version querier present timers for the interface. |
V1 host expires | The time remaining until the local router will assume that there are no longer any IGMP Version 1 members on the IP subnet attached to this interface. Upon hearing any IGMPv1 membership report, this value is reset to the group membership timer. While this time remaining is non-zero, the local router ignores any IGMPv2 leave messages for this group that it receives on this interface. |
V2 host expires | The time remaining until the local router will assume that there are no longer any IGMP Version 2 members on the IP subnet attached to this interface. Upon hearing any IGMPv2 membership report, this value is reset to the group membership timer. While this time remaining is non-zero, the local router ignores any IGMPv3 leave messages for this group that it receives on this interface. |
Source address | The source address for which this entry contains information. |
Up Time | The time since the source group entry was created. |
Expires | The amount of time remaining before this entry will be aged out. |
Number of sources | Indicates the number of IGMP group and source specific queries received on this SAP. |
Forwarding/Blocking | Indicates whether this entry is on the forward list or block list. |
Number of groups | Indicates the number of groups configured for this SAP. |
Platforms
All
port-db
Syntax
Context
Full Contexts
Description
This command clears the information on the IGMP snooping port database for the VPLS service.
Parameters
Platforms
All
port-db
Syntax
Context
Full Contexts
Description
This command clears MLD snooping port-db group data.
Parameters
Platforms
All
19.67. port-forwarding-action
port-forwarding-action
Syntax
Context
Full Contexts
Description
This command displays NAT port forwarding actions.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
19.68. port-forwarding-entries
port-forwarding-entries
Syntax
Context
Full Contexts
Description
This command displays port forwarding entries.
Output
The following is sample output for this command.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
19.69. port-list
port-list
Syntax
Context
Full Contexts
Description
This command displays TCP/UDP/SCTP port values or ranges for match criteria in IPv4 and IPv6 ACL and CPM filter policies.
Parameters
Platforms
All
port-list
Syntax
Context
Full Contexts
Description
This command displays the list of configured QoS port lists or the details of a specific QoS port list together with the network QoS policies in which it is used and the entry number within that policy.
Parameters
Output
The following output is an example of QoS port list information. Table 362 describes the output fields.
Table 362: Output Fields: show qos match-list port-list
Label | Description |
Port List Name | Displays the port list name. |
Description | Displays the port list description. |
Num Ports/Range | Displays the number of ports or range of ports. |
No. of Port-List | Displays the number of port lists. |
QoS Policy ID | Displays the QoS policy ID. |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
19.70. port-map
port-map
Syntax
Context
Full Contexts
Description
This command displays information about configured satellites port maps.
Parameters
Output
The following output is an example of TDM satellite port map information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
- show system satellite eth-sat port-map
7450 ESS, 7750 SR-7/12/12e, 7750 SR-a, 7750 SR-e
- show system satellite tdm-sat port-map
19.71. port-policy
port-policy
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
19.72. port-queues
port-queues
Syntax
Context
Full Contexts
Description
Parameters
Platforms
All
port-queues
Syntax
Context
Full Contexts
Description
Parameters
Platforms
All
19.73. port-recorder detail
port-recorder detail
Syntax
Context
Full Contexts
Description
This command saves the port recorded by the tool into a file. The port-recorder is configured using debug commands.
Parameters
local-url: | <cflash-id>/][<file-path>] | |
200 chars max, including cflash-id | ||
directory length 99 chars max each | ||
remote-url: | [{ftp://| tftp://}<login>:<pswd>@<remote-locn>/][<file-path>] | |
255 chars max | ||
directory length 99 chars max each | ||
remote-locn: | <hostname> | <ipv4-address> | <ipv6-address> ] | |
ipv4-address | a.b.c.d | |
ipv6-address | x:x:x:x:x:x:x:x[-interface] | |
x:x:x:x:x:x:d.d.d.d[-interface] | ||
x - [0..FFFF]H | ||
d - [0..255]D | ||
interface | 32 chars max, for link local addresses | |
cflash-id | flash slot ID | |
19.74. port-recorder status
port-recorder status
Syntax
Context
Full Contexts
Description
This command displays the current status of the port-recorder with current-time, start-time, stop-time, sample-rates as well as number of bytes and flows for UDP and TCP traffic on the specified AA ISA card. The port-recorder is configured using debug commands.
Parameters
19.75. port-recorder top
port-recorder top
Syntax
Context
Full Contexts
Description
This command displays by bytes or flows the top ports recorded by the tool on a particular AA ISA.
Parameters
19.76. port-scheduler
port-scheduler
Syntax
Context
Full Contexts
Description
This command monitors port scheduler statistics.
Parameters
Platforms
All
port-scheduler
Syntax
Context
Full Contexts
Description
Parameters
Platforms
All
port-scheduler
Syntax
Context
Full Contexts
Description
Parameters
Platforms
All
port-scheduler
Syntax
Context
Full Contexts
Description
Parameters
Platforms
All
19.77. port-scheduler-policy
port-scheduler-policy
Syntax
Context
Full Contexts
Description
This command displays port-scheduler policy information
Parameters
Output
The following output is an example of QoS port scheduler policy information, and Table 363 describes the QoS port scheduler policy fields.
The following configuration displays dist-lag-rate-shared and percent-rate for level, group and max-rate in a port-scheduler-policy.
Overrides
The following output shows a port-scheduler-policy showing Dist Lag Rate and percent parameters.
Table 363: Show QoS Port Scheduler Output Fields
Label | Description |
Policy Name | Displays the port scheduler policy name. |
HQOS Algorithm | Displays the port scheduler H-QoS algorithm used to calculate the operational rates for the children connected to the port scheduler. |
Max Rate | Displays the explicit maximum frame-based bandwidth limit of this port scheduler. |
Lvlx PIR | Displays the total bandwidth limit, PIR, for the specified priority level. |
Lvlx CIR | Displays the within-CIR bandwidth limit for the specified priority level. |
Orphan Lvl | Displays above-CIR port priority of orphaned queues and scheduler. |
Orphan Weight | Displays the weight of orphaned queues and schedulers that are above-CIR. |
Orphan CIR-Lvl | Displays the port priority of orphaned queues and schedulers that are within-CIR. |
Orphan CIR-Weight | Displays the weight of orphaned queues and schedulers that are within-CIR. |
Associations | Displays associations related to the specified port scheduler policy. |
Mode | Displays the port scheduler policy mode (STRICT, RR, WRR, WDRR). |
Accounting | Displays whether the accounting mode is frame-based or packet-based |
Last Changed | Displays the last time the configuration changed. |
Queue # | Displays the weight of the queue if configured. |
Platforms
All
19.78. port-topology
port-topology
Syntax
Context
Full Contexts
Description
This command generates a listing of the internal connections within the router. These include connections to satellite ports. Use of the uni-dir keyword will list each connection twice; once for each direction.
Parameters
Output
The following output is an example of port topology information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
19.79. port-tree
port-tree
Syntax
Context
Full Contexts
Description
This command displays the tree for SONET/SDH or TDM ports/channels WAN PHY mode (xgig wan) Ethernet ports.
Parameters
Table 364: Port ID Values
Product | Slot | MDA | Port | Values |
7750 SR-12 | 1 to 10 | 1, 2 | 1 to 60 (depending on the MDA type) | — |
7750 SR-7 | 1 to 5 | 1, 2 | — | |
7950 XRS | 1 to 20 | — | — | |
7450 ESS-7 | — | — | 1 to 4 | |
7450 ESS-12 | — | — | 1 to 10 | |
Channelized MDAs | ||||
CHOC12-SFP | — | slot/mda/port. [1 to 4] . [1 to 3] . [1 to 28] . [..24] For example, 7/2/1.1.1.28.24 | ||
CHOC3-SFP | — | slot/mda/port. [1 to 3] . [1 to 28] . [..24] For example, 7/2/1.1.28.24 | ||
DS3 | — | slot/mda/port. [1 to 28] . [..24] For example, 7/1/1.1.1 | ||
Output
The following output is an example of port information, and Table 365 describes the output fields.
Table 365: Output Fields: show port-tree <port-id>
Label | Description |
IfIndex | Displays the interface index number which reflects its initialization sequence. |
type | Specifies the type. |
sonet-sdh-index | Specifies the sonet-sdh-index. |
* | When an asterisk (*) is displayed after the sonet-sdh-index, the port/channel is provisioned. |
Platforms
All
19.80. port-xc
port-xc
Syntax
Context
Full Contexts
Description
This command displays information about Port Cross-Connect (PXC) information.
Parameters
Output
The following output is an example of PXC information, and Table 366 describes the output fields.
Table 366: Output Fields: port-xc
Label | Description |
PXC Id | The port cross-connect identifier |
Admin State | The administrative state of the port |
Oper State | The operational state of the port |
Port Id | The port ID |
Description | The PXC ID description |
Interface | The port ID |
MAC Chip Number | The MAC chip number for this port |
Licensed | Yes — The port is licensed and can be used in a service configuration. No — The port is unlicensed and may not be used |
IFIndex | Displays the interface's index number which reflects its initialization sequence. |
Last State Change | Displays the last time the operational status of the port changed state. |
Ing. Pool % Rate | The increment or decrement of the active bandwidth associated with the ingress port. This active bandwidth affects the amount of ingress buffer space managed by the port. |
Egr. Pool % Rate | The increment or decrement of the active bandwidth associated with the egress port. This active bandwidth affects the amount of egress buffer space managed by the port. |
Platforms
All
19.81. post-policer-mapping
post-policer-mapping
Syntax
Context
Full Contexts
Description
This command displays information about post-policer mapping policies. Omitting the policy name will list all policies.
Parameters
Output
This section shows sample output for post-policer mapping.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, 7950 XRS, VSR
19.82. power-management
power-management
Syntax
Context
Full Contexts
Description
This command shows the power management requirement and utilization information for the 7950 XRS.
Parameters
Output
The following output is an example of power management information, and Table 367 describes the output fields.
Table 367: Output Fields: show chassis power-management
Label | Description |
Power Management Mode | Specifies the configured power management mode: None, Basic, or Advanced. |
Power Safety Level | Specifies the configured Power Safety Level, which is a percentage of the worst case power consumption level. |
Power Safety Alert | Specifies the configured power level in watts, which causes the system to raise an alarm if the available power level drops below a set level. |
Power-Zone | Specifies the chassis power zone. |
Number of PEQs | Specifies the total number of APEQs installed. |
PEQ number: | Specifies the APEQ to which the information is associated |
PEQ Equipped Type | Specifies the APEQ type installed. |
PEQ Provisioned Type | Specifies the APEQ type provisioned. |
Status | Specifies the APEQ status. |
Input Feed Status | Specifies the feed status. This field indicates that power is detected on all inputs or lists the inputs where no power is detected. |
PCM Equipped Type | Indicates the type of PCM installed in the specified PIM or PCM slot:
Some PCMs can only be verified for presence based on power available at the associated APEQ. These are indicated as indeterminate. When the equipped type is quad-pcm, the additional fields of Power-Zone, Status, and Input Feed Status and Hardware Data are displayed. |
PCM Provisioned Type | One of the following types:
For a given PCM number, if the equipped type is not detected and the provisioned type is not specified, the PCM is not displayed. |
Hardware Data: | |
Part number | The APEQ part number. |
CLEI code | The APEQ CLEI code. |
Serial number | The APEQ serial number. |
Manufacture date | The date the APEQ was manufactured. |
Manufacturing deviations | Specifies any manufacturing deviations. |
Manufacturing assembly number | The APEQ assembly number. |
Administrative state | Specifies the administrative state of the APEQ. |
Operational state | Specifies the operational state of the APEQ. |
Time of last boot | Indicates the time stamp of the last system restart. |
Current alarm state | Indicates the current alarm state. |
Platforms
7750 SR-12e, 7750 SR-s, 7950 XRS
19.83. power-module
power-module
Syntax
Context
Full Contexts
Description
This command displays the power-module.
Parameters
Output
The following output is an example of a power module
Platforms
7750 SR-s
power-module
Syntax
Context
Full Contexts
Description
This command toggles the output power of the power module, turning it off for two seconds then on. This procedure can be used to clear an ovSD (output voltage shutdown) fault. The only alternative method to clear the ovSD fault is to physically remove the power module from the power shelf and re-insert. Running this command does not clear the latched faults.
Parameters
Platforms
7750 SR-s
power-module
Syntax
Context
Full Contexts
Description
This command displays the specified power module information, telemetry, and fault data. When a fault is no longer active it remains marked as a latched fault for tracking purposes until manually cleared.
Parameters
Platforms
7750 SR-s
power-module
Syntax
Context
Full Contexts
Description
This command clears all the latched faults for inactive faults.
Parameters
Platforms
7750 SR-s
19.84. power-shelf
power-shelf
Syntax
Context
Full Contexts
Description
This command displays the power shelf.
Parameters
Output
The following output is an example of power shelves
Platforms
7750 SR-s
power-shelf
Syntax
Context
Full Contexts
Description
Commands in this context clear power-shelf components.
Parameters
Platforms
7750 SR-s
power-shelf
Syntax
Context
Full Contexts
Description
Commands in this context display power-shelf information.
Parameters
Platforms
7750 SR-s
power-shelf
Syntax
Context
Full Contexts
Description
Commands in this context configure power-shelf parameters.
Parameters
Platforms
7750 SR-s
19.85. ppp
ppp
Syntax
Context
Full Contexts
Description
Commands in this context clear PPP related data for the service.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ppp
Syntax
Context
Full Contexts
Description
Commands in this context display service PPP information for the specified service.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ppp
Syntax
Context
Full Contexts
Description
Commands in this context display PPP information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ppp
Syntax
Context
Full Contexts
Description
This command provides the tools to control PPPoE entries in the local user database.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ppp
Syntax
Context
Full Contexts
Description
Commands in this context display Point-to-Point Protocols (PPP) call trace information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ppp
Syntax
Context
Full Contexts
Description
Parameters
Platforms
All
ppp
Syntax
Context
Full Contexts
Description
Commands in this context display PPP group data.
Parameters
Output
The following output is an example of PPP information.
Platforms
7450 ESS, 7750 SR-7/12/12e
ppp
Syntax
Context
Full Contexts
Description
This command displays PPP information for a port.
Parameters
port-id | slot/mda/port [.channel] | ||
bundle-id | bundle-type-slot/mda.bundle-num | ||
bundle | keyword | ||
type | ppp | ||
bundle-num | 1 to 336 | ||
bpgrp | bpgrp-type-bpgrp-num | ||
bpgrp | keyword | ||
type | ppp | ||
bpgrp-num | 1 to 2000 | ||
aps-id | aps-group-id[channel.] | ||
aps | keyword | ||
group-id | 1 to 128 | ||
eth-sat-id | esat-id/slot/port | ||
esat | keyword | ||
id | 1 to 20 | ||
pxc-id | pxc-id.sub-port | ||
pxc | keyword | ||
id | 1 to 64 | ||
sub-port | a, b | ||
Output
The following output is an example of PPP information.
Platforms
All
19.86. ppp-policy
ppp-policy
Syntax
Context
Full Contexts
Description
This command displays PPP policy information.
Parameters
Output
The following output displays PPP policy information and Table 368 describes the field descriptions.
Table 368: Show Subscriber Management PPP Policy Field Descriptions
Label | Description |
Description | Specifies the description. |
Last Mgmt Change | Specifies the date and time of the last management change. |
PPP-mtu | Specifies the configured maximum PPP MTU size. |
Force PPP-mtu >1492 | Specifies if PPPoE MRU negotiations greater than 1492 bytes are enabled without receiving a "PPP-Max-Payload" tag in the PADI/PADR client message (Yes, No). |
Keepalive Interval | Specifies the keepalive interval, in seconds. |
Keepalive Multiplier | Specifies the keepalive multiplier value. |
Disable AC-Cookies | Specifies to disable AC cookies (Yes, No). |
PADO Delay | Specifies the PADO delay value, in milliseconds. |
Max Sessions-Per-Mac | Specifies the maximum number of sessions with the same client MAC address and active on the same SAP or MSAP. |
Reply-On-PADT | Specifies to reply on PADT (Yes, No). |
Allow Same CID | Specifies to allow the same Circuit ID for multiple PPPoE sessions with the same client MAC address and active on the same SAP when using the internal DHCPv4 client for IPv4 address allocation (Yes, No). |
Re-establish Session | Specifies if a PPPoE session can be re-established upon receiving a PADR from a PPPoE client that previously disconnected without sending a PADT and for which a session is still active in the BNG (PADR, Disabled). |
PPP-Authentication | Specifies the PPP Authentication method (PAP, CHAP, pref-PAP or pref-CHAP). |
PPP-CHAP Challenge | Specifies the minimum and maximum length of a PPP CHAP Challenge (in bytes). |
PPP-Init-Delay (ms) | Specifies the delay in milliseconds for sending an LCP configure request after the discovery phase. |
IPCP negotiate subnet | Specifies if IPCP subnet negotiation is enabled (Yes, No). |
Unique SIDs-Per-SAP | Specifies the unique SIDs per-SAP (disabled, per-capture-sap, per-msap). |
Reject-Disabled-Ncp | Specifies if an LCP protocol reject is sent for an unconfigured NCP (Yes, No). |
Ignore-Magic-Num | Specifies if the LCP peer magic number should be ignored (Yes, No). |
Session Timeout | Specifies the session timeout value in seconds (default = unlimited). |
SID Allocation | Specifies the PPPoE Session ID allocation method (sequential, random). |
PADO AC-Name | Specifies the AC name used in PADO messages. |
Default username | Specifies the default username for PAP or CHAP authentication. |
Default password | Specifies the default PAP password (Specified, Not specified). |
Accept MRRU | Specifies to accept MRRU (true, false). |
Request short sequence nr. | Specifies to request short sequence numbers (true, false). |
Endpoint class | Specifies the endpoint class (null, ipv4-address or mac-address). |
Endpoint address | Specifies the endpoint IPv4 or mac address. |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
ppp-policy
Syntax
Context
Full Contexts
Description
This command displays PPP policy information.
Parameters
Output
The following output displays PPP policy information and Table 369 describes the field descriptions.
Table 369: Show Subscriber Management PPP Policy Field Descriptions
Label | Description |
Description | Specifies the description. |
Last Mgmt Change | Specifies the date and time of the last management change. |
PPP-mtu | Specifies the configured maximum PPP MTU size. |
Force PPP-mtu >1492 | Specifies if PPPoE MRU negotiations greater than 1492 bytes are enabled without receiving a "PPP-Max-Payload" tag in the PADI/PADR client message (Yes, No). |
Keepalive Interval | Specifies the keepalive interval, in seconds. |
Keepalive Multiplier | Specifies the keepalive multiplier value. |
Disable AC-Cookies | Specifies to disable AC cookies (Yes, No). |
PADO Delay | Specifies the PADO delay value, in milliseconds. |
Max Sessions-Per-Mac | Specifies the maximum number of sessions with the same client MAC address and active on the same SAP or MSAP. |
Reply-On-PADT | Specifies to reply on PADT (Yes, No). |
Allow Same CID | Specifies to allow the same Circuit ID for multiple PPPoE sessions with the same client MAC address and active on the same SAP when using the internal DHCPv4 client for IPv4 address allocation (Yes, No). |
Re-establish Session | Specifies if a PPPoE session can be re-established upon receiving a PADR from a PPPoE client that previously disconnected without sending a PADT and for which a session is still active in the BNG (PADR, Disabled). |
Max Sessions-Per-Cid | Specifies the maximum number of sessions with the same Agent Circuit ID that can be active on the same SAP or MSAP. |
Allow No CID | Specifies whether PPPoE sessions without an Agent Circuit ID to be established on a SAP or MSAP with a max-sessions-per-cid limit configured (Yes, No). |
PPP-Authentication | Specifies the PPP Authentication method (PAP, CHAP, pref-PAP or pref-CHAP). |
PPP-CHAP Challenge | Specifies the minimum and maximum length of a PPP CHAP Challenge (in bytes). |
PPP-Init-Delay (ms) | Specifies the delay in milliseconds for sending an LCP configure request after the discovery phase. |
IPCP negotiate subnet | Specifies if IPCP subnet negotiation is enabled (Yes, No). |
Unique SIDs-Per-SAP | Specifies the unique SIDs per-SAP (disabled, per-capture-sap, per-msap). |
Reject-Disabled-Ncp | Specifies if an LCP protocol reject is sent for an unconfigured NCP (Yes, No). |
Ignore-Magic-Num | Specifies if the LCP peer magic number should be ignored (Yes, No). |
Session Timeout | Specifies the session timeout value in seconds (default = unlimited). |
SID Allocation | Specifies the PPPoE Session ID allocation method (sequential, random). |
PADO AC-Name | Specifies the AC name used in PADO messages. |
Default username | Specifies the default username for PAP or CHAP authentication. |
Default password | Specifies the default PAP password (Specified, Not specified). |
Accept MRRU | Specifies to accept MRRU (true, false). |
Request short sequence nr. | Specifies to request short sequence numbers (true, false). |
Endpoint class | Specifies the endpoint class (null, ipv4-address or mac-address). |
Endpoint address | Specifies the endpoint IPv4 or mac address. |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.87. pppoe
pppoe
Syntax
Context
Full Contexts
Description
Commands in this context display PPPoE information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pppoe
Syntax
Context
Full Contexts
Description
Commands in this context clear the PPPoE job.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pppoe
Syntax
Context
Full Contexts
Description
Commands in this context clear PPPoE-related data for the specified service.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.88. pppoe-client
pppoe-client
Syntax
Context
Full Contexts
Description
This command displays information of PPPoE clients started by the vRGW.
Parameters
Output
The following output is an example of PPPoE client information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
pppoe-client
Syntax
Context
Full Contexts
Description
This command enables tools for controlling PPPoE clients in a BRG.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.89. pppoe-client-policy
pppoe-client-policy
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.90. prefix-ext-stats
prefix-ext-stats
Syntax
Context
Full Contexts
Description
This command displays extended statistics per DHCPv6 prefix in local DHCPv6 server.
The following statistics are included in output:
- The number of stable leases in the prefix
- The number of provisioned /64 address block in the prefix
- The number of used /64 address block in the prefix
- The number of free /64 address block in the prefix
- The percentage of used address (with /64 address block)
- The percentage of free address (with /64 address block)
For each statistic (except for Provisioned Addresses), there is current value and peak value, peak value is the highest value since prefix creation or last reset via command clear>router rt-id>dhcp6>local-dhcp-server svr-name>prefix-ext-stats.
When the pool parameter is used, the statistics of each prefix in the pool are displayed.
Parameters
Output
The following output is an example of prefix extended stats information.
Table 370 describes extended prefix statistics output fields.
Table 370: Prefix Extended Statistics Field Descriptions
Field | Description |
Current | The current extended prefix statistics |
Peak | The peak value since the last reset |
TimeStamp | The date and time of the last reset |
Failover Oper State | The operational state of the DHCP specified prefix |
Stable Leases | The number of stable leases |
Provisioned Blks | The number of provisioned blocks |
Used Blks | The number of used blocks |
Free Blks | The number of free blocks |
Used Pct | The percentage of extended prefixes in use |
Free Pct | The percentage of free prefixes in use |
Last Reset Time | The date and time of the last reset |
Number of entries | The total number of entries |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
prefix-ext-stats
Syntax
Context
Full Contexts
Description
This command reset the begin time of peak values in output of the show router rt-id dhcp6 local-dhcp-server svr-name prefix-ext-stats command/
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.91. prefix-label
prefix-label
Syntax
Context
Full Contexts
Description
This command displays BGP Prefix label information.
Platforms
All
19.92. prefix-sids
prefix-sids
Syntax
Context
Full Contexts
Description
This command displays IS-IS prefix SIDs.
Parameters
- a.b.c.d (host bits must be 0)
- x:x:x:x:x:x:x:x (eight 16-bit pieces)
- x:x:x:x:x:x:d.d.d.d
- x: [0 to FFFF]H
- d: [0 to 255]D
- ipv6-prefix-length: [0 to 128]
Output
The following outputs are examples of prefix SID information, and Table 371 describes the output fields.
Table 371: IS-IS Prefix SIDs Output Fields
Label | Description |
Prefix | Displays the IP prefix for the SID |
SID | Displays the SID value |
Adv-Rtr | Displays the IP address of the advertised router |
SRMS | Displays whether the prefix SID is advertised by the SR mapping server (Y or N) or selected to be programmed (S) |
Flags | Displays the SID flags |
No. of Prefix/SIDs | Displays the number of Prefix/SIDs |
Platforms
All
prefix-sids
Syntax
Context
Full Contexts
Description
This command displays OSPF prefix SIDs.
Parameters
Output
The following outputs are examples of OSPF prefix SIDs information, and Table 372 describes the output fields.
Table 372: OSPF Prefix SIDs Output Fields
Label | Description |
Prefix | Displays the IP prefix for the SID |
Area | Displays the OSPF area |
RtType | Displays the route type (INTRA-AREA or INTER-AREA) |
SID | Displays the SID value |
Adv-Rtr | Displays the IP address of the advertised router |
SRMS | Displays whether the prefix SID is advertised by the SR mapping server (Y or N) or selected to be programmed (S) |
Flags | Displays the SID flags |
No. of Prefix/SIDs | Displays the number of Prefix/SIDs |
Platforms
All
prefix-sids
Syntax
Context
Full Contexts
Description
This command displays OSPF prefix SIDs.
Parameters
Output
The following outputs are examples of OSPFv3 prefix SIDs information, and Table 373 describes the output fields.
Table 373: OSPFv3 Prefix SIDs Output Fields
Label | Description |
Prefix | Displays the IP prefix for the SID |
Area | Displays the OSPF area |
RtType | Displays the route type (INTRA-AREA or INTER-AREA) |
SID | Displays the SID value |
Adv-Rtr | Displays the IP address of the advertised router |
SRMS | Displays whether the prefix SID is advertised by the SR mapping server (Y or N) or selected to be programmed (S) |
Flags | Displays the SID flags |
No. of Prefix/SIDs | Displays the number of Prefix/SIDs |
Platforms
All
prefix-sids
Syntax
Context
Full Contexts
Description
This command displays information about the prefix SIDs and their state on the router.
Parameters
Output
The following output is an example of prefix SIDs information, and Table 374 describes the output fields.
Table 374: Prefix SIDs Output Fields
Label | Description |
Interface Name | The name of the loopback or system interface |
AF | The address family associated with the prefix SID |
SID | The SID index |
Label | The SID label |
State | The operational state of the prefix SID
|
Platforms
All
19.93. prefix-stats
prefix-stats
Syntax
Context
Full Contexts
Description
This command displays prefix statistics.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.94. prefix-threshold-stats
prefix-threshold-stats
Syntax
Context
Full Contexts
Description
This commands displays prefix level threshold stats of local DHCPv6 server prefix. A minimum-free threshold needs to be configured before system collects threshold stats for the prefix.
The stats for each threshold are calculated based on the configured minimum-free prefix length.
For example, a /59 prefix is provision in the local DHCPv6 server, and the server allocated two PD leases, one /62 and one /63. And there is a /63 minimum threshold configured. The threshold stats are calculated based on /63 as the base unit (block). Then the value of the current used block would be 3 because there is one /62 lease and one /63 lease, that equals to a total three /63.
Parameters
ipv6-address x:x:x:x:x:x:x:x (eight 16-bit pieces) | |
x:x:x:x:x:x:d.d.d.d | |
x [0 to FFFF]H | |
d [0 to 255]D | |
prefix-length [1 to 128] | |
Output
The following output is an example of prefix threshold information.
The command shown above displays an overview of prefix level thresholds in the specified pool:
- The Peak field indicates the peak value of used.
- The Too low field indicate if the configured minimum-free threshold is exceeded.
- The Depleted field indicate if there is no available prefix with the length in the provisioned prefix.
- The Peak timestamp field indicates the time of peak used value.
The command shown above displays detailed statistics of all prefix level thresholds in the specified pool:
- Blks means the minimum free prefix length.
- Valid Data output indicates whether the data is or is not valid. The data is invalid when a background stats update is scheduled or busy.
The command shown above displays an overview of prefix level thresholds in the specified provision prefix.
Table 375 describes prefix threshold statistics output fields.
Table 375: Prefix Threshold Statistics Field Descriptions
Field | Description |
Operational state | The operational state of the local DHCP server instance unknown — The operational state is unknown inService — The operational state is in service outOfService — The operational state is out of service transition — The operational state is in transition waitPersistence — The DHCP server instance is waiting for a persistence action to complete. |
Pool | The number of pools in the specified prefix |
Stable leases | The number of stable leases associated with the prefix |
Advertised leases | The advertised leases associated with the prefix |
Prefix | The specified prefix |
Draining | The draining state Y — enabled N — disabled |
Threshold | The prefix level threshold |
Current Provisioned Blks | The number of provisioned blocks for this prefix |
Current Used Blks | The number of used blocks for this prefix |
Current Free Blks | The number of free blocks for this prefix |
Current Used Percent | The percentage of used prefixes with the minimum free threshold length for this prefix |
Current Used Peak Blks | A 64-bit word of the peak value of the number of used blocks for this prefix |
Current Used Peak Percentage | The peak value of the number of used prefixes with the minimum free threshold length in the pool as a percentage of the provisioned prefixes. |
Current Used Peak Time | The time at which the peak value of the number of used prefixes in the pool was reached |
Current Free Percent | The percentage of free prefixes with the minimum free threshold length in the pool compared to the number of provisioned prefixes. |
Current Free Too Low | The number of free prefixes with the minimum free threshold length available in the pool that is below the configured number of prefixes with the minimum free threshold length |
Current Free Depleted | The number of prefixes with the minimum free threshold length available |
Local Provisioned Blks | A 64-bit word of the number of provisioned prefixes with the minimum free threshold length local |
Local Used Blks | The higher 64-bits word of the number of used prefixes with the minimum free threshold length |
Local Free Blks | A 64-bit word of the number of free prefixes with the minimum free threshold length |
Local Used Peak Blks | A 64-bit word of the peak value of the number of used prefixes with the minimum free threshold length |
Local Used Peak Percent | The peak value of the number of used prefixes with the minimum free threshold length local in the pool as a percentage of the provisioned prefixes |
Local Used Peak Time | The time at which the peak value of the number of used prefixes local in the pool was reached |
Remote Provisioned Blks | A 64-bit word of the number of provisioned prefixes with the minimum free threshold length |
Remote Used Blks | A 64-bit word of the number of used prefixes with the minimum free threshold length remote in the pool |
Remote Free Blks | A 64-bit word of the number of free prefixes with the minimum free threshold length remote in the pool |
Remote Used Peak Blks | The higher 64-bit word of the number of used prefixes with the minimum free threshold length |
Remote Used Peak Percent | The peak value of the number of used prefixes with the minimum free threshold length remote in the pool as a percentage of the provisioned prefixes |
Remote Used Peak Time | The time at which the peak value of the number of used prefixes remote in the pool was reached. |
Peak Reset Time | The time at which the peak values have been reset |
Valid Dada | The actual status of the threshold statistics data of the pool. Y — the data is up to date and may be used. N — the data is being recalculated in the background and is not stable for further use |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
prefix-threshold-stats
Syntax
Context
Full Contexts
Description
This commands resets the peak stats in the prefix level threshold stats in the specified provision prefix or pool.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.95. prefixes
prefixes
Syntax
Context
Full Contexts
Description
This command displays LDP Prefix fec bindings.
Parameters
ipv4-prefix | - a.b.c.d |
ipv4-prefix-length | [0 to 32] |
ipv6-address | - x:x:x:x:x:x:x:x (eight 16-bit pieces) |
x:x:x:x:x:x:d.d.d.d | |
x - [0 to FFFF]H | |
d - [0 to 255]D | |
ipv6-prefix-length | [0 to 128] |
ipv4-address | - a.b.c.d:label-space |
ipv6-address | - x:x:x:x:x:x:x:x[label-space] |
label-space | 0 to 65535 |
ipv4-address | - a.b.c.d |
ipv6-address | - x:x:x:x:x:x:x:x (eight 16-bit pieces) |
x:x:x:x:x:x:d.d.d.d | |
x - [0 to FFFF]H | |
d - [0 to 255]D |
Output
Platforms
All
prefixes
Syntax
Context
Full Contexts
Description
Parameters
x:x:x:x:x:x:x:x (eight 16-bit pieces) | |
ipv6-prefix-length: |
x:x:x:x:x:x:x:x (eight 16-bit pieces) | |
port-id | |||
aps-group-id[.channel] | |||
keyword | |||
esat-id[/slot/[u]port] | |||
keyword | |||
tsat-id[/slot/[u]port.channel] | |||
keyword | |||
| 1 to 20 | |||
pxc-id.sub-port | |||
keyword | |||
| 1 to 64 | |||
Platforms
All
19.96. profile
profile
Syntax
Context
Full Contexts
Description
This command displays user profile information.
If the profile-name is not specified, then information for all profiles are displayed.
Parameters
Output
The following is an example of user profile output information.
Table 376 describes user profile output fields.
Table 376: Show User Profile Output Fields
Label | Description |
User Profile | Displays the profile name used to deny or permit user console access to a hierarchical branch or to specific commands. |
Def. action | Permit all — Permits access to all commands. Deny — Denies access to all commands. None — No action is taken. |
Entry | The entry ID in a policy or filter table. |
Description | Displays the text string describing the entry. |
Match Command | Displays the command or subtree commands in subordinate command levels. |
Action | Permit all — Commands matching the entry command match criteria are permitted. Deny — Commands not matching the entry command match criteria are not permitted. |
No. of profiles | The total number of profiles listed. |
Platforms
All
profile
Syntax
Context
Full Contexts
Description
This command displays user profiles for CLI command tree permissions.
Parameters
Output
The following is an example of profile information.
Table 377 describes the profile output fields.
Table 377: Show Profile Output Fields
Label | Description |
User Profile | default — Displays the action to be given to the user profile if none of the entries match the command. administrative — Specifies the administrative state for this profile. |
Def. Action | none — No action is given to the user profile when none of the entries match the command. permit-all — The action to be taken when an entry matches the command. |
Entry | 10 - 80 — Displays an entry which represents the configuration for a system user. |
Description | A text string describing the entry. |
Match Command | administrative — Enables the user to execute all commands. configure system security — Enables the user to execute the config system security command. enable-admin — Enables the user to enter a special administrative mode by entering the enable-admin command. exec — Enables the user to execute (exec) the contents of a text file as if they were CLI commands entered at the console. exit — Enables the user to execute the exit command. help — Enables the user to execute the help command. logout — Enables the user to execute the logout command. password — Enables the user to execute the password command. show config — Enables the user to execute the show config command. show — Enables the user to execute the show command. show system security — Enables the user to execute the show system security command. |
Action | permit — Enables the user access to all commands. deny-all — Denies the user access to all commands. |
Platforms
All
19.97. protection-template
protection-template
Syntax
Context
Full Contexts
Description
This command displays MPLS-TP protection template information.
Output
The following output is an example of MPLS protection template fields.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
19.98. protocol
protocol
Syntax
Context
Full Contexts
Description
This command resets the entire BGP protocol. If the AS number was previously changed, the BGP AS number does not inherit the new value.
Platforms
All
protocol
Syntax
Full Contexts
Description
This command displays per-protocol statistics. The system-wide statistics displayed account for all flows completed and the last internal snapshot of the active flows.
Subscriber statistics are available for special study subscribers and account for all completed and active flows at the moment of this statistics request.
Parameters
Output
The following is an example output for the protocol command.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
protocol
Syntax
Context
Full Contexts
Description
This command displays application-assurance policy protocols loaded from the isa-aa.tim file.
Parameters
Output
The following is an example show output for the protocol command.
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s, VSR
19.99. protocol-list
protocol-list
Syntax
Context
Full Contexts
Description
This command displays the protocol-list information.
Parameters
Platforms
All
19.100. protocol-protection
protocol-protection
Syntax
Context
Full Contexts
Description
This command display all interfaces with non-zero drop counters.
Platforms
7450 ESS, 7750 SR-7/12/12e, 7750 SR-7s, 7750 SR-14s, 7950 XRS
protocol-protection
Syntax
Context
Full Contexts
Description
This command clears the interface counts of packets dropped by protocol protection.
Platforms
7450 ESS, 7750 SR-7/12/12e, 7750 SR-7s, 7750 SR-14s, 7950 XRS
19.101. provider-tunnel
provider-tunnel
Syntax
Context
Full Contexts
Description
This command displays provider tunnel information.
Output
The following is an example of provider tunnel information.
Platforms
All
provider-tunnel
Syntax
Context
Full Contexts
Description
This command displays the service provider tunnel information.
Output
The following output is an example of service provider tunnel information.
Platforms
All
19.102. provider-tunnel-using
provider-tunnel-using
Syntax
Context
Full Contexts
Description
This command displays the list of provider tunnels existing in the router for all services. The output can be filtered based on the provider tunnel owner.
Parameters
Output
The following is an example of provider tunnel using information.
Platforms
All
19.103. provider-tunnels
provider-tunnels
Syntax
Context
Full Contexts
Description
This command dumps the inclusive provider tunnels based on type.
Output
Platforms
All
19.104. proxy-arp
proxy-arp
Syntax
Context
Full Contexts
Description
This command displays, in a table, the existing proxy-ARP entries for a particular service. The table is populated by EVPN MAC routes that contain a MAC and an IP address, as well as static entries or dynamic entries from snooped ARP messages on access SAP or SDP-bindings.
A 7750 SR, 7450 ESS, or 7950 XRS that receives an ARP request from a SAP or SDP-binding performs a lookup in the proxy-ARP table for the service. If a match is found, the router replies to the ARP and does not allow ARP flooding in the VPLS service. If a match is not found, the ARP is flooded within the service if the configuration allows it.
The command allows for specific IP addresses to be displayed. Dynamic IP entries associated to a MAC list are displayed with the corresponding MAC list and resolve timers information.
Parameters
Output
Platforms
All
proxy-arp
Syntax
Context
Full Contexts
Description
This command displays the proxy-ARP entries existing for a particular service. A 7750 SR, 7450 ESS or 7950 XRS router receiving an ARP request from a SAP or SDP-binding will perform a lookup in the proxy-arp table for the service. If the router finds a match, it will reply to the ARP and will not let the ARP be flooded in the VPLS service. If the router does not find a match, the ARP will be flooded within the service. The command allows for specific IP addresses to be shown.
The detail parameter allows the user to display all the entries. An individual IP address entry can also be shown.
Output
The following output is an example of service proxy ARP information.
Platforms
All
proxy-arp
Syntax
Context
Full Contexts
Description
Commands in this context provide proxy-arp tools.
Platforms
All
proxy-arp
Syntax
Context
Full Contexts
Description
This command allows all the duplicate or dynamic proxy-ARP entries to be cleared from the table. Individual IP entries can also be specified.
Platforms
All
proxy-arp
Syntax
Context
Full Contexts
Description
This command provides information about the usage and limit of the system-wide proxy-arp table for all the services. The command also shows if the limit has been exceeded and a trap raised.
Output
Platforms
All
19.105. proxy-arp-nd
proxy-arp-nd
Syntax
Context
Full Contexts
Description
Commands in this context configure the service-level proxy-arp-nd commands.
Platforms
All
19.106. proxy-db
proxy-db
Syntax
Context
Full Contexts
Description
This command displays proxy-reporting database entries.
Output
The following output is an example of MLD snooping proxy database information.
Platforms
All
proxy-db
Syntax
Context
Full Contexts
Description
This command displays information on the IGMP snooping proxy reporting database for the VPLS service.
Parameters
Output
Table 378 describes the show output fields.
Table 378: IGMP Snooping proxy Fields
Label | Description |
Group Address | The IP multicast group address for which this entry contains information. |
Mode | Specifies the type of membership report(s) received on the interface for the group. In the include mode, reception of packets sent to the specified multicast address is requested only from those IP source addresses listed in the source-list parameter of the IGMP membership report. In the “exclude” mode, reception of packets sent to the specified multicast address is requested from all IP source addresses except those listed in the source-list parameter. |
Up Time | The total operational time in seconds. |
Num Sources | Indicates the number of IGMP group and source specific queries received on this interface. |
Number of groups | Number of IGMP groups. |
Source Address | The source address for which this entry contains information. |
Platforms
All
19.107. proxy-nd
proxy-nd
Syntax
Context
Full Contexts
Description
This command displays, in a table, the existing proxy-ND entries for a particular service. The table is populated by the EVPN MAC routes containing a MAC and an IPv6 address, as well as static entries or dynamic entries from snooped NA messages on access SAP or SDP-bindings.
A 7750 SR, 7450 ESS, or 7950 XRS that receives a Neighbor Solicitation (NS) from a SAP or SDP-binding performs a lookup in the proxy-ND table for the service. If a match is found, the router replies to the NS and does not allow NS flooding in the VPLS service. If a match is not found, the NS is flooded in the service if the configuration allows it.
The command allows for specific IPv6 addresses to be shown. Dynamic IPv6 entries associated to a MAC list are shown with the corresponding MAC list and resolve timers information.
Parameters
Output
Platforms
All
proxy-nd
Syntax
Context
Full Contexts
Description
This command displays the information about the proxy ND settings configured in a specified service. The detail parameter allows the user to display all the entries. An individual IP address entry can also be shown.
Output
The following output is an example of service proxy ND information.
Platforms
All
proxy-nd
Syntax
Context
Full Contexts
Description
Commands in this context provide proxy-nd tools.
Platforms
All
proxy-nd
Syntax
Context
Full Contexts
Description
This command allows all the duplicate or dynamic proxy-ND entries to be cleared from the table. Individual IPv6 entries can also be specified.
Platforms
All
proxy-nd
Syntax
Context
Full Contexts
Description
This command provides information about the usage and limit of the system-wide proxy-nd table for all the services. The command also shows if the limit has been exceeded and a trap raised.
Output
Platforms
All
19.108. psb
psb
Syntax
Context
Full Contexts
Description
This command dumps information about a PSB.
Parameters
Output
The following output is an example of PSB information.
Platforms
7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
psb
Syntax
Context
Full Contexts
Description
This command displays path state block (PSB) information for RSVP.
When a PATH message arrives at an LSR, the LSR stores the label request in the local PSB for the LSP. If a label range is specified, the label allocation process assigns a label from that range.
The PSB contains the IP address of the previous hop, and the session, sender, and TSPEC. This information is used to route the corresponding RESV message back to LSR 1.
Parameters
Output
The following output is an example of MPLS RSVP PSB information, and Table xxx describes the output fields.
Platforms
All
19.109. ptp
ptp
Syntax
Context
Full Contexts
Description
This command displays Precision Timing Protocol (PTP) information.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
ptp
Syntax
Context
Full Contexts
Description
This command displays Precision Time Protocol (PTP) configuration and state information. This information can be displayed for the entire node or on a per router instance basis.
Output
The following output is an example of PTP information, and Table 379 describes the output fields.
Table 379: System PTP Field Descriptions
Label | Description |
Local Clock | |
Clock Type | The type of clock of the network element.
|
PTP Profile | The Precision Time Protocol (PTP) profile specifies the standard to which PTP conforms
|
Domain | The domain in which PTP 1588 runs on the system |
Network Type | The SR OS is configured to use PTP clock classes corresponding to either SONET or SDH quality levels |
Admin State | The administrative state of PTP |
Oper State | The operational state of PTP |
Announce Interval | The packet rate requested in REQUEST_UNICAST_TRANSMISSION signaling messages for announce packets |
Announce Rx Timeout | The number of announce intervals that have to occur without receiving a PTP announce message before the PTP event ANNOUNCE_RECEIPT_TIMEOUT_EXPIRES occurs |
Peer Limit | The maximum number of PTP peers that may be automatically created by the system on this router instance |
G.8275.1 Priority | The priority used in the best TimeTransmitter clock algorithm for the local (internal) PTP port when Clock Profile is g8275dot1-2014 |
PTSF-unusable | The PTSF unusable administrative state |
Clock ID | The clock Identity value of the local PTP clock (defaultDS) |
Clock Class | The clockClass value of the local PTP clock (defaultDS) |
Clock Accuracy | The clockAccuracy value accuracy of the local PTP clock (defaultDS) |
Clock Variance | The offsetScaledLogVariance value of the local PTP clock (defaultDS) |
Clock Priority1 | The priority1 value of the local PTP clock (defaultDS) |
Clock Priority2 | The priority2 value of the local PTP clock (defaultDS) |
TxWhileSyncUncertain | The value of the tx-while-sync-uncertain configuration item |
PTP Port State | The PTP port state. Only shown for ordinary clocks which contain only one PTP port |
Last Changed | The date and time of the last change of the PTP port state |
Parent Clock | |
Port | The local port used for communication with the parent clock |
Remote MAC Address | The MAC address of the parent clock port sending PTP message to the local PTP clock |
IP Address | The IP address of the parent clock that was last chosen by the localPTP clock |
Router | The name of the routing instance that contains the parent clock IP |
Parent Clock ID | The clock Identity of the parent clock |
Remote PTP Port | The port number of the PTP port on the parent clock that is used to communicate with the local PTP clock |
Local Clock is Parent Clock | Displayed if there is no external parent clock |
GM Clock Id | The clockIdentity value of the grandmaster clock advertised by the parent clock |
GM Clock Class | The clockClass value of the grandmaster clock advertised by the parent clock |
GM Clock Accuracy | The clockAccuracy value of the grandmaster clock advertised by the parent clock |
GM Clock Variance | The offsetScaledLogVariance value of the grandmaster clock advertised by the parent clock |
GM Clock Priority1 | The priority1 value of the grandmaster clock advertised by the parent clock |
GM Clock Priority2 | The priority2 value of the grandmaster clock advertised by the parent clock |
Time Properties | |
Timescale | The time scale of the time distributed by PTP |
Frequency Traceable | Indicates if the time distributed by PTP is traceable a primary reference |
Time Traceable | Indicates if the time distributed by PTP is traceable to a primary reference |
Time Source | The source of time used by the grandmaster clock |
UTC Offset | The current offset between the International Atomic Time (TAI) and Universal Coordinated Time (UTC) timescales |
Leap Second | Indicates if there is a leap second pending |
The reference currently in use as the source into the central frequency clock | |
The state of the frequency recovery algorithm.
| |
Last Changed | The date and time of the last change of the PTP Recovery State |
Frequency Offset | The offset computed by the frequency recovery algorithm required to align the local oscillator to the frequency of the parent clock. The value is provided in parts per billion. Positive values indicate that the recovered clock is faster than nominal, and negative values indicate that the recovered clock is slower than nominal. |
Current Time | |
| |
Last Packet Offset From Master | The offsetFromMaster calculated from the last packet exchange with the parent clock |
Last Calc | The time at which the previous field was calculated |
Last Packet Mean Path Delay | The meanPathDelay calculated from the last packet exchange with the parent clock |
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
19.110. ptsf-unusable
ptsf-unusable
Syntax
Context
Full Contexts
Description
This command clears the PTSF-unusable condition from the neighbor PTP clock.
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, 7950 XRS
19.111. public-static-devices
public-static-devices
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-a, 7750 SR-e, 7750 SR-s, VSR
19.112. pvc
pvc
Syntax
Context
Full Contexts
Description
This command displays ATM port PVC information.
Parameters
Output
The following output is an example of PVC information, and Table 380 describes the output fields.
Table 380: Output Fields: show multilink-bundle <bundle-id> ima atm pvc
Label | Description |
VPI/VCI | Displays the VPI/VCI value. |
Owner | Specifies the type of this multilink bundle. mlppp — Indicates that the bundle is of type MLPPP. ima — Indicates that the bundle is of type IMA group. |
Type | Identifies the system entity that owns a specific ATM connection. |
Ing.TD | Specifies the ATM traffic descriptor profile that applies to the receive direction of the interface connection. |
Egr.TD | Specifies the ATM traffic descriptor profile that applies to the transmit direction of the interface connection. |
Adm | ima — Indicates that the bundle is of type IMA group. Down — The bundle is administratively down. |
Opr | Up — The bundle is operationally up. Down — The bundle is operationally down. |
OAM | Indicates the OAM operational status of ATM connections. |
Platforms
7450 ESS, 7750 SR-7/12/12e
pvc
Syntax
Context
Full Contexts
Description
This command monitors ATM PVC statistics.
Parameters
Platforms
7450 ESS, 7750 SR-7/12/12e, 7750 SR-a, 7750 SR-e, 7950 XRS
pvc
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7450 ESS, 7750 SR-7/12/12e, 7750 SR-a, 7750 SR-e, 7950 XRS
19.113. pvp
pvp
Syntax
Context
Full Contexts
Description
This command displays ATM port PVP information.
Parameters
Output
The following output is an example of PVP information, and Table 381 describes the output fields.
Table 381: Output Fields: show multilink-bundle <bundle-id> ima atm pvp
Label | Description |
VPI | Displays the VPI value. |
Owner | Identifies the system entity that owns a specific ATM connection. |
Type | Specifies the type of this multilink bundle. mlppp — Indicates that the bundle is of type MLPPP. ima — Indicates that the bundle is of type IMA group. |
Ing.TD | Specifies the ATM traffic descriptor profile that applies to the receive direction of the interface connection. |
Eng.TD | Specifies the ATM traffic descriptor profile that applies to the transmit direction of the interface connection. |
Adm | ima — Indicates that the bundle is of type IMA group. Down — The bundle is administratively down. |
OAM | Indicates the OAM operational status of ATM connections. |
Opr | Up — The bundle is operationally up. Down — The bundle is operationally down. |
Platforms
7450 ESS, 7750 SR-7/12/12e
pvp
Syntax
Context
Full Contexts
Description
This command monitors ATM PVP statistics.
Parameters
Platforms
7450 ESS, 7750 SR-7/12/12e, 7750 SR-a, 7750 SR-e, 7950 XRS
pvp
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7450 ESS, 7750 SR-7/12/12e, 7750 SR-a, 7750 SR-e, 7950 XRS
19.114. pvt
pvt
Syntax
Context
Full Contexts
Description
This command displays ATM port PVT information.
Parameters
Output
The following output is an example of PVT information, and Table 382 describes the output fields.
Table 382: Output Fields: show multilink-bundle <bundle-id> ima atm pvt
Label | Description |
VPI Range | Displays the VPI range: |
Owner | Identifies the system entity that owns a specific ATM connection. |
Type | Specifies the type of this multilink bundle. mlppp — Indicates that the bundle is of type MLPPP. ima — Indicates that the bundle is of type IMA group. |
Ing.Td | Specifies the ATM traffic descriptor profile that applies to the receive direction of the interface connection. |
Egr.Td | Specifies the ATM traffic descriptor profile that applies to the transmit direction of the interface connection. |
Adm | ima — Indicates that the bundle is of type IMA group. Down — The bundle is administratively down. |
Opr | Up — The bundle is operationally up. Down — The bundle is operationally down. |
Platforms
7450 ESS, 7750 SR-7/12/12e
pvt
Syntax
Context
Full Contexts
Description
This command monitors ATM PVT statistics.
Parameters
Platforms
7450 ESS, 7750 SR-7/12/12e, 7750 SR-a, 7750 SR-e, 7950 XRS
pvt
Syntax
Context
Full Contexts
Description
Parameters
Platforms
7450 ESS, 7750 SR-7/12/12e, 7750 SR-a, 7750 SR-e, 7950 XRS
19.115. pw
pw
Syntax
Context
Full Contexts
Description
In the admin-lock context, this command administratively locks the specified spoke SDP by locking the host service. The command must be executed at both ends of the PW or MS-PW represented by the spoke SDP. Test traffic can then be injected using a test SAP.
In the loopback context, this command enters the MPLS-TP PW context for starting or stopping a loopback on a specified spoke SDP. An administrative lock should first be applied to both ends of the PW or MS-PW represented by the spoke SDP prior to configuring the loopback.
Interactions: Loopback functions for MPLS-TP pseudowire can be specified for either a T-PE or S-PE.
Platforms
All
19.116. pw-port
pw-port
Syntax
Context
Full Contexts
Description
Displays pseudo-wire port information.
If no optional parameters are specified, the command displays a summary of all defined PW ports. The optional parameters restrict output to only ports matching the specified properties.
Parameters
Output
The following outputs are example of PW port information.
Table 383 describes the pw-port output fields.
Table 383: Show PW-Port Output Fields
Label | Description |
PW Port | The PW port identifier |
Encap | The encapsulation type of the PW port |
SDP | The SDP identifier |
IfIndex | The interface index used for the PW port |
VC-Id | The Virtual Circuit identifier |
Table 384 describes the pw-port detail output fields.
Table 384: Show PW-Port Detail Output Fields
Label | Description |
PW Port | The PW port identifier. |
Encap | The encapsulation type of the PW port. |
SDP | The SDP identifier |
IfIndex | The interface index used for the PW port |
VC-Id | |
Description | The description of the PW port |
I. Fwd. Pkts | The number of forwarded packets ingressing this PW port |
I. Fwd. Octs | The number of forwarded octets ingressing this PW port |
E. Fwd. Pkts | The number of forwarded packets egressing this PW port |
I. Dro. Pkts | The number of dropped packets on ingress |
I. Dro. Octs | The number of dropped octets on ingress |
E. Fwd. Octets | The number of forwarded octets egressing this PW port |
Table 385: Subscriber Show PW-Port Field Descriptions
Platforms
All
pw-port
Syntax
Context
Full Contexts
Description
This command displays FPE-based PW-port configuration information, state information and forwarding statistics.
Parameters
Output
The following is an example of PW port information.
Table 386 describes the show pw-port command output fields.
Table 386: PW-Port Field Descriptions
Label | Description |
PW-Port | Displays the PW port ID. |
Encap | Displays the PW port encapsulation (dot1q or qinq). |
SDP | Displays the Internal SDP to which this PW port is bound. |
IfIndex | Displays the Internal interface index. |
VC-Id | Displays the VC-id of the internal spoke SDP that interconnects external PW to this PW port. |
Description | Displays the description of this PW port. |
SDP Binding Port | Displays the PXC sub-port to which this PW port is bound. This is termination side of PXC, always denoted as .b side. |
VC Type | Displays the VC type of the PW port. |
Admin Status | Displays the admin status of the internal SDP. |
Oper Status | Displays the operational status of the internal SDP. |
Admin Ingress Label | Displays the ingress VC-label associated with this PW port. |
Admin Egress Label | Displays the egress VC-label associated with this PW port. |
Oper Flags | Displays the operational flags on the internal SDP. |
Monitor Oper-Group | Displays the operational group that is being monitored by this PW port. |
I. Fwd. Pkts. | Displays the number of forwarded packets ingressing this PW port. |
I. Fwd. Octs. | Displays the number of forwarded octets ingressing this PW port. |
E. Fwd. Pkts. | Displays the number of forwarded packets egressing this PW port. |
I. Dro. Pkts. | Displays the number of dropped packets on ingress. |
I. Dro. Octs. | Displays the number of dropped octets on ingress. |
E. Fwd. Octets. | Displays the number of forwarded octets egressing this PW port. |
Platforms
All
pw-port
Syntax
Context
Full Contexts
Description
This command clears PW port statistics for the specified ID.
Platforms
All
19.117. pw-port-list
pw-port-list
Syntax
Context
Full Contexts
Description
This command displays system PW port list information.
Output
The following is an example of system pw-port-list information.
Platforms
VSR
19.118. pw-sap-using
pw-sap-using
Syntax
Context
Full Contexts
Description
This command displays service SAP PW port information.
Output
The following example shows PW SAP port information.
Platforms
All
19.119. pw-template
pw-template
Syntax
Context
Full Contexts
Description
This command displays PW template information.
Output
The following example shows PW template information.
Platforms
All
19.120. pxc
pxc
Syntax
Context
Full Contexts
Description
Parameters
Platforms
All
19.121. python
python
Syntax
Context
Full Contexts
Description
Commands in this context clear Python commands.
Platforms
All
python
Syntax
Context
Full Contexts
Description
Commands in this context display Python information.
Platforms
All
python
Syntax
Context
Full Contexts
Description
Commands in this context dump Python information.
Platforms
All
19.122. python-policy
python-policy
Syntax
Context
Full Contexts
Description
This command dumps all cached entries or a specified entry of a specified Python policy.
The DDP key in the output is the python cache persistency record key.
| Note: The DDP Key in the output could be used for the tools>dump>persistence>python command. |
Parameters
Platforms
All
python-policy
Syntax
Context
Full Contexts
Description
This command set the lifetime of a specified python cache entry.
Parameters
Platforms
All
python-policy
Syntax
Context
Full Contexts
Description
This command displays information about the currently configured Python policy.
The system will display a list of currently configured Python policy names if no parameter is specified.
Parameters
Output
The following output is an example of DHCP Python policy information
Platforms
All
python-policy
Syntax
Context
Full Contexts
Description
This command clears Python policy data.
Parameters
Platforms
All
19.123. python-script
python-script
Syntax
Context
Full Contexts
Description
This command displays information about the currently configured Python script.
The system will display a list of currently configured Python script names if no parameter is specified.
Parameters
Output
The following output is an example of Python script information.
Platforms
All
python-script
Syntax
Context
Full Contexts
Description
Commands in this context perform Python script operations.
Platforms
All
python-script
Syntax
Context
Full Contexts
Description
This command clears Python script statistics.
Parameters
Platforms
7450 ESS, 7750 SR, 7750 SR-e, 7750 SR-s
19.124. python-script protect
python-script protect
Syntax
Context
Full Contexts
Description
This command converts a normal (unprotected) Python script file into an SRPY format with specified key.
Parameters
Platforms
All
19.125. python-script reload
python-script reload
Syntax
Context
Full Contexts
Description
This command reloads and recompiles the primary, secondary, and tertiary scripts in the specified Python script, in that order. The system uses the first script that comes up.
| Note: Executing this command may update the last modified time for the system configuration. |
Parameters
Platforms
All