For protocol debugging commands, see the Unicast Routing Protocols Guide and Multicast Routing Protocols Guide.
Note: The command outputs in the following section are examples only; actual displays may differ depending on supported functionality and user configuration. |
Display services using the range of egress labels.
If only the mandatory egress-label1 parameter is specified, only services using the specified label are displayed.
If both egress-label1 and egress-label2 parameters are specified, the services using the range of labels X where egress-label1 <= X <= egress-label2 are displayed.
Use the show router ldp bindings command to display dynamic labels.
Table 47 describes show service egress label output fields.
Label | Description |
Svc Id | the ID that identifies a service |
Sdp Id | the ID that identifies an SDP |
Type | indicates whether the SDP binding is a spoke or a mesh |
I. Lbl | the VC label used by the far-end device to send packets to this device in this service by the SDP |
E. Lbl | the VC label used by this device to send packets to the far-end device in this service by the SDP |
Number of bindings found | the total number of SDP bindings that exist within the specified egress label range |
Display services using the range of ingress labels.
If only the mandatory start-label parameter is specified, only services using the specified label are displayed.
If both start-label and end-label parameters are specified, the services using the range of labels X where start-label <= X <= end-label are displayed.
Use the show router vprn-service-id ldp bindings command to display dynamic labels.
Table 48 describes show service ingress-label output fields:
Label | Description |
Svc ID | the service identifier |
SDP Id | the SDP identifier |
Type | indicates whether the SDP is a spoke or a mesh |
I.Lbl | the ingress label used by the far-end device to send packets to this device in this service by the SDP |
E.Lbl | the egress label used by this device to send packets to the far-end device in this service by the SDP |
Number of bindings found | the number of SDP bindings within the label range specified |
This command displays SAP information.
If no optional parameters are specified, the command displays a summary of all defined SAPs.
The optional parameters restrict output to only SAPs matching the specified properties.
Table 49 describes show service SAP output fields.
Label | Description |
Port ID | the ID of the access port where the SAP is defined |
Svc ID | the service identifier |
SapMTU | the SAP MTU value |
I.QoS | the SAP ingress QoS policy number specified on the ingress SAP |
I.MAC/IP | the MAC or IP filter policy ID applied to the ingress SAP |
E.QoS | the SAP egress QoS policy number specified on the egress SAP |
E.Mac/IP | the MAC or IP filter policy ID applied to the egress SAP |
A.Pol | the accounting policy ID assigned to the SAP |
Adm | the desired state of the SAP |
Opr | the actual state of the SAP |
Displays SDP information.
If no optional parameters are specified, a summary SDP output for all SDPs is displayed.
Table 50 describes show service SDP output fields.
Label | Description |
SDP Id | the SDP identifier |
Adm MTU | specifies the largest service frame size (in octets) that can be transmitted through this SDP to the far-end router, without requiring the packet to be fragmented |
Opr MTU | specifies the actual largest service frame size (in octets) that can be transmitted through this SDP to the far-end router, without requiring the packet to be fragmented |
IP address | specifies the IP address of the remote end of the GRE or MPLS tunnel defined by this SDP |
Adm | Admin State — specifies the state of the SDP |
Opr | Oper State —specifies the operating state of the SDP |
Flags | specifies all the conditions that affect the operating status of this SDP |
Signal | Signaling — specifies the signaling protocol used to obtain the ingress and egress labels used in frames transmitted and received on the SDP |
Last Status Change | Specifies the time of the most recent operating status change to this SDP |
Last Mgmt Change | specifies the time of the most recent management-initiated change to this SDP |
Number of SDPs | specifies the total number of SDPs displayed according to the criteria specified |
Hello Time | specifies how often the SDP echo request messages are transmitted on this SDP |
Deliver | Delivered — specifies the type of delivery used by the SDP: GRE or MPLS |
Number of SDPs | specifies the total number of SDPs displayed according to the criteria specified |
Hello Time | specifies how often the SDP echo request messages are transmitted on this SDP |
Hello Msg Len | specifies the length of the SDP echo request messages transmitted on this SDP |
Hello Timeout | specifies the number of seconds to wait for an SDP echo response message before declaring a timeout |
Unmatched Replies | specifies the number of SDP unmatched message replies |
Max Drop Count | specifies the maximum number of consecutive SDP echo request messages that can be unacknowledged before the keepalive protocol reports a fault |
Hold Down Time | specifies the maximum number of consecutive SDP echo request messages that can be unacknowledged before the keepalive protocol reports a fault |
TX Hello Msgs | specifies the number of SDP echo request messages transmitted since the keepalive was administratively enabled or the counter was cleared |
Rx Hello Msgs | specifies the number of SDP echo request messages received since the keepalive was administratively enabled or the counter was cleared |
Associated LSP List | When the SDP type is MPLS, a list of LSPs used to reach the far-end router displays. All the LSPs in the list must terminate at the IP address specified in the far end field. If the SDP type is GRE, then the following message displays: SDP delivery mechanism is not MPLS |
Display services using SDP or far-end address options.
Table 51 describes show service sdp-using output fields.
Label | Description |
Svc ID | the service identifier |
Sdp ID | the SDP identifier |
Type | type of SDP: spoke or mesh |
Far End | the far end address of the SDP |
Oper State | the operational state of the service |
Ingress Label | the label used by the far-end device to send packets to this device in this service by this SDP |
Egress Label | the label used by this device to send packets to the far-end device in this service by this SDP |
Displays the services matching certain usage properties.
If no optional parameters are specified, all services defined on the system are displayed.
Table 52 describes show service service-using output fields.
Label | Description |
Service Id | the service identifier |
Type | specifies the service type configured for the service ID |
Adm | the desired state of the service |
Opr | the operating state of the service |
CustomerID | the ID of the customer who owns this service |
Last Mgmt Change | the date and time of the most recent management-initiated change to this service |
This command displays information for a particular service-id.
This command displays detailed information for all aspects of the service.
Table 53 describes the show all service-id command output fields.
Label | Description |
Service Detailed Information | |
Service Id | the service identifier |
VPN Id | the number which identifies the VPN |
Customer Id | the customer identifier |
Last Status Change | the date and time of the most recent change in the administrative or operating status of the service |
Last Mgmt Change | the date and time of the most recent management-initiated change to this customer |
Admin State | the current administrative state |
Oper State | the current operational state |
Route Dist. | displays the route distribution number |
AS Number | displays the autonomous system number |
Router Id | displays the router ID for this service |
ECMP | displays equal cost multipath information |
ECMP Max Routes | displays the maximum number of routes that can be received from the neighbors in the group or for the specific neighbor |
Max Routes | displays the maximum number of routes that can be used for path sharing |
Auto Bind | specifies the automatic binding type for the SDP assigned to this service |
Vrf Target | specifies the VRF target applied to this service |
Vrf Import | specifies the VRF import policy applied to this service |
Vrf Export | specifies the VRF export policy applied to this service |
SDP Id | the SDP identifier |
Description | generic information about the service |
SAP Count | the number of SAPs specified for this service |
SDP Bind Count | the number of SDPs bound to this service |
Split Horizon Group | name of the split horizon group for this service |
Description | description of the split horizon group |
Last Changed | the date and time of the most recent management-initiated change to this split horizon group |
ETH-CFM Service Specifics | |
Tunnel Faults | Whether tunnel faults are ignored or accepted |
Service Destination Points (SDPs) | |
SDP Id | the SDP identifier |
Type | Indicates whether this Service SDP binding is a spoke or a mesh |
Admin Path MTU | the desired largest service frame size (in octets) that can be transmitted through this SDP to the far-end router, without requiring the packet to be fragmented |
Oper Path MTU | the actual largest service frame size (in octets) that can be transmitted through this SDP to the far-end router, without requiring the packet to be fragmented |
Delivery | specifies the type of delivery used by the SDP: GRE or MPLS |
Admin State | the administrative state of this SDP |
Oper State | the operational state of this SDP |
Ingress Label | the label used by the far-end device to send packets to this device in this service by this SDP |
Egress Label | the label used by this device to send packets to the far-end device in this service by this SDP |
Ingress Filter | the ID of the ingress filter policy. |
Egress Filter | the ID of the egress filter policy |
Far End | specifies the IP address of the remote end of the GRE or MPLS tunnel defined by this SDP |
Last Changed | the date and time of the most recent change to this customer |
Signaling | specifies the signaling protocol used to obtain the ingress and egress labels used in frames transmitted and received on this SDP |
Admin State | specifies the operating status of the keepalive protocol |
Oper State | the current status of the keepalive protocol |
Hello Time | specifies how often the SDP echo request messages are transmitted on this SDP |
Hello Msg Len | specifies the length of the SDP echo request messages transmitted on this SDP |
Max Drop Count | specifies the maximum number of consecutive SDP Echo Request messages that can be unacknowledged before the keepalive protocol reports a fault |
Hold Down Time | specifies the amount of time to wait before the keepalive operating status is eligible to enter the alive state |
SDP Delivery Mechanism | When the SDP type is MPLS, a list of LSPs used to reach the far-end router displays. All the LSPs in the list must terminate at the IP address specified in the far end field. If the SDP type is GRE, then the following message displays: SDP delivery mechanism is not MPLS |
Max Drop Count | specifies the maximum number of consecutive SDP Echo Request messages that can be unacknowledged before the keepalive protocol reports a fault |
Number of SDPs | the total number SDPs applied to this service ID |
Service Access Points | |
Service Id | the service identifier |
Port Id | the ID of the access port where this SAP is defined |
Description | Generic information about the SAP |
Encap Value | the value of the label used to identify this SAP on the access port |
Admin State | the desired state of the SAP |
Oper State | the operating state of the SAP |
Last Changed | the date and time of the last change |
Admin MTU | the desired largest service frame size (in octets) that can be transmitted through this SDP to the far-end router, without requiring the packet to be fragmented |
Oper MTU | the actual largest service frame size (in octets) that can be transmitted through this SDP to the far-end router, without requiring the packet to be fragmented |
Ingress qos-policy | the SAP ingress QoS policy ID |
Egress qos-policy | the SAP egress QoS policy ID |
Ingress Filter-Id | the SAP ingress filter policy ID |
Egress Filter-Id | the SAP egress filter policy ID |
Multi Svc Site | indicates the multi-service site that the SAP is a member |
Ingress sched-policy | indicates the ingress QoS scheduler for the SAP |
Egress sched-policy | indicates the egress QoS scheduler for the SAP |
Acct. Pol | indicates the accounting policy applied to the SAP |
Collect Stats | specifies whether accounting statistics are collected on the SAP |
SAP Statistics | |
Dropped | the number of packets or octets dropped |
Offered Hi Priority | the number of high priority packets, as determined by the SAP ingress QoS policy |
Offered Low Priority | the number of low priority packets, as determined by the SAP ingress QoS policy |
Forwarded In Profile | the number of in-profile packets or octets (rate below CIR) forwarded |
Forwarded Out Profile | the number of out-of-profile packets or octets (rate above CIR) forwarded |
Queueing Stats | |
Dropped In Profile | the number of in-profile packets or octets discarded |
Dropped Out Profile | the number of out-of-profile packets or octets discarded |
Forwarded In Profile | the number of in-profile packets or octets (rate below CIR) forwarded |
Forwarded Out Profile | the number of out-of-profile packets or octets (rate above CIR) forwarded |
SAP per Queue stats | |
Ingress Queue 1 | the index of the ingress QoS queue of this SAP |
High priority offered | the packets or octets count of the high priority traffic for the SAP |
High priority dropped | the number of high priority traffic packets/octets dropped |
Low priority offered | the packets or octets count of the low priority traffic |
Low priority dropped | the number of low priority traffic packets/octets dropped |
In profile forwarded | the number of in-profile packets or octets (rate below CIR) forwarded |
Out profile forwarded | the number of out-of-profile octets (rate above CIR) forwarded |
Egress Queue 1 | the index of the egress QoS queue of the SAP |
In profile forwarded | the number of in-profile packets or octets (rate below CIR) forwarded |
In profile dropped | the number of in-profile packets or octets dropped for the SAP |
Out profile forwarded | the number of out-of-profile packets or octets (rate above CIR) forwarded |
Out profile dropped | the number of out-of-profile packets or octets discarded |
State | specifies whether DHCP relay is enabled on this SAP |
Info Option | specifies whether Option 82 processing is enabled on this SAP |
Action | specifies the Option 82 processing on this SAP or interface: keep, replace or drop |
Circuit ID | specifies whether the If index is inserted in circuit ID sub-option of Option 82 |
Remote ID | specifies whether the far-end MAC address is inserted in Remote ID sub-option of Option 82 |
Service Access Points | |
Managed by Service | specifies the service-id of the management VPLS managing this SAP |
Managed by SAP | specifies the sap-id inside the management VPLS managing this SAP |
Prune state | specifies the STP state inherited from the management VPLS |
Spoke SDPs | |
Managed by Service | specifies the service-id of the management VPLS managing this spoke SDP |
Managed by Spoke | specifies the sap-id inside the management VPLS managing this spoke SDP |
Prune state | specifies the STP state inherited from the management VPLS |
Peer Pw Bits | Indicates the bits set by the LDP peer when there is a fault on its side of the pseudowire. LAC failures occur on the SAP that has been configured on the pipe service, PSN bits are set by SDP-binding failures on the pipe service. The pwNotForwarding bit is set when none of the above failures apply, such as an MTU mismatch failure. This value is only applicable if the peer is using the pseudowire status signaling method to indicate faults. pwNotForwarding — Pseudowire not forwarding lacIngressFault Local — Attachment circuit RX fault lacEgresssFault Local — Attachment circuit TX fault psnIngressFault Local — PSN-facing PW RX fault psnEgressFault Local — PSN-facing PW TX fault pwFwdingStandby — Pseudowire in standby mode |
IPCP Address Extension Details | |
Peer IP Addr | specifies the remote IP address to be assigned to the far-end of the associated PPP/MLPPP link via IPCP extensions |
Peer Pri DNS Addr | specifies a unicast IPv4 address for the primary DNS server to be signaled to the far-end of the associate PPP/MLPPP link via IPCP extensions |
Peer Sec DNS Addr | specifies a unicast IPv4 address for the secondary DNS server to be signaled to the far-end of the associate PPP/MLPPP link via IPCP extensions |
Note: Ing ipv6 Fltr and Egr ipv6 Fltr are for the 7750 SR only. |
The following output shows the IS-IS protocol.
The following output shows the OSPF protocol.
The following is a part of a sample output relevant to PW SAPs:
This command enables the context to display subscriber authentication information.
This command displays session authentication statistics for this service.
This command displays the ARP table for the IES instance.
Table 54 describes the show service-id ARP output fields.
Label | Description |
Service ID | the service ID number |
MAC | the specified MAC address |
Source-Identifier | the location the MAC is defined |
Type | Static — FDB entries created by management |
Learned — dynamic entries created by the learning process | |
OAM — entries created by the OAM process | |
Age | the time elapsed since the service was enabled |
Interface | the interface applied to the service |
Port | the port where the SAP is applied |
This command displays ARP host related information.
The following is sample output of arp-host command.
Displays basic information about the service ID including service type, description, SAPs and SDPs.
Table 55 describes the show service-id base output fields:
Label | Description |
Service Id | the service identifier |
Vpn Id | specifies the VPN ID assigned to the service |
Service Type | specifies the type of service |
Description | generic information about the service |
Customer Id | the customer identifier |
Last Mgmt Change | the date and time of the most recent management-initiated change to this customer |
Adm | the desired state of the service |
Oper | the operating state of the service |
Mtu | the largest frame size (in octets) that the service can handle |
Def. Mesh VC Id | this object is only valid in services that accept mesh SDP bindings. It is used to validate the VC ID portion of each mesh SDP binding defined in the service |
SAP Count | the number of SAPs defined on the service |
SDP Bind Count | the number of SDPs bound to the service |
Identifier | specifies the service access (SAP) and destination (SDP) points |
Type | specifies the signaling protocol used to obtain the ingress and egress labels used in frames transmitted and received on the SDP |
AdmMTU | specifies the desired largest service frame size (in octets) that can be transmitted through this SDP to the far-end ESR, without requiring the packet to be fragmented |
OprMTU | specifies the actual largest service frame size (in octets) that can be transmitted through this SDP to the far-end ESR, without requiring the packet to be fragmented |
Opr | the operating state of the SDP |
This command enables the context to display DHCP information for the specified service.
This command displays DHCP lease state related information.
See the following sections for show command output.
This command displays DHCP statistics information.
Table 56 describes the output fields for DHCP statistics.
Label | Description |
Received Packets | the number of packets received from the DHCP clients |
Transmitted Packets | the number of packets transmitted to the DHCP clients |
Received Malformed Packets | the number of corrupted/invalid packets received from the DHCP clients |
Received Untrusted Packets | the number of untrusted packets received from the DHCP clients. In this case, a frame is dropped due to the client sending a DHCP packet with Option 82 filled in before “trust” is set under the DHCP interface command |
Client Packets Discarded | the number of packets received from the DHCP clients that were discarded |
Client Packets Relayed | the number of packets received from the DHCP clients that were forwarded |
Client Packets Snooped | the number of packets received from the DHCP clients that were snooped |
Server Packets Discarded | the number of packets received from the DHCP server that were discarded |
Server Packets Relayed | the number of packets received from the DHCP server that were forwarded |
Server Packets Snooped | the number of packets received from the DHCP server that were snooped |
This command displays GSMP information.
This command displays GSMP neighbor information.
These commands show the configured neighbors per service, regardless of the fact there exists an open TCP connection with this neighbor. The admin state is shown because for a neighbor to be admin enabled, the service, gsmp node, group node and the neighbor node in this service must all be in 'no shutdown' state. Session gives the number of session (open TCP connections) for each configured neighbor.
This command displays GSMP sessions information.
This show command gives information about the open TCP connections with DSLAMs.
The association command gives an overview of each ANCP string received from this session.
This command displays static host information configured on this service.
This command displays DHCP configuration summary information.
Table 57 describes show service-id DHCP summary output fields:
Label | Description |
Sap/Sdp | the configuration identification, expressed by a string containing “card/mda/port/:logical-id” |
Snoop | Yes — the packets received from the DHCP clients were snooped No — the packets received from the DHCP clients were not snooped |
Used/Provided | Used — The number of lease-states that are currently in use on a specific interface, that is, the number of clients on that interface got an IP address by DHCP. This value is always less than or equal to the ‘Provided’ field. Provided — the lease-populate value that is configured for a specific interface |
Arp Reply Agent | displays whether or not there is proper handling of received ARP requests from subscribers |
Info Option | Keep — The existing information is kept on the packet and the router does not add any additional information. Replace — On ingress, the existing information-option is replaced with the information-option from the router. Drop —The packet is dropped and an error is logged. |
Admin State | indicates the administrative state |
Displays information for the IP interfaces associated with the service.
If no optional parameters are specified, a summary of all IP interfaces associated to the service are displayed.
Table 58 describes the show service-id interface output fields:
Label | Description |
Interface-Name | the name used to refer to the interface |
Type | specifies the interface type |
IP-Address | specifies the IP address/IP subnet/broadcast address of the interface |
Adm | the desired state of the interface |
Opr | the operating state of the interface |
Interface | |
If Name | the name used to refer to the interface |
Admin State | the desired state of the interface |
Oper State | the operating state of the interface |
IP Addr/mask | specifies the IP address/IP subnet/broadcast address of the interface |
Ignore Port State | Indicates whether or not the tools perform service id service-id interface ip-int-name ignore-sap port-state command has been executed for a service interface directly connected to a SAP: none — the command has not been executed for or accepted by the interface active — the command has been executed and accepted, and the port state check is currently being bypassed for the interface pending — the command has been executed and accepted, but the port state for the interface is already operational |
Details | |
If Index | The index corresponding to this interface. The primary index is 1. For example, all interfaces are defined in the Base virtual router context. |
If Type | specifies the interface type |
Port Id | specifies the SAP’s port ID |
SNTP B.Cast | specifies whether SNTP broadcast client mode is enabled or disabled |
Arp Timeout | specifies the timeout for an ARP entry learned on the interface |
MAC Address | specifies the 48-bit IEEE 802.3 MAC address |
ICMP Mask Reply | specifies whether ICMP mask reply is enabled or disabled |
Cflowd | specifies whether Cflowd collection and analysis on the interface is enabled or disabled |
ICMP Details | |
Redirects | specifies the rate for ICMP redirect messages |
Unreachables | specifies the rate for ICMP unreachable messages |
TTL Expired | specifies the rate for ICMP TTL messages |
The Oper Hash Label and Hash Lbl Sig Cap spoke-sdp fields display when signal-capability is enabled and operational state of hash-label in datapath.
This command displays the service ID of the retailer subscriber service to which this DHCP lease belongs.
The following is sample output of the retailers command.
This command displays service wholesaler information.
The following is sample output of the wholesalers command.
Wholesaler information can also be displayed in the lease-state context.
Displays information for the SAPs associated with the service.
If no optional parameters are specified, a summary of all associated SAPs is displayed.
Table 59 describes the show service SAP fields:
Label | Description |
Service Id | the service identifier |
SAP | the SAP and qtag |
Encap | the encapsulation type of the SAP |
Ethertype | specifies an Ethernet type II Ethertype value |
Admin State | the administrative state of the SAP |
Oper State | the operating state of the SAP |
Flags | specifies the conditions that affect the operating status of this SAP Display output includes: ServiceAdminDown, SapAdminDown, InterfaceAdminDown, PortOperDown, PortMTUTooSmall, L2OperDown, SapIngressQoSMismatch, SapEgressQoSMismatch,RelearnLimitExceeded, RxProtSrcMac, ParentIfAdminDown, NoSapIpipeCeIpAddr, SapParamMismatch, CemSapNoEcidOrMacAddr, StandByForMcRing, ServiceMTUTooSmall, SapIngressNamedPoolMismatch, SapEgressNamedPoolMismatch, NoSapEpipeRingNode. |
Last Status Change | specifies the time of the most recent operating status change to this SAP |
Last Mgmt Change | specifies the time of the most recent management-initiated change to this SAP |
Admin MTU | the desired largest service frame size (in octets) that can be transmitted through the SAP to the far-end router, without requiring the packet to be fragmented. |
Oper MTU | the actual largest service frame size (in octets) that can be transmitted through the SAP to the far-end router, without requiring the packet to be fragmented |
Ingress qos-policy | the ingress QoS policy ID assigned to the SAP |
Egress qos-policy | the egress QoS policy ID assigned to the SAP |
Ingress Filter-Id | the ingress filter policy ID assigned to the SAP |
Egress Filter-Id | the egress filter policy ID assigned to the SAP |
Acct. Pol | the accounting policy ID assigned to the SAP |
Collect Stats | specifies whether collect stats is enabled |
Dropped | the number of packets and octets dropped due to SAP state, ingress MAC or IP filter, same segment discard, bad checksum, etc. |
Off. HiPrio | the number of high priority packets and octets, as determined by the SAP ingress QoS policy, offered by the Pchip to the Qchip |
Off. LowPrio | the number of low priority packets and octets, as determined by the SAP ingress QoS policy, offered by the Pchip to the Qchip |
Off. Uncolor | the number of uncolored packets and octets, as determined by the SAP ingress QoS policy, offered by the Pchip to the Qchip |
Dro. HiPrio | the number of high priority packets and octets, as determined by the SAP ingress QoS policy, dropped by the Qchip due to: MBS exceeded, buffer pool limit exceeded, etc. |
Dro. LowPrio | the number of low priority packets and octets, as determined by the SAP ingress QoS policy, dropped by the Qchip due to: MBS exceeded, buffer pool limit exceeded, etc. |
For. InProf | the number of in-profile packets and octets (rate below CIR) forwarded by the ingress Qchip |
For. OutProf | the number of out-of-profile packets and octets discarded by the egress Qchip due to MBS exceeded, buffer pool limit exceeded, etc. |
Dro. InProf | the number of in-profile packets and octets discarded by the egress Qchip due to MBS exceeded, buffer pool limit exceeded, etc. |
Dro. OutProf | the number of out-of-profile packets and octets discarded by the egress Qchip due to MBS exceeded, buffer pool limit exceeded, etc. |
For. InProf | the number of in-profile packets and octets (rate below CIR) forwarded by the egress Qchip |
For. OutProf | the number of out-of-profile packets and octets (rate above CIR) forwarded by the egress Qchip |
Ingress TD Profile | the profile ID applied to the ingress SAP |
Egress TD Profile | the profile ID applied to the egress SAP |
Alarm Cell Handling | the indication that OAM cells are being processed |
AAL-5 Encap | the AAL-5 encapsulation type |
Displays information for the SDPs associated with the service. If no optional parameters are specified, a summary of all associated SDPs is displayed.
Table 60 describes the show service-id SDP output fields:
Label | Description |
Sdp Id | the SDP identifier |
Type | indicates whether the SDP is a spoke or a mesh |
Split Horizon Group | name of the split horizon group that the SDP belongs to |
VC Type | displays the VC type: ether or vlan |
VC Tag | displays the explicit dot1Q value used when encapsulating to the SDP far end |
I. Lbl | the VC label used by the far-end device to send packets to this device in this service by the SDP |
Admin Path MTU | the operating path MTU of the SDP is equal to the admin path MTU (when one is set) or the dynamically computed tunnel MTU, when no admin path MTU is set (the default case.) |
Oper Path MTU | the actual largest service frame size (in octets) that can be transmitted through this SDP to the far-end router, without requiring the packet to be fragmented |
Far End | specifies the IP address of the remote end of the GRE or MPLS tunnel defined by this SDP |
Delivery | specifies the type of delivery used by the SDP: GRE or MPLS |
Admin State | the administrative state of this SDP |
Oper State | the operational state of this SDP |
Ingress Label | the label used by the far-end device to send packets to this device in this service by this SDP |
Egress Label | the label used by this device to send packets to the far-end device in this service by the SDP |
Last Changed | the date and time of the most recent change to the SDP |
Signaling | specifies the signaling protocol used to obtain the ingress and egress labels used in frames transmitted and received on this SDP. |
Admin State | the administrative state of the keepalive process |
Oper State | the operational state of the keepalive process |
Hello Time | specifies how often the SDP echo request messages are transmitted on this SDP |
Max Drop Count | specifies the maximum number of consecutive SDP echo request messages that can be unacknowledged before the keepalive protocol reports a fault |
Hello Msg Len | specifies the length of the SDP echo request messages transmitted on this SDP |
Hold Down Time | specifies the amount of time to wait before the keepalive operating status is eligible to enter the alive state |
I. Fwd. Pkts. | specifies the number of forwarded ingress packets |
I. Dro. Pkts. | specifies the number of dropped ingress packets |
E. Fwd. Pkts. | specifies the number of forwarded egress packets |
Associated LSP List | When the SDP type is MPLS, a list of LSPs used to reach the far-end router displays. All the LSPs in the list must terminate at the IP address specified in the far end field. If the SDP type is GRE, then the following message displays: SDP delivery mechanism is not MPLS |
This command displays information for the SDPs associated with the service.
If no optional parameters are specified, a summary of all associated SDPs is displayed.
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.
Table 61 describes 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 |
Description | the description string for the PW Port |
This command displays subscriber host information.
This command displays event file log information.
If no command line parameters are specified, a summary output of all event log files is displayed.
Specifying a file ID displays detailed information on the event file log.
Table 62 describes the output fields for a log file summary.
Label | Description |
file-id | the log file ID |
rollover | the rollover time for the log file which is how long in between partitioning of the file into a new file |
retention | the retention time for the file in the system which is how long the file should be retained in the file system |
admin location | the primary flash device specified for the file location n/a — indicates no specific flash device was specified |
backup location | the secondary flash device specified for the file location if the admin location is not available n/a — Indicates that no backup flash device was specified |
oper location | the actual flash device on which the log file exists |
file-id | the log file ID |
rollover | the rollover time for the log file which is how long in between partitioning of the file into a new file |
retention | the retention time for the file in the system which is how long the file should be retained in the file system |
file name | the complete pathname of the file associated with the log ID |
expired | indicates whether or not the retention period for this file has passed |
state | in progress — indicates the current open log file complete —indicates the old log file |
This command displays an event log summary with settings and statistics or the contents of a specific log file, SNMP log, or memory log.
If the command is specified with no command line options, a summary of the defined system logs is displayed. The summary includes log settings and statistics.
If the log ID of a memory, SNMP, or file event log is specified, the command displays the contents of the log. Additional command line options control what and how the contents are displayed.
Contents of logs with console, session or syslog destinations cannot be displayed. The actual events can only be viewed on the receiving syslog or console device.
The following values apply to the 7750 SR and 7950 XRS only:
If the to-seq number is not provided, the log contents to the end of the log is displayed unless the count parameter is present in which case the number of entries displayed is limited by the count.
Table 63 describes the log ID field output.
Label | Description |
Log Id | an event log destination |
Source | no — the event log filter is not currently in use by a log ID yes — the event log filter is currently in use by a log ID |
Filter ID | The value is the index to the entry which defines the filter to be applied to this log's source event stream to limit the events output to this log's destination. If the value is 0, then all events in the source log are forwarded to the destination. |
Admin State | Up — indicates that the administrative state is up Down — indicates that the administrative state is down |
Oper State | Up — indicates that the operational state is up Down — indicates that the operational state is down |
Logged | the number of events that have been sent to the log source(s) that were forwarded to the log destination |
Dropped | the number of events that have been sent to the log source(s) that were not forwarded to the log destination because they were filtered out by the log filter |
Dest. Type | Console — All selected log events are directed to the system console. If the console is not connected, then all entries are dropped. Syslog — All selected log events are sent to the syslog address. SNMP traps — Events defined as SNMP traps are sent to the configured SNMP trap destinations and are logged in NOTIFICATION-LOG-MIB tables. File — All selected log events will be directed to a file on one of the CPM's compact flash disks. (7750 SR and 7450 ESS only) Memory — All selected log events will be directed to an in-memory storage area. |
Dest ID | the event log stream destination |
Size | the allocated memory size for the log |
Time format | the time format specifies the type of timestamp format for events sent to logs where log ID destination is either syslog or file. When the time format is UTC, timestamps are written using the Coordinated Universal Time value. When the time format is local, timestamps are written in the system's local time. |
This command displays SNMP trap group configuration information.
Table 64 describes SNMP trap group output fields.
Label | Description |
Log-ID | the log destination ID for an event stream |
Address | the IP address of the trap receiver |
Port | the destination UDP port used for sending traps to the destination, expressed as a decimal integer |
Version | specifies the SNMP version format to use for traps sent to the trap receiver. Valid values are snmpv1, snmpv2c, snmpv3 |
Community | the community string required by snmpv1 or snmpv2c trap receivers |
Security-Level | the required authentication and privacy levels required to access the views on this node |
Replay | indicates whether or not the replay parameter has been configured, enabled or disabled, for the trap-target address |
Replay from | Indicates the sequence ID of the first missed notification that will be replayed when a route is added to the routing table by which trap-target address can be reached. If no notifications are waiting to be replayed this field shows n/a. |
Last Replay | Indicates the last time missed events were replayed to the trap-target address. If no events have ever been replayed this field shows never. |
This command displays syslog event log destination summary information or detailed information on a specific syslog destination.
Table 65 describes the syslog output fields.
Label | Description |
Syslog ID | the syslog ID number for the syslog destination |
IP Address | the IP address of the syslog target host |
Port | the configured UDP port number used when sending syslog messages |
Facility | the facility code for messages sent to the syslog target host |
Severity Level | the syslog message severity level threshold |
Below Level Dropped | A count of messages not sent to the syslog collector target because the severity level of the message was above the configured severity. The higher the level, the lower the severity. |
Prefix Present | Yes — a log prefix was prepended to the syslog message sent to the syslog host |
No — a log prefix was not prepended to the syslog message sent to the syslog host | |
Description | a text description stored in the configuration file for a configuration context |
LogPrefix | the prefix string prepended to the syslog message |
Log-id | events are directed to this destination |
This command displays aggregated routes.
Table 66describes router aggregate output fields.
Label | Description |
Prefix | displays the destination address of the aggregate route in dotted decimal notation |
Summary | specifies whether the aggregate or more specific components are advertised |
AS Set | displays an aggregate where the path advertised for the route consists of all elements contained in all paths that are being summarized |
Aggr AS | displays the aggregator path attribute to the aggregate route |
Aggr IP-Address | the IP address of the aggregated route |
State | the operational state of the aggregated route |
No. of Aggregates | the total number of aggregated routes |
This command displays the router ARP table sorted by IP address.
If no command line options are specified, all ARP entries are displayed.
Table 67 describes ARP table output fields:
Label | Description |
IP Address | the IP address of the ARP entry |
MAC Address | the MAC address of the ARP entry |
Expiry | the age of the ARP entry |
Type | Dyn — the ARP entry is a dynamic ARP entry Inv — the ARP entry is an inactive static ARP entry (invalid) Oth — the ARP entry is a local or system ARP entry Sta — the ARP entry is an active static ARP entry |
Interface | the IP interface name associated with the ARP entry |
No. of ARP Entries | the number of ARP entries displayed in the list |
This command displays BGP routes with have been dampened due to route flapping. This command can be entered with or without a route parameter.
When the keyword detail is included, more detailed information displays.
When only the command is entered (without any parameters included except detail), then all dampened routes are listed.
When a parameter is specified, then the matching route or routes are listed.
When a decayed, history, or suppressed keyword is specified, only those types of dampened routes are listed.
Table 68 describes BGP damping output fields:
Label | Description |
BGP Router ID | the local BGP router ID |
AS | the configured autonomous system number |
Local AS | the configured or inherited local AS for the specified peer group. If not configured, then it is the same value as the AS |
Network | Route IP prefix and mask length for the route |
Flag(s) | Legend: Status codes: u- used, s-suppressed, h-history, d-decayed, *-valid. If a * is not present, then the status is invalid. Origin codes: i-IGP, e-EGP, ?-incomplete, >-best |
Network | the IP prefix and mask length for the route |
From | the originator ID path attribute value |
Reuse time | the time when a suppressed route can be used again |
AS Path | the BGP AS path for the route |
Peer | the router ID of the advertising router |
NextHop | BGP nexthop for the route |
Peer AS | the autonomous system number of the advertising router |
Peer Router-Id | the router ID of the advertising router |
Local Pref | BGP local preference path attribute for the route |
Age | the time elapsed since the service was enabled |
Last update | the time when BGP was updated last in second/minute/hour (SS:MM:HH) format |
FOM Present | the current Figure of Merit (FOM) value |
Number of Flaps | the number of flaps in the neighbor connection |
Reuse time | the time when the route can be reused |
Path | the BGP AS path for the route |
Applied Policy | the applied route policy name |
This command displays group information for a BGP peer group. This command can be entered with or without parameters.
When this command is entered without a group name, information about all peer groups displays.
When the command is issued with a specific group name, information only pertaining to that specific peer group displays.
The ‘State’ field displays the BGP group’s operational state. Other valid states are:
Table 69 describes the standard and detailed command output fields for a BGP group:
Label | Description |
Group | BGP group name |
Group Type | No Type — peer type not configured External — peer type configured as external BGP peers Internal — peer type configured as internal BGP peers |
State | Disabled — the BGP peer group has been operationally disabled Down — the BGP peer group is operationally inactive Up — the BGP peer group is operationally active |
Peer AS | the configured or inherited peer AS for the specified peer group |
Local AS | the configured or inherited local AS for the specified peer group |
Local Address | the configured or inherited local address for originating peering for the specified peer group |
Loop Detect | the configured or inherited loop detect setting for the specified peer group |
Connect Retry | the configured or inherited connect retry timer value |
Authentication | n/a — no authentication is configured MD5 — MD5 authentication is configured |
Local Pref | the configured or inherited local preference value |
MED Out | the configured or inherited MED value assigned to advertised routes without a MED attribute |
Min Route Advt. | the minimum amount of time that must pass between route updates for the same IP prefix |
Min AS Originate | the minimum amount of time that must pass between updates for a route originated by the local router |
Multihop | the maximum number of router hops a BGP connection can traverse |
Multipath | the configured or inherited multipath value, determining the maximum number of ECMP routes BGP can advertise to the RTM |
Prefix Limit | No Limit — no route limit assigned to the BGP peer group 1 to 4294967295 — the maximum number of routes BGP can learn from a peer |
Passive | Disabled — BGP attempts to establish BGP connections with neighbors in the specified peer group. Enabled — BGP will not actively attempt to establish BGP connections with neighbors in the specified peer group. |
Next Hop Self | Disabled — BGP is not configured to send only its own IP address as the BGP nexthop in route updates to neighbors in the peer group. Enabled — BGP sends only its own IP address as the BGP nexthop in route updates to neighbors in the specified peer group. |
Aggregator ID 0 | Disabled — BGP is not configured to set the aggregator ID to 0.0.0.0 in all originated route aggregates sent to the neighbor in the peer group. Enabled — BGP is configured to set the aggregator ID to 0.0.0.0 in all originated route aggregates sent to the neighbor in the peer group. |
Remove Private | Disabled — BGP will not remove all private AS numbers from the AS path attribute in updates sent to the neighbor in the peer group. Enabled — BGP removes all private AS numbers from the AS path attribute in updates sent to the neighbor in the peer group. |
Damping | Disabled — The peer group is configured not to dampen route flaps. Enabled — The peer group is configured to dampen route flaps. |
Export Policy | the configured export policies for the peer group |
Import Policy | the configured import policies for the peer group |
Hold Time | the configured hold time setting |
Keep Alive | the configured keepalive setting |
Cluster Id | n/a — No cluster ID has been configured. |
Client Reflect | Disabled — The BGP route reflector will not reflect routes to this neighbor. Enabled — The BGP route reflector is configured to reflect routes to this neighbor. |
NLRI | the type of NLRI information that the specified peer group can accept Unicast — IPv4 unicast routing information can be carried. |
Preference | the configured route preference value for the peer group |
List of Peers | a list of BGP peers configured under the peer group |
Total Peers | the total number of peers configured under the peer group |
Established | the total number of peers that are in an established state |
This command displays BGP neighbor information. This command can be entered with or without any parameters.
When this command is issued without any parameters, information about all BGP peers displays.
When the command is issued with a specific IP address or ASN, information regarding only that specific peer or peers with the same AS display.
When either received-routes or advertised-routes is specified, then the routes received from or sent to the specified peer is listed (see second output example). This information is not available by SNMP.
When either history or suppressed is specified, then the routes learned from those peers that either have a history or are suppressed (respectively) are listed.
The ‘State’ field displays the BGP peer’s protocol state. In additional to the standard protocol states, this field can also display the ‘Disabled’ operational state which indicates the peer is operationally disabled and must be restarted by the operator.
Table 70 describes the standard and detailed command output fields for a BGP neighbor:
Label | Description |
Peer | the IP address of the configured BGP peer. |
Group | the BGP peer group to which this peer is assigned. |
Peer AS | the configured or inherited peer AS for the peer group. |
Peer Address | the configured address for the BGP peer. |
Peer Port | the TCP port number used on the far-end system. |
Local AS | the configured or inherited local AS for the peer group. |
Local Address | the configured or inherited local address for originating peering for the peer group. |
Local Port | the TCP port number used on the local system. |
Peer Type | External — Peer type configured as external BGP peers. Internal — Peer type configured as internal BGP peers. |
State | Idle — the BGP peer is not accepting connections. (Shutdown) is displayed in addition, if the peer is administratively disabled. Active — BGP is listening for and accepting TCP connections from this peer. Connect — BGP is attempting to establish a TCP connection from this peer. Open Sent — BGP has sent an OPEN message to the peer and is waiting for an OPEN message from the peer. Open Confirm — BGP has received a valid OPEN message from the peer and is awaiting a KEEPALIVE or NOTIFICATION. Established — BGP has successfully established a peering and is exchanging routing information. |
Last State | Idle — the BGP peer is not accepting connections. Active — BGP is listening for and accepting TCP connections from this peer. Connect — BGP is attempting to establish a TCP connection from this peer. Open Sent — BGP has sent an OPEN message to the peer and is waiting for an OPEN message from the peer. Open Confirm — BGP has received a valid OPEN message from the peer and is awaiting a KEEPALIVE or NOTIFICATION. |
Last Event | start — BGP has initialized the BGP neighbor. stop — BGP has disabled the BGP neighbor. open — BGP transport connection opened. close — BGP transport connection closed. open — BGP transport connection opened. close — BGP transport connection closed. openFail — BGP transport connection failed to open. error — BGP transport connection error. connectRetry — Connect retry timer expired. holdTime — Hold time timer expired. keepAlive — Keepalive timer expired. recvOpen — receive an OPEN message revKeepalive — receive an KEEPALIVE message recvUpdate — receive an UPDATE message recvNotify — receive an NOTIFICATION message None — No events have occurred. |
Last Error | displays the last BGP error and sub-code to occur on the BGP neighbor |
Connect Retry | the configured or inherited connect retry timer value |
Local Pref. | the configured or inherited local preference value |
Min Route Advt. | the minimum amount of time that must pass between route updates for the same IP prefix |
Min AS Originate | the minimum amount of time that must pass between updates for a route originated by the local router |
Multihop | the maximum number of router hops a BGP connection can traverse |
Multipath | the configured or inherited multipath value, determining the maximum number of ECMP routes BGP can advertise to the RTM |
Damping | Disabled — BGP neighbor is configured not to dampen route flaps. Enabled — BGP neighbor is configured to dampen route flaps. |
Loop Detect | Ignore — The BGP neighbor is configured to ignore routes with an AS loop. Drop — The BGP neighbor is configured to drop the BGP peering if an AS loop is detected. Off — AS loop detection is disabled for the neighbor. |
MED Out | the configured or inherited MED value assigned to advertised routes without a MED attribute |
Authentication | None — No authentication is configured. MD5 — MD5 authentication is configured. |
Next Hop Self | Disabled — BGP is not configured to send only its own IP address as the BGP nexthop in route updates to the specified neighbor. Enabled — BGP will send only its own IP address as the BGP nexthop in route updates to the neighbor. |
AggregatorID Zero | Disabled — The BGP Neighbor is not configured to set the aggregator ID to 0.0.0.0 in all originated route aggregates. Enabled — The BGP Neighbor is configured to set the aggregator ID to 0.0.0.0 in all originated route aggregates. |
Remove Private | Disabled — BGP will not remove all private AS numbers from the AS path attribute, in updates sent to the specified neighbor. Enabled — BGP will remove all private AS numbers from the AS path attribute, in updates sent to the specified neighbor. |
Passive | Disabled — BGP will actively attempt to establish a BGP connection with the specified neighbor. Enabled — BGP will not actively attempt to establish a BGP connection with the specified neighbor. |
Prefix Limit | No Limit — no route limit assigned to the BGP peer group 1 to 4294967295 — the maximum number of routes BGP can learn from a peer |
Hold Time | the configured hold time setting |
Keep Alive | the configured keepalive setting |
Active Hold Time | the negotiated hold time, if the BGP neighbor is in an established state |
Active Keep Alive | the negotiated keepalive time, if the BGP neighbor is in an established state |
Cluster Id | the configured route reflector cluster ID None — No cluster ID has been configured. |
Client Reflect | Disabled — The BGP route reflector is configured not to reflect routes to this neighbor. Enabled — The BGP route reflector is configured to reflect routes to this neighbor. |
Preference | the configured route preference value for the peer group |
Num of Flaps | the number of flaps in the neighbor connection |
Recd. Prefixes | the number of routes received from the BGP neighbor |
Active Prefixes | the number of routes received from the BGP neighbor and active in the forwarding table |
Recd. Paths | the number of unique sets of path attributes received from the BGP neighbor |
Suppressed Paths | the number of unique sets of path attributes received from the BGP neighbor and suppressed due to route damping |
Input Queue | the number of BGP messages to be processed |
Output Queue | the number of BGP messages to be transmitted |
i/p Messages | total number of packets received from the BGP neighbor |
o/p Messages | total number of packets sent to the BGP neighbor |
i/p Octets | total number of octets received from the BGP neighbor |
o/p Octets | total number of octets sent to the BGP neighbor |
i/p Updates | total number of BGP updates received from the BGP neighbor |
o/p Updates | total number of BGP updates sent to the BGP neighbor |
Export Policy | the configured export policies for the peer group |
Import Policy | the configured import policies for the peer group |
Table 71 describes the command output fields for both the standard and detailed information for a neighbor:
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 it is the same value as the AS. |
Flag | u – used |
s – suppressed | |
h – history | |
d – decayed | |
* – valid | |
i – igp | |
? – incomplete | |
> – best | |
Network | route IP prefix and mask length for the route |
Next Hop | BGP nexthop for the route |
LocalPref | BGP local preference path attribute for the route |
MED | BGP Multi-Exit Discriminator (MED) path attribute for the route |
AS Path | the BGP AS path for the route |
This command displays a summary of BGP path attributes.
Table 72 describes the command output fields for a BGP path.
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 |
This command displays BGP route information.
When this command is issued without any parameters, then the entire BGP routing table displays.
When this command is issued with an IP prefix/mask or IP address, then the best match for the parameter displays.
rd | {ip-address:number1 as-number1:number2 as-number2:number3} | |
number1 | 1 to 65535 | |
as-number1 | 1 to 65535 | |
number2 | 0 to 4294967295 | |
as-number2 | 1 to 4294967295 | |
number3 | 0 to 65535 | |
ip-address | a.b.c.d | |
mask | 0 to 32 |
ipv6-prefix | 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 |
[as-number1:comm-val1 | ext-comm | well-known-comm] | |
ext-comm | type:{ip-address:comm-val1 | as-number1:comm-val2 | as-number2:comm-val1} |
as-number1 | 0 to 65535 |
comm-val1 | 0 to 65535 |
type | keywords: target, origin |
ip-address | a.b.c.d |
comm-val2 | 0 to 4294967295 |
as-number2 | 0 to 4294967295 |
well-known-comm no-export, no-export-subconfed, no-advertise |
Table 73 describes the command output fields for BGP routes.
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 it is the same as the system AS |
Network | the IP prefix and mask length |
Nexthop | the BGP nexthop |
From | the advertising BGP neighbor’s IP address |
Res. Nexthop | the resolved nexthop |
Local Pref. | the local preference value |
Flag | u – used |
s – suppressed | |
h – history | |
d – decayed | |
* – valid | |
i – igp | |
? – incomplete | |
> – best | |
Aggregator AS | the aggregator AS value none — No aggregator AS attributes are present. |
Aggregator | the aggregator attribute value none — No Aggregator attributes are present. |
Atomic Aggr. | Atomic — The atomic aggregator flag is set. Not Atomic — The atomic aggregator flag is not set. |
MED | the MED metric value none — No MED metric is present. |
Community | the BGP community attribute list |
Cluster | the route reflector cluster list |
Originator Id | the originator ID path attribute value none — The originator ID attribute is not present. |
Peer Router Id | the router ID of the advertising router |
AS-Path | the BGP AS path attribute |
VPRN Imported | displays the VPRNs where a particular BGP-VPN received route has been imported and installed |
This command displays a summary of BGP neighbor information.
If confederations are not configured, that portion of the output will not display.
The “State” field displays the global BGP operational state. The valid values are:
Table 74 describes the command output fields for a BGP summary:
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 it is the same as the system AS |
BGP Admin State | Down — BGP is administratively disabled. Up — BGP is administratively enabled. |
BGP Oper State | Down — BGP is operationally disabled. Up — BGP is operationally enabled. |
Confederation AS | the configured confederation AS |
Member Confederations | the configured members of the BGP confederation |
Number of Peer Groups | the total number of configured BGP peer groups. |
Number of Peers | the total number of configured BGP peers |
Total BGP Active Routes | the total number of BGP routes used in the forwarding table |
Total BGP Routes | the total number of BGP routes learned from BGP peers |
Total BGP Paths | The total number of unique sets of BGP path attributes learned from BGP peers |
Total Path Memory | total amount of memory used to store the path attributes |
Total Suppressed Routes | total number of suppressed routes due to route damping |
Total History Routes | total number of routes with history due to route damping |
Total Decayed Routes | total number of decayed routes due to route damping |
Neighbor | BGP neighbor address |
AS (Neighbor) | BGP neighbor autonomous system number |
PktRcvd | total number of packets received from the BGP neighbor |
PktSent | total number of packets sent to the BGP neighbor |
InQ | the number of BGP messages to be processed |
OutQ | the number of BGP messages to be transmitted |
Up/Down | the amount of time that the BGP neighbor has either been established or not established depending on its current state |
State|Recv/Actv/Sent | the BGP neighbor’s current state (if not established) or the number of received routes, active routes and sent routes (if established) |
This command displays the ECMP settings for the router.
Table 75 describes the output fields for the router ECMP settings.
Label | Description |
Instance | the router instance number |
Router Name | the name of the router instance |
ECMP | False — ECMP is disabled for the instance |
True — ECMP is enabled for the instance | |
Configured-ECMP-Routes | the number of ECMP routes configured for path sharing |
This command displays the router IP interface table sorted by interface index.
Table 76 describes the standard output fields for an IP interface:
Label | Description |
Interface-Name | the IP interface name |
Type | n/a — No IP address has been assigned to the IP interface, so the IP address type is not applicable. Pri — The IP address for the IP interface is the Primary address on the IP interface. Sec — The IP address for the IP interface is a secondary address on the IP interface. |
IP-Address | the IP address and subnet mask length of the IP interface n/a — indicates no IP address has been assigned to the IP interface |
Adm | Down — The IP interface is administratively disabled. Up — The IP interface is administratively enabled. |
Opr | Down — The IP interface is operationally disabled. Up — The IP interface is operationally enabled. |
Mode | Network — The IP interface is a network/core IP interface. Service — The IP interface is a service IP interface. |
Table 77 describes the detailed output fields for an IP interface.
Label | Description |
If Name | the IP interface name |
Admin State | Down — The IP interface is administratively disabled. Up — The IP interface is administratively enabled. |
Oper State | Down — The IP interface is operationally disabled. Up — The IP interface is operationally disabled. |
IP Addr/mask | the IP address and subnet mask length of the IP interface Not Assigned —indicates no IP address has been assigned to the IP interface |
Address Type | Primary — The IP address for the IP interface is the Primary address on the IP interface. Secondary — The IP address for the IP interface is a Secondary address on the IP interface. |
IGP Inhibit | Disabled — The secondary IP address on the interface will be recognized as a local interface by the IGP. Enabled — The secondary IP address on the interface will not be recognized as a local interface by the IGP. |
Broadcast Address | All-ones — the broadcast format on the IP interface is all ones Host-ones — the broadcast format on the IP interface is host ones |
If Index | the interface index of the IP router interface |
If Type | Network — The IP interface is a network/core IP interface. Service — The IP interface is a service IP interface. |
Port Id | the port ID of the IP interface |
Egress Filter | the egress IP filter policy ID associated with the IP interface none — indicates no egress filter policy is associated with the interface |
Ingress Filter | The ingress IP filter policy ID associated with the IP interface. none — indicates no ingress filter policy is associated with the interface |
QoS Policy | the QoS policy ID associated with the IP interface |
SNTP Broadcast | False — Receipt of SNTP broadcasts on the IP interface is disabled. True — Receipt of SNTP broadcasts on the IP interface is enabled. |
MAC Address | the MAC address of the IP interface |
Arp Timeout | the ARP timeout for the interface, in seconds, which is the time an ARP entry is maintained in the ARP cache without being refreshed |
IP MTU | the IP Maximum Transmission Unit (MTU) for the IP interface |
ICMP Mask Reply | False — The IP interface will not reply to a received ICMP mask request. True — The IP interface will reply to a received ICMP mask request. |
Cflowd | specifies the type of Cflowd analysis that is applied to the interface acl — ACL Cflowd analysis is applied to the interface. interface — Interface cflowd analysis is applied to the interface. none — No Cflowd analysis is applied to the interface. |
Redirects | specifies the maximum number of ICMP redirect messages the IP interface will issue in a given period of time (time in s) Disabled — indicates the IP interface will not generate ICMP redirect messages |
Unreachables | specifies the maximum number of ICMP destination unreachable messages the IP interface will issue in a given period of time Disabled — indicates the IP interface will not generate ICMP destination unreachable messages |
TTL Expired | the maximum number (Number) of ICMP TTL expired messages the IP interface will issue in a given period of time (Time (seconds)) Disabled —indicates the IP interface will not generate ICMP TTL expired messages |
Table 78 describes the summary output fields for the router IP interfaces.
Label | Description |
Instance | the router instance number |
Router Name | the name of the router instance |
Interfaces | the number of IP interfaces in the router instance |
Admin-Up | the number of administratively enabled IP interfaces in the router instance |
Oper-Up | the number of operationally enabled IP interfaces in the router instance |
This command displays LDP information.
This command displays LDP bindings information.
This command displays Multicast VPN related information. The router instance must be specified.
Displays RIP information.
Displays all routes in the RIP database.
Table 79 describes the output fields for the RIP route database.
Label | Description |
Destination | the RIP destination for the route |
Peer | the router ID of the peer router |
NextHop | the IP address of the next hop |
Metric | the hop count to rate the value of different hops |
Tag | the value to distinguish between internal routes (learned by RIP) and external routes (learned from other protocols) |
TTL | Displays how many seconds the specific route will remain in the routing table. When an entry reaches 0, it is removed from the routing table. |
Valid | No — The route is not valid. Yes — The route is valid. |
Displays RIP neighbor interface information.
Table 80 describes the standard command output fields for a RIP group.
Label | Description |
Neighbor | the RIP neighbor interface name |
Adm | Down — The RIP neighbor interface is administratively down. Up — The RIP neighbor interface is administratively up. |
Opr | Down — The RIP neighbor interface is operationally down. Up — The RIP neighbor interface is operationally up. |
Primary IP | the primary IP address of the RIP neighbor interface |
Send Mode | Bcast — specifies that RIPv2 formatted messages are sent to the broadcast address Mcast — specifies that RIPv2 formatted messages are sent to the multicast address None — specifies that no RIP messages are sent (i.e., silent listener) RIPv1 — specifies that RIPv1 formatted messages are sent to the broadcast address |
Recv Mode | Both — specifies that RIP updates in either version 1 or version 2 format will be accepted None — specifies that RIP updates will not be accepted RIPv1 — specifies that RIP updates in version 1 format only will be accepted RIPv2 — specifies that RIP updates in version 2 format only will be accepted |
Metric In | the metric added to routes received from a RIP neighbor |
Table 81 describes the standard command output fields for a RIP group.
Label | Description |
Neighbor | the RIP neighbor name |
Description | The RIP neighbor description. No Description Available indicates no description is configured. |
Primary IP | the RIP neighbor interface primary IP address |
Group | the RIP group name of the neighbor interface |
Admin State | Down — The RIP neighbor interface is administratively down. Up — The RIP neighbor interface is administratively up. |
Oper State | Down — The RIP neighbor interface is operationally down. Up — The RIP neighbor interface is operationally up. |
Send Mode | Bcast — specifies that RIPv2 formatted messages are sent to the broadcast address Mcast — specifies that RIPv2 formatted messages are sent to the multicast address None — specifies that no RIP messages are sent (i.e., silent listener) RIPv1 — specifies that RIPv1 formatted messages are sent to the broadcast address |
Recv Mode | Both — specifies that RIP updates in either version 1 or version 2 format will be accepted None — specifies that RIP updates will not be accepted RIPv1 — specifies that RIP updates in version 1 format only will be accepted RIPv2 — specifies that RIP updates in version 2 format only will be accepted |
Metric In | the metric value added to routes received from a RIP neighbor |
Metric Out | the value added to routes exported into RIP and advertised to RIP neighbors |
Split Horizon | Disabled — Split horizon disabled for the neighbor. Enabled — Split horizon and poison reverse enabled for the neighbor. |
Check Zero | Disabled — checking of the mandatory zero fields in the RIPv1 and RIPv2 specifications are not checked allowing receipt of RIP messages even if mandatory zero fields are non-zero for the neighbor Enabled — checking of the mandatory zero fields in the RIPv1 and RIPv2 specifications and rejecting non-compliant RIP messages is enabled for the neighbor |
Message Size | the maximum number of routes per RIP update message |
Preference | the preference of RIP routes from the neighbor |
Auth. Type | specifies the authentication type |
Update Timer | the current setting of the RIP update timer value expressed in seconds |
Timeout Timer | the current RIP timeout timer value expressed in seconds |
Export Policies | the export route policy that is used to determine routes advertised to all peers |
Import Policies | the import route policy that is used to determine which routes are accepted from RIP neighbors |
Displays RIP peer information.
Table 82 describes the command output fields for a RIP peer:
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 |
Display Interface level statistics for the RIP protocol.
If no IP address or interface name is specified, then all configured RIP interfaces are displayed.
If an IP address or interface name is specified, then only data regarding the specified RIP interface is displayed.
Table 83 describes the output fields for RIP statistics.
Label | Description |
Learned Routes | the number of RIP-learned routes were exported to RIP neighbors |
Timed Out Routes | the number of routes that have been timed out |
Current Memory | the amount of memory used by this RIP router instance |
Maximum Memory | the amount of memory allocated for this RIP router instance |
Interface | displays the name of each interface configured in RIP and associated RIP statistics |
Primary IP | the interface IP address |
Update Timer | the current setting of the RIP update timer value expressed in seconds |
Timeout Timer | the current RIP timeout timer value expressed in seconds |
Flush Timer | the number of seconds after a route has been declared invalid that it is flushed from the route database |
Updates Sent | Total — the total number of RIP updates that were sent Last 5 Min — the number of RIP updates that were sent in the last 5 minutes Last 1 Min — the number of RIP updates that were sent in the last 1 minute |
Triggered Updates | Total — The total number of triggered updates sent. These updates are sent before the entire RIP routing table is sent. Last 5 Min — the number of triggered updates that were sent in the last 5 minutes Last 1 Min — the number of triggered updates that were sent in the last 1 minute |
Bad Packets Received | Total — the total number of RIP updates received on this interface that were discarded as invalid. Last 5 Min — the number of RIP updates received on this interface that were discarded as invalid in the last 5 minutes. Last 1 Min — the number of RIP updates received on this interface that were discarded as invalid in the last 1 minute |
RIPv1 Updates Received | Total — the total number of RIPv1 updates received Last 5 Min — the number of RIPv1 updates received in the last 5 minutes Last 1 Min — the number of RIPv1 updates received in the last 1 minute |
RIPv1 Updates Ignored | Total — the total number of RIPv1 updates ignored Last 5 Min — the number of RIPv1 updates ignored in the last 5 minutes Last 1 Min — the number of RIPv1 updates ignored in the last 1 minute |
RIPv1 Bad Routes | Total — the total number of bad routes received from the peer Last 5 Min — the number of bad routes received from the peer in the last 5 minutes Last 1 Min — the number of bad routes received from the peer in the last minute |
RIPv1 Requests Received | Total — the total number of times the router received RIPv1 route requests from other routers Last 5 Min — the number of times the router received RIPv1 route requests from other routers in the last 5 minutes Last 1 Min — the number of times the router received RIPv1 route requests from other routers in the last 1 minute |
RIPv1 Requests Ignored | Total — the total number of times the router ignored RIPv1 route requests from other routers Last 5 Min — the number of times the router ignored RIPv1 route requests from other routers in the last 5 minutes Last 1 Min — the number of times the router ignored RIPv1 route requests from other routers in the last 1 minute |
RIPv2 Updates Received | Total — the total number of RIPv2 updates received Last 5 Min — the number of RIPv2 updates received in the last 5 minutes Last 1 Min — the number of RIPv2 updates received in the last minute |
RIPv2 Updates Ignored | Total — the total number of RIPv2 updates ignored Last 5 Min — the number of RIPv2 updates ignored in the last 5 minutes Last 1 Min — the number of RIPv2 updates ignored in the last minute |
RIPv2 Bad Routes | Total — the total number of bad routes received from the peer Last 5 Min — the number of bad routes received from the peer in the last 5 minutes Last 1 Min — the number of bad routes received from the peer in the last minute |
RIPv2 Requests Received | Total — the total number of times the router received RIPv2 route requests from other routers Last 5 Min — the number of times the router received RIPv2 route requests from other routers in the last 5 minutes Last 1 Min — the number of times the router received RIPv2 route requests from other routers in the last minute |
RIPv2 Requests Ignored | Total — the total number of times the router ignored RIPv2 route requests from other routers Last 5 Min — the number of times the router ignored RIPv2 route requests from other routers in the last 5 minutes Last 1 Min — the number of times the router ignored RIPv2 route requests from other routers in the last minute |
Authentication Errors | Total — the total number of authentication errors to secure table updates Last 5 Min — the number of authentication errors to secure table updates in the last 5 minutes Last 1 Min —the number of authentication errors to secure table updates in the last minute |
This command displays the active routes in the routing table.
If no command line arguments are specified, all routes are displayed, sorted by prefix.
Table 84 describes the standard output fields for the route table.
Label | Description |
Dest Address | the route destination address and mask |
Next Hop | the next hop IP address for the route destination |
Type | Local — The route is a local route |
Remote — The route is a remote route | |
Protocol | the protocol through which the route was learned |
Age | the route age in seconds for the route |
Metric | the route metric value for the route |
Pref | the route preference value for the route |
No. of Routes | the number of routes displayed in the list |
The following is a sample output of the show router router-instance route-table all command for a VPRN on the standby PE for prefix 10.13.1.0/24.
This command displays service-prefix information.
Table 85 describes the service prefix output fields.
Label | Description |
IP Prefix | displays information for the specified IP prefix |
Mask | displays information for the specified mask length |
This command displays the router static ARP table sorted by IP address.
If no options are present, all ARP entries are displayed.
Table 86 describes the output fields for the ARP table.
Label | Description |
IP Address | the IP address of the static ARP entry |
MAC Address | the MAC address of the static ARP entry |
Age | the age of the ARP entry. Static ARPs always have 00:00:00 for the age |
Type | Inv — The ARP entry is an inactive static ARP entry (invalid). |
Sta — The ARP entry is an active static ARP entry. | |
Interface | the IP interface name associated with the ARP entry |
No. of ARP Entries | the number of ARP entries displayed in the list |
This command displays the static entries in the routing table.
If no options are present. all static routes are displayed sorted by prefix.
Table 87 describes the output fields for the static route table:
Label | Description |
IP Addr/mask | the static route destination address and mask |
Pref | the route preference value for the static route |
Metric | the route metric value for the static route |
Type | BH — The static route is a black hole route. The Nexthop for this type of route is black-hole. ID — The static route is an indirect route, where the nexthop for this type of route is the non-directly connected next hop. NH — The route is a static route with a directly connected next hop. The Nexthop for this type of route is either the next hop IP address or an egress IP interface name. |
Next Hop | the next hop for the static route destination |
Interface | the egress IP interface name for the static route n/a — indicates there is no current egress interface because the static route is inactive or a black hole route |
Active | N — The static route is inactive; for example, the static route is disabled or the next hop IP interface is down. Y — The static route is active. |
No. of Routes: | the number of routes displayed in the list |
This command displays tunnel table information.
Auto-bind GRE tunnels are not displayed in show command output. GRE tunnels are not the same as SDP tunnels that use the GRE encapsulation type. When the auto-bind-tunnel command is used when configuring a VPRN service, it means the MP-BGP NH resolution is referring to core routing instance for IP reachability. For a VPRN service this object specifies the lookup to be used by the routing instance if no SDP to the destination exists.
Table 88 describes tunnel table output fields:
Label | Description |
Destination | the route’s destination address and mask |
Owner | specifies the tunnel owner |
Encap | specifies the tunnel’s encapsulation type |
Tunnel ID | specifies the tunnel (SDP) identifier |
Pref | specifies the route preference for routes learned from the configured peer(s) |
Nexthop | the next hop for the route’s destination |
Metric | the route metric value for the route |
This command displays statistics for DHCP Relay and DHCP snooping.
If no IP address or interface name is specified, then all configured interfaces are displayed.
If an IP address or interface name is specified, then only data regarding the specified interface is displayed.
Table 89 describes the output fields for DHCP. statistics.
Label | Description |
Received Packets | the number of packets received from the DHCP clients |
Transmitted Packets | the number of packets transmitted to the DHCP clients |
Received Malformed Packets | the number of malformed packets received from the DHCP clients |
Received Untrusted Packets | the number of untrusted packets received from the DHCP clients |
Client Packets Discarded | the number of packets received from the DHCP clients that were discarded |
Client Packets Relayed | the number of packets received from the DHCP clients that were forwarded |
Client Packets Snooped | the number of packets received from the DHCP clients that were snooped |
Server Packets Discarded | the number of packets received from the DHCP server that were discarded |
Server Packets Relayed | the number of packets received from the DHCP server that were forwarded |
Server Packets Snooped | the number of packets received from the DHCP server that were snooped |
This command displays the status of the DHCP Relay and DHCP snooping functions on each interface.
Table 90 describes the output fields for DHCP summary.
Label | Description |
Interface Name | name of the router interface |
ARP Populate | indicates whether or nor ARP populate is enabled |
Info Option | indicates whether Option 82 is enabled |
Admin State | indicates the administrative status |
This command displays Web Portal Protocol information.
This command clears ARP data.
This command clears ARP host data.
This command enables the context to clear and reset DHCP entities.
This command clears DHCP statistics.
This command clears the route table on the specified IOM with the route table.
If the slot number is not specified, the command forces the route table to be recalculated.
This command clears IP interface statistics.
If no IP interface is specified either by IP interface name or IP address, the command will perform the clear operation on all IP interfaces.
This command clears or resets the route damping information for received routes.
This command clears or resets the route damping information for received routes.
This command clears route flap statistics.
This command resets the specified BGP peer or peers. This can cause existing BGP connections to be shutdown and restarted.
This command resets the entire BGP protocol. If the AS number was previously changed, the BGP AS number does not inherit the new value.
This command flushes all routes in the RIP database.
This command clears statistics for RIP neighbors.
This command clears commands for a specific service.
This command clears SAP statistics for a SAP.
This command enables the context to clear DHCP parameters.
This command clears DHCP lease state information for this service.
This command clears site-specific information for the service.
This command clears and resets the spoke SDP bindings for the service.
This command clears keepalive statistics associated with the SDP ID.
Clears all traffic queue counters associated with the service ID.
This command clears statistics for the spoke SDP bound to the service.
This command clears all spanning tree statistics for the service ID.
This command debugs commands for a specific service.
The no form of the command disables debugging.
This command enables and configures ARP host debugging.
The no form of the command disables ARP host debugging.
This command enables the context for DHCP debugging.
The no form of the command disables DHCP debugging.
This command configures the DHCP tracing detail level.
The no form of the command disables debugging.
This command configures the DHCP tracing mode.
The no form of the command disables debugging.
This command enables Subscriber Host Connectivity Verification (SHCV) debugging.
The no form of the command disables the SHCV debugging.
This command displays Subscriber Host Connectivity Verification (SHCV) events for a particular IP address.
This command displays Subscriber Host Connectivity Verification (SHCV) events for a particular MAC address.
This command displays Subscriber Host Connectivity Verification (SHCV) events for a particular SAP.
This command enables STP debugging for a specific SAP.
The no form of the command disables debugging.
This command enables STP debugging for a specific SDP.
The no form of the command disables debugging.
This command enables debugging for a particular event type.
The no form of the command disables debugging.
This command enables debugging for a particular event type.
The no form of the command disables debugging.
This command enables the context for debugging STP.
The no form of the command disables debugging.
This command enables STP debugging for all events.
The no form of the command disables debugging.
This command enables STP debugging for received and transmitted BPDUs.
The no form of the command disables debugging.
This command enables STP debugging for core connectivity.
The no form of the command disables debugging.
This command enables STP debugging for exceptions.
The no form of the command disables debugging.
This command enables STP debugging for FSM state changes.
The no form of the command disables debugging.
This command enables STP debugging for FSM timer changes.
The no form of the command disables debugging.
This command enables STP debugging for changes in port roles.
The no form of the command disables debugging.
This command enables STP debugging for port states.
The no form of the command disables debugging.
This command enables debugging for IGMP.
The no form of the command disables debugging.
This command enables debugging on the IGMP interface.
The no form of the command disables debugging.
This command enables debugging for IGMP MCS.
The no form of the command disables debugging.
This command enables debugging for IGMP miscellaneous.
The no form of the command disables debugging.
This command enables debugging for IGMP packets.
The no form of the command disables debugging.