3.14. Show, Monitor, Clear, and Debug Command Reference
3.14.1. Command Hierarchies
3.14.1.1. Show Commands
3.14.1.2. Monitor Commands
3.14.2. Command Descriptions
3.14.2.1. Show Commands
 | Note: The following command outputs are examples only; actual displays may differ depending on supported functionality and user configuration. |
3.14.2.1.1. Show APS Commands
aps
Syntax
Context
Description
This command displays Automatic Protection Switching (APS) information.
Parameters
Output
The following outputs are examples of APS information, and Table 33 describes the fields.
Table 33: Show APS Output Fields
Label | Description |
Interface | Specifies the APS interface name (the APS group port) |
Admin State | Specifies whether the APS interface is administratively up or down |
Oper State | Specifies whether the APS interface is operationally up or down |
MC-Ctl state | Specifies the multi-chassis state |
Work Circuit | Specifies the physical port that is acting as the working circuit for this APS group |
Prot Circuit | Specifies the physical port that is acting as the protection circuit for this APS group |
Active Circuit | Specifies the active circuit |
Tx/Rx K1 Byte | Displays the value of the SONET/SDH K1 byte received or transmitted on the protection circuit |
APS Group | Displays the APS group name |
Description | Displays the APS group description |
Group ID | Displays the APS group ID number |
Active Circuit | Specifies the physical port that is acting as the active circuit for this APS group |
Admin Status | Specifies whether the APS circuit is administratively up or down |
Oper Status | Specifies whether the APS circuit is operationally up or down |
Working Circuit | Displays the physical port that is acting as the working circuit for this APS group |
Protection Circuit | Displays the physical port that is acting as the protection circuit for this APS group |
Switching-mode | Displays the switching mode of the APS group |
Switching-arch | Displays the architecture of the APS group |
Revertive-mode | Displays the revertive mode of the APS group: non-revertive — traffic remains on the protection line until another switch request is received revertive — when the condition that caused a switch to the protection line has been cleared, the signal is switched back to the working line |
Revert-time | Displays the configured time, in minutes, to wait after the working circuit has become functional again before making the working circuit active again. If the revertive mode is non-revertive, then this field is empty. |
Rx K1/K2 byte | Displays the value of the SONET/SDH K1/K2 byte received on the interface |
Tx K1/K2 byte | Displays the value of the SONET/SDH K1/K2 byte transmitted on the interface |
Current APS Status | Displays the current APS status |
Multi-Chassis APS | Indicates whether MC-APS is configured |
Neighbor | Displays the neighbor IP address. All zeros indicates the APS group is an SC-APS. |
Control link state | Displays the current control link status |
Mode mismatch Cnt | Indicates the number of times a conflict occurs between the current local mode and the received K2 mode information |
Channel mismatch Cnt | Indicates the number of mismatches between the transmitted K1 channel and the received K2 channel that have been detected |
PSB failure Cnt | Displays a count of Protection Switch Byte (PSB) failure conditions. This condition occurs when either an inconsistent APS byte or an invalid code is detected. |
FEPL failure Cnt | Displays a count of far-end protection-line (FEPL) failure conditions. This condition is declared based on receiving SF on the protection line in the K1 byte. |
No. of Switchovers | Displays the number of times a switchover has occurred |
Last Switchover | Displays the timestamp of the last switchover |
Switchover seconds | Displays the cumulative Protection Switching Duration (PSD) time in seconds For a working channel, this is the cumulative number of seconds that service was carried on the protection line For the protection line, this is the cumulative number of seconds that the protection line has been used to carry any working channel traffic. This information is only valid if revertive switching is enabled. |
Signal Degrade Cnt | Displays the number of times the signal was degraded |
Signal Failure Cnt | Displays the number of times the signal failed |
Last Switch Cmd | Reports the last switch command that was performed on a circuit |
Last Exercise Result | Displays the result of the last exercise request on a circuit |
Advertise Interval | Displays the advertise interval |
Hold time | Displays the hold time |
3.14.2.1.2. Show Card Commands
card
Syntax
Context
Description
This command displays IOM and CSM information for the chassis.
Default
displays summary information only
Parameters
Output
The following outputs are examples of card information:
- Card (Output Example, Table 34)
- Card State (Output Example, Table 35)
- Card Detailed (Output Example, Table 36)
- CSM Card (Output Example, Table 37)
Table 34: Show Card Output Fields
Label | Description |
Slot | The slot number of the card in the chassis |
Provisioned Type | The card type that is configured for the slot |
Equipped Type (if different) | The card type that is actually populated in the slot if different from the provisioned type |
Admin State | up: the card is administratively up down: the card is administratively down |
Operational State | up: the card is operationally up down: the card is operationally down active: the CSM is in active mode (for redundancy) standby: the CSM is in standby mode (for redundancy) |
Comments | Provides other information about the card |
The following examples display the card states for a 7705 SAR-8, 7705 SAR-18, 7705 SAR-M, 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-A, 7705 SAR-Ax, 7705 SAR-W, 7705 SAR-Wx, and 7705 SAR-X.
| Note:
|
For the 7705 SAR-8:
The following example displays card state information for the 7705 SAR-8 with a CSMv2.
For the 7705 SAR-18:
For the 7705 SAR-M:
For the 7705 SAR-H:
For the 7705 SAR-Hc:
For the 7705 SAR-A:
For the 7705 SAR-Ax:
For the 7705 SAR-W:
For the 7705 SAR-Wx:
For the 7705 SAR-X:
Table 35: Show Card State Output Fields
Label | Description |
Slot/Id | The slot number of the card in the chassis |
Provisioned Type | The card type that is configured for the slot |
Equipped Type (if different) | The card type that is actually populated in the slot if different from the provisioned type |
Admin State | up: the card is administratively up down: the card is administratively down |
Operational State | up: the card is operationally up down: the card is operationally down provisioned: there is no card in the slot but it has been preconfigured failed: the installed card has operationally failed |
Num Ports | The number of ports available on the provisioned card |
Num MDA | The number of adapter cards installed |
Comments | Indicates which CSM is the active card and which is in standby mode (for redundancy) |
The following example displays detailed card (IOM) information for the 7705 SAR-8.
Table 36: Show Card (IOM) Detailed Output Fields
Label | Description |
Slot | The slot number of the IOM (always 1) |
Provisioned Type | The card type that is configured for the slot (iom-sar) |
Equipped Type (if different) | The card type that is actually populated in the slot if different from the provisioned type |
Admin State | up: the card is administratively up down: the card is administratively down |
Operational State | up: the card is operationally up down: the card is operationally down |
Comments | Provides other information about the card |
Clock source | The system’s clock source |
Available MDA slots | The number of card slots available |
Installed MDAs | The number of cards installed |
Part number | The chassis part number |
CLEI code | The Common Language Equipment Identifier (CLEI) code string for the router |
Serial number | The chassis serial number |
Manufacture date | The chassis manufacture date |
Manufacturing string | A factory-inputted manufacturing text string |
Manufacturing deviations | A record of changes done to the hardware or software that is outside the normal revision control process |
Administrative state | up: the card is administratively up |
down: the card is administratively down | |
Operational State | up: the card is operationally up down: the card is operationally down provisioned: there is no card in the slot but it has been preconfigured failed: the provisioned card has operationally failed |
Temperature | The internal chassis temperature |
Temperature threshold | The value above which the internal temperature must rise in order to indicate that the temperature is critical |
Software boot (rom) version | The version of the boot ROM image |
Software boot version | The version of the boot image |
Software version | The software version number |
Time of last boot | The date and time the most recent boot occurred |
Current alarm state | The alarm conditions for the adapter card |
Base MAC address | The base MAC address of the hardware component |
Memory capacity | The memory capacity of the adapter card |
The following example displays detailed CSMv2 information for the 7705 SAR-8.
Table 37: Show CSM Card Output Fields
Label | Description |
Slot | The slot number of the card in the chassis |
Provisioned Type | The card type that is configured for the slot |
Equipped Type (if different) | The card type that is actually populated in the slot if different from the provisioned type |
Admin State | up: the CSM is administratively up down: the CSM is administratively down |
Operational State | up: the CSM is operationally up down: the CSM is operationally down active: the CSM is in active mode (for redundancy) standby: the CSM is in standby mode (for redundancy) |
Comments | Provides other information about the card |
BOF last modified | The date and time of the most recent BOF modification |
Config file version | The configuration file version |
Config file last modified | The date and time of the most recent config file modification |
Config file last saved | The date and time of the most recent config file save |
M/S clocking ref state | primary: the card is acting as the primary (active) CSM in a redundant system |
secondary: the card is acting as the standby (secondary) CSM in a redundant system | |
Admin State | up: the compact flash is administratively up |
down: the compact flash is administratively down | |
Operational State | up: the compact flash is operationally up |
down: the compact flash is operationally down | |
Serial number | The compact flash serial number |
Firmware revision | The compact flash firmware version number |
Model number | The compact flash model number |
Size | The memory capacity on the compact flash |
Free space | The amount of free space on the compact flash |
Part number | The CSM part number |
CLEI code | The code used to identify the router |
Serial number | The CSM serial number |
Manufacture date | The chassis manufacture date |
Manufacturing string | A factory-inputted manufacturing text string |
Manufacturing deviations | A record of changes done to the hardware or software that is outside the normal revision control process |
Administrative state | up: the CSM is administratively up |
down: the CSM is administratively down | |
Operational state | up: the CSM is operationally up |
down: the CSM is operationally down | |
Temperature | The internal chassis temperature |
Temperature threshold | The value above which the internal temperature must rise in order to indicate that the temperature is critical |
Software boot (rom) version | The version of the boot image |
Software version | The software version number |
Time of last boot | The date and time the most recent boot occurred |
Current alarm state | The alarm conditions for the specific card |
Base MAC address | The base MAC address of the hardware component |
Memory capacity | The total amount of memory on the CSM |
mda
Syntax
Context
Description
This command displays adapter card information and statistics collected from a specified adapter card and associated fabric ports.
The mda slot/mda statistics command applies only to the 7705 SAR-8, 7705 SAR-18, and 7705 SAR-X. For the 7705 SAR-X, only the cflowd and mirror parameters apply.
The mda aggregate-statistics command applies only to the 7705 SAR-A, 7705 SAR-Ax, 7705 SAR-M, 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-W, and 7705 SAR-Wx. Additionally, on the 7705 SAR-Ax, 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-W, and 7705 SAR-Wx, the displays include IPSec security statistics. On the 7705 SAR-Ax, 7705 SAR-H, 7705 SAR-Hc, and 7705 SAR-Wx, the displays also include firewall queue statistics. On the 7705 SAR-H and 7705 SAR-Hc, the displays also include IP transport statistics.
The mda with-fabric-stats command applies only to 7705 SAR-8 and 7705 SAR-18.
The mda slot/mda ring command applies only to the 2-port 10GigE (Ethernet) Adapter card and 2-port 10GigE (Ethernet) module
If no command line options are specified, a summary output of all adapter cards is displayed.
Parameters
Statistics from the fabric are not displayed when this keyword is used.
The sum of traffic forwarded or dropped is also displayed.
Output
The following outputs are examples of MDA information:
- MDA (Output Example, Table 38)
- MDA Detailed (Output Example, Table 39)
- MDA Fabric Statistics (Output Example (source-mda and dest-mda), Table 40)
- MDA Fabric Statistics (Output Example (ip-transport statistics), Table 41)
- MDA Fabric Statistics (Output Example (Cflowd Statistics), Table 42)
- MDA Fabric Statistics (Output Example (mirror statistics), Table 43)
- MDA Fabric Security Encryption Statistics (Output Example (security encryption), Table 44)
- MDA Fabric Security Firewall Statistics (Output Example (security firewall), Table 45)
- MDA With Fabric Statistics (Output Example, Table 46)
- MDA Aggregate-Statistics (Output Example, Table 47)
Table 38: Show MDA Output Fields
Label | Description |
Slot | The card slot number (always 1) |
Mda | The adapter card slot number |
Provisioned Type | The provisioned adapter card type |
Equipped Type (if different) | The adapter card type actually installed in the slot if different from the provisioned type |
Admin State | up: the adapter card is administratively up down: the adapter card is administratively down |
Operational State | up: the adapter card is operationally up down: the adapter card is operationally down provisioned: there is no adapter card in the slot but it has been preconfigured failed: the provisioned adapter card has operationally failed |
The following example shows the details of a 12-port Serial Data Interface card in slot 1.
The following example shows the details of a 6-port E&M Adapter card in slot 1.
The following example shows the details of a 4-port OC3/STM1 Clear Channel Adapter card in slot 2.
The following example shows the details of a 16-port T1/E1 ASAP Adapter card in slot 3.
The following example shows the details of a 4-port DS3/E3 Adapter card in slot 4.
The following example shows the details of a 2-port OC3/STM1 Channelized Adapter card in slot 6.
The following example shows the details of an 8-port Voice & Teleprotection card in slot 6.
The following example shows the details of an 8-port C37.94 Teleprotection card in slot 12 on a 7705 SAR-18.
The following example shows the details of an 8-port FXO Adapter card in slot 6.
The following example shows the details of a 10-port 1GigE/1-port 10GigE X-Adapter card in x10-1gb-sfp mode in slot X1.
The following example shows the details of a 2-port 10GigE (Ethernet) Adapter card.
Table 39: Show MDA Detail Output Fields
Label | Description |
Slot | The card slot number (always 1) |
Mda | The adapter card slot number |
Provisioned Type | The provisioned adapter card type |
Equipped Type (if different) | The adapter card type actually installed in the slot if different from the provisioned type |
Admin State | up: the adapter card is administratively up down: the adapter card is administratively down |
Operational State | up: the adapter card is operationally up down: the adapter card is operationally down provisioned: there is no adapter card in the slot but it has been preconfigured failed: the provisioned adapter card has operationally failed |
MDA Specific Data | |
Maximum port count | The maximum number of ports that can be equipped on the adapter card |
Number of ports equipped | The number of ports that are actually equipped on the adapter card |
Transmit timing selected | The CSM clock used for the transmit clock. It should be the active CSM except during a system or MDA initialization or during an activity switch. |
Sync-E Capable | TRUE: the adapter card supports synchronous Ethernet timing |
FALSE: the adapter card does not support synchronous Ethernet timing | |
Sync interface timing status | The status of synchronization interface timing; it should be qualified except during a system or MDA initialization or during an activity switch |
Network Ring queue policy | The network queue policy applied to the ring port on the adapter card to define the queuing structure for this object |
Network Ring qos policy | The network QoS policy applied to the ring port on this adapter card |
Network ingress queue policy | The network ingress queue policy applied to the adapter card to define the queuing structure for this object |
Network ingress fabric policy | The network ingress fabric policy applied to the adapter card |
Access ingress fabric policy | The access ingress fabric policy applied to the adapter card |
Fabric Stats Enabled | TRUE: the collection of fabric statistics is enabled on the adapter card |
FALSE: the collection of fabric statistics is disabled on the adapter card | |
Capabilities | The protocols that can be run on the adapter card |
Min channel size | The minimum channel size on the adapter card |
Max channel size | The maximum channel size on the adapter card |
Max number of channels | The maximum number of channels supported on the adapter card |
Channels in use | The number of channels being used on the adapter card |
Capability mode | The adapter card mode (mda-mode) for cards that support mda-mode |
CEM MDA Specific Data | |
Clock Mode | The clocking mode used on the adapter card |
Voice MDA Specific Data | |
Companding Law | The companding law used on the adapter card |
Signaling Type | The signaling type used on the adapter card |
Hardware Data | |
Part number | The hardware part number |
CLEI code | The code used to identify the adapter card |
Serial number | The adapter card part number |
Manufacture date | The adapter card manufacture date |
Manufacturing variant | The adapter card manufacture variant |
Manufacturing string | A factory-inputted manufacturing text string |
Manufacturing deviations | A record of changes done to the hardware or software that is outside the normal revision control process |
Administrative state | up: the adapter card is administratively up |
down: the adapter card is administratively down | |
Operational state | up: the adapter card is operationally up |
down: the adapter card is operationally down | |
provisioned: there is no adapter card in the slot but it has been preconfigured | |
failed: the provisioned adapter card has operationally failed | |
Temperature | The internal chassis temperature |
Temperature threshold | The value above which the internal temperature must rise in order to indicate that the temperature is critical |
Software version | The software version number |
Time of last boot | The date and time the most recent boot occurred |
Current alarm state | The alarm conditions for the specific adapter card |
Base MAC address | The base MAC address of the hardware component |
The following example shows an MDA fabric statistics display if the source-mda keyword is used.
The following example shows an MDA fabric statistics display if the dest-mda keyword is used.
Table 40: Show MDA Fabric Statistics Output Fields
Label | Description |
Statistic of Source MDA | If the source-mda keyword is specified in the show statistics command, displays the network and access ingress traffic statistics from the specified adapter card towards the fabric and towards a destination adapter card. The sum of traffic forwarded or dropped is also displayed. |
Unicast to Destination MDA Packets/Octets | Network In Profile forwarded: the number of unicast network in-profile packets/octets forwarded from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card |
Network In Profile dropped: the number of unicast network in-profile packets/octets dropped from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Network Out Profile forwarded: the number of unicast network out-of-profile packets/octets forwarded from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Network Out Profile dropped: the number of unicast network out-of-profile packets/octets dropped from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Access In Profile forwarded: the number of unicast access in-profile packets/octets forwarded from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Access Out Profile forwarded: the number of unicast access out-of-profile packets/octets forwarded from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Access dropped: the number of unicast access out-of-profile packets/octets and access in-profile packets/octets dropped from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Multipoint (for source-mda) | Network In Profile forwarded: the number of multipoint network in-profile packets/octets forwarded from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 |
Network In Profile dropped: the number of multipoint network in-profile packets/octets dropped from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Network Out Profile forwarded: the number of multipoint network out-of-profile packets/octets forwarded from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Network Out Profile dropped: the number of multipoint network out-of-profile packets/octets dropped from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Access In Profile forwarded: the number of multipoint access in-profile packets/octets forwarded from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Access Out Profile forwarded: the number of multipoint access out-of-profile packets/octets forwarded from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Access dropped: the number of multipoint access out-of-profile packets/octets and access in-profile packets/octets dropped from the adapter card specified in the show mda command towards the fabric, then to the output destination adapter card 1 | |
Total Network forwarded Packets/Octets | The number of network in-profile and out-of-profile packets/octets forwarded |
Total Network dropped Packets/Octets | The number of network in-profile and out-of-profile packets/octets dropped |
Total Access forwarded Packets/Octets | The number of access in-profile and out-of-profile packets/octets forwarded |
Total Access dropped Packets/Octets | The number of access in-profile and out-of-profile packets/octets dropped |
Statistic of Destination MDA | If the dest-mda keyword is specified in the show statistics command, displays the network and access ingress statistics from all source adapter cards going towards the fabric and destined for the specified adapter card. Global fabric statistics are also displayed, as well as the fabric port statistics if the destination adapter card has the collection of fabric statistics enabled. The sum of traffic forwarded or dropped is also displayed. |
Drop Events | The number of packets that are dropped from the buffer at the 7705 SAR-8 or 7705 SAR-18 adapter card port instead of being transferred to the fabric. Drop events only occur if an excessive amount of traffic is flowing through the ports, which causes the buffers to fill up; under normal circumstances, this statistic should always be 0. |
Unicast from Source MDA Packets/Octets | Network In Profile forwarded: the number of network in-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command 2 |
Network In Profile dropped: the number of network in-profile packets/octets dropped from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command 2 | |
Network Out Profile forwarded: the number of network out-of-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command 2 | |
Network Out Profile dropped: the number of network out-of-profile packets/octets dropped from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command 2 | |
Access In Profile forwarded: the number of access in-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command 2 | |
Access Out Profile forwarded: the number of access out-of-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command 2 | |
Access dropped: the number of access in-profile packets/octets and out-of-profile packets/octets dropped from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command 2 | |
Total Unicast Network forwarded Packets/Octets | The number of unicast network in-profile and out-of-profile packets/octets forwarded |
Total Unicast Network dropped Packets/Octets | The number of unicast network in-profile and out-of-profile packets/octets dropped |
Total Unicast Access forwarded Packets/Octets | The number of unicast access in-profile and out-of-profile packets/octets forwarded |
Total Unicast Access dropped Packets/Octets | The number of unicast access in-profile and out-of-profile packets/octets dropped |
Fabric Global Stats Packets/Octets 3 | If the dest-mda keyword is specified in the show mda statistics command, displays the global fabric statistics collected from the fabric. The statistics include all traffic switched over the fabric, which includes traffic to all adapter cards and all internal traffic such as traffic destined for the CSM. |
Unicast Forwarded: the number of forwarded unicast packets/octets switched over the fabric | |
Multicast Forwarded: the number of forwarded multicast packets/octets switched over the fabric | |
Total Forwarded: the total number of forwarded packets/octets switched over the fabric | |
Total Dropped: the total number of dropped packets/octets switched over the fabric |
- Destination MDA 1/x in the output field, where x = 1 to 6 on the 7705 SAR-8 and 1 to 12 and X1 to X4 on the 7705 SAR-18.
- Source MDA 1/x in the output field, where x = 1 to 6 on the 7705 SAR-8 and 1 to 12 and X1 to X4 on the 7705 SAR-18.
- Fabric Global Stats octet counts are supported only on the 7705 SAR-18. For other 7705 SAR products, “N/A” is displayed in these fields.
Notes:
The following example shows an MDA fabric statistics display when the ip-transport keyword is used. The keyword applies only to the 7705 SAR-8 and 7705 SAR-18.
Table 41: Show MDA Fabric IP-Transport Statistics Output Fields
Label | Description |
IP Transport Statistics | |
IP Transport Queue Statistics | |
Network Ingress Queue Forwarded Dropped | The number of IP-Transport subservice network ingress queued packets and bytes that were forwarded and dropped |
Access Ingress Queue Forwarded Dropped | The number of IP-Transport subservice access ingress queued packets and bytes that were forwarded and dropped |
Serial Socket Queue Statistics | |
Access Ingress Queue Forwarded Dropped | The number of serial raw socket access ingress queued packets and bytes that were forwarded and dropped |
The following example shows an MDA fabric statistics display when the cflowd keyword is used.
Table 42: Show MDA Fabric Cflowd Statistics Output Fields
Label | Description |
Cflowd Queue Statistics | |
Cflowd Queue Forwarded Dropped | The number of forwarded and dropped Cflowd packets and bytes |
The following example shows an MDA fabric statistics display when the mirror keyword is used. The statistics mirror keywords apply only to the 7705 SAR-8, 7705 SAR-18, and 7705 SAR-X. The aggregate-statistics mirror keywords apply only to the 7705 SAR-A, 7705 SAR-Ax, 7705 SAR-M, 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-W, and 7705 SAR-Wx. Refer to the “Mirroring” chapter in the 7705 SAR OAM and Diagnostics Guide for more information on mirroring.
Table 43: Show MDA Fabric Mirror Statistics Output Fields
Label | Description |
Mirror Queue Statistics for Mirror Queue 1 to 4 | |
In Profile forwarded | The number of packets and octets forwarded by the mirror queue for in-profile and best-effort traffic |
In Profile dropped | The number of packets and octets dropped by the mirror queue for in-profile and best-effort traffic |
Out Profile forwarded | The number of packets and octets forwarded by the mirror queue for out-of-profile and best-effort traffic |
Out Profile dropped | The number of packets and octets dropped by the mirror queue for out-of-profile and best-effort traffic |
Mirror Queue Statistics for Mirror Queue 5 to 8 | |
In Profile forwarded | The number of packets and octets forwarded by the mirror queue for in-profile and expedited traffic |
In Profile dropped | The number of packets and octets dropped by the mirror queue for in-profile and expedited traffic |
Out Profile forwarded | The number of packets and octets forwarded by the mirror queue for out-of-profile and expedited traffic |
Out Profile dropped | The number of packets and octets dropped by the mirror queue for out-of-profile and expedited traffic |
The following example shows an MDA fabric statistics display when the security encryption keywords are used. The security encryption keywords apply only to the 7705 SAR-18 and 7705 SAR-8 (with CSMv2). Refer to the “IPSec” section in the 7705 SAR Services Guide for more information on IPSec security.
Table 44: Show MDA Fabric Security Encryption Statistics Output Fields
Label | Description |
IPsec Datapath Statistics | |
Encrypted packets | The total number of packets encrypted by the adapter card to be sent out IPSec tunnels |
Encrypted bytes | The total number of bytes encrypted by the adapter card to be sent out IPSec tunnels |
Outbound dropped packets | The total number of outbound packets dropped instead of encrypted and sent out IPSec tunnels |
Outbound SA misses | The number of Security Association-related mismatches in the outbound direction |
Outbound policy entry misses | The number of security policy entry mismatches in the outbound direction |
Decrypted packets | The total number of decrypted packets |
Decrypted bytes | The total number of decrypted bytes |
Inbound dropped packets | The total number packets dropped instead of forwarded |
Inbound SA misses | The number of inbound Security Association-related misses (that is, having mismatched security parameter index (SPI) on manual keyed tunnel) |
Inbound IP dst/src mismatches | The number of security policy entry mismatches in the inbound direction due to IP destination or source address mismatches |
Transmit packet errors | The number of generic packet transmit errors |
Drop Too Big/Df-set Pkts | The number of packets dropped because the packet is too big and the do-not-fragment flag is set |
IPsec Control Statistics (System Wide) | |
Static IPsec Tunnels | The number of static IPSec tunnels configured on the 7705 SAR |
Dynamic IPsec Tunnels | Not applicable (always 0) |
Encryption/Decryption Queue Statistics | |
Decryption Queue Best-effort | |
Hi Priority forwarded | The number of packets and octets forwarded by the decryption queue for high priority and best effort traffic |
Hi Priority dropped | The number of packets and octets dropped by the decryption queue for high priority and best effort traffic |
Low Priority forwarded | The number of packets and octets forwarded by the decryption queue for low priority and best effort traffic |
Low Priority dropped | The number of packets and octets dropped by the decryption queue for low priority and best effort traffic |
Decryption Queue Expedited | |
Hi Priority forwarded | The number of packets and octets forwarded by the decryption queue for high priority and expedited traffic |
Hi Priority dropped | The number of packets and octets dropped by the decryption queue for high priority and expedited traffic |
Low Priority forwarded | The number of packets and octets forwarded by the decryption queue for low priority and expedited traffic |
Low Priority dropped | The number of packets and octets dropped by the decryption queue for low priority and expedited traffic |
Encryption Queue Best-effort | |
In Profile forwarded | The number of packets and octets forwarded by the encryption queue for in-profile and best effort traffic |
In Profile dropped | The number of packets and octets dropped by the encryption queue for in-profile and best effort traffic |
Out Profile forwarded | The number of packets and octets forwarded by the encryption queue for out-of-profile and best effort traffic |
Out Profile dropped | The number of packets and octets dropped by the encryption queue for out-of-profile and best effort traffic |
Encryption Queue Expedited | |
In Profile forwarded | The number of packets and octets forwarded by the encryption queue for in-profile and expedited traffic |
In Profile dropped | The number of packets and octets dropped by the encryption queue for in-profile and expedited traffic |
Out Profile forwarded | The number of packets and octets forwarded by the encryption queue for out-of-profile and expedited traffic |
Out Profile dropped | The number of packets and octets dropped by the encryption queue for out-of-profile and expedited traffic |
Encryption Queue CTL | |
Forwarded | The number of packets and octets forwarded by the encryption queue for control path traffic |
Dropped | The number of packets and octets dropped by the encryption queue for control path traffic |
The following example shows an MDA fabric statistics display when the security firewall keywords are used. The security firewall keywords apply only to the 7705 SAR-18 and 7705 SAR-8 (with CSMv2). Refer to the “Security Parameters” section in the 7705 SAR Router Configuration Guide for more information on firewall security.
Table 45: Show MDA Fabric Security Firewall Statistics Output Fields
Label | Description |
Network Queue 1 Best-effort | The statistics for the best-effort network queue; queue 1 is always for best-effort traffic |
Network Queue 2 Expedited | The statistics for the expedited network queue; queue 2 is always for expedited traffic |
Access Queue 1 Best-effort | The statistics for the best-effort access queue; queue 1 is always for best-effort traffic |
Access Queue 2 Best-effort | The statistics for the expedited access queue; queue 2 is always for expedited traffic |
In Profile forwarded | The number of packets and bytes forwarded by the security queue for in-profile best-effort or expedited traffic |
In Profile dropped | The number of packets and bytes dropped by the security queue for in-profile best-effort or expedited traffic |
Out Profile forwarded | The number of packets and bytes forwarded by the security queue for out-of-profile best-effort or expedited traffic |
Out Profile dropped | The number of packets and bytes dropped by the security queue for out-of-profile best-effort or expedited traffic |
The following example shows an MDA fabric statistics display if the with-fabric-stats keyword is used.
Table 46: Show MDA With Fabric Statistics Output Fields
Label | Description |
Slot | The card slot number (always 1) |
Mda | The adapter card slot number |
Provisioned Type | The provisioned adapter card type |
Equipped Type (if different) | The adapter card type actually installed in the slot if different from the provisioned type |
Admin State | up: the adapter card is administratively up down: the adapter card is administratively down |
Operational State | up: the adapter card is operationally up down: the adapter card is operationally down provisioned: there is no adapter card in the slot but it has been preconfigured failed: the provisioned adapter card has operationally failed |
The following example shows aggregate statistics for access and network ingress fabric traffic on the 7705 SAR-M when the aggregate-statistics keyword is used. The displays on the 7705 SAR-A, 7705 SAR-Ax, 7705 SAR-W, 7705 SAR-Wx, 7705 SAR-H, and 7705 SAR-Hc look similar. Additionally, on the 7705 SAR-Ax, 7705 SAR-W, 7705 SAR-Wx, 7705 SAR-H, and 7705 SAR-Hc, the displays include IPSec security statistics. Refer to the “IPSec” section in the 7705 SAR Services Guide for more information on IPSec security. On the 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-Ax and 7705 SAR-Wx, the displays include the aggregated firewall security statistics. On the 7705 SAR-H and 7705 SAR-Hc, the displays include IP transport statistics.
The following example shows the inclusion of IPSec security statistics on 7705 SAR-Ax, 7705 SAR-W, 7705 SAR-Wx, 7705 SAR-H, and 7705 SAR-Hc displays.
The following example shows the inclusion of aggregated firewall security statistics on the 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-Ax and 7705 SAR-Wx displays.
The following example shows the inclusion of IP transport statistics on the 7705 SAR-H and 7705 SAR-Hc displays.
Table 47: Show MDA Aggregate Statistics Output Fields
Label | Description |
Drop Events | The number of packets that are dropped from the buffer at the port instead of being transferred to the fabric. Drop events only occur if an excessive amount of traffic is flowing through the ports, which causes the buffers to fill up; under normal circumstances, this statistic should always be 0. |
Unicast from all MDA’s to Destination MDA Packets/Octets | Network In Profile forwarded: number of network in-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command |
Network In Profile dropped: number of network in-profile packets/octets dropped from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Network Out Profile forwarded: number of network out-of-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Network Out Profile dropped: the number of network out-of-profile packets/octets dropped from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Access In Profile forwarded: number of access in-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Access Out Profile forwarded: the number of access out-of-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Access dropped: the number of access packets/octets dropped from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Multicast from All MDA’s Packets/Octets | Network In Profile forwarded: number of multicast network in-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command |
Network In Profile dropped: number of multicast network in-profile packets/octets dropped from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Network Out Profile forwarded: number of multicast network out-of-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Network Out Profile dropped: the number of multicast network out-of-profile packets/octets dropped from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Access In Profile forwarded: number of multicast access in-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Access Out Profile forwarded: the number of multicast access out-of-profile packets/octets forwarded from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Access dropped: the number of multicast access packets/octets dropped from any source adapter card toward the fabric, then to the destination adapter card specified in the show mda command | |
Total Network forwarded Packets/Octets | The number of network in-profile and out-of-profile packets/octets forwarded |
Total Network dropped Packets/Octets | The number of network in-profile and out-of-profile packets/octets dropped |
Total Access forwarded Packets/Octets | The number of access in-profile and out-of-profile packets/octets forwarded |
Total Access dropped Packets/Octets | The number of access in-profile and out-of-profile packets/octets dropped |
Aggregated Cflowd Queue Statistics | |
Cflowd Queue Forwarded Dropped | The number of forwarded and dropped Cflowd packets and bytes |
Aggregated IP Transport Statistics | |
IP Transport Queue Statistics | |
Network Ingress Queue Forwarded Dropped | The number of IP-Transport subservice network ingress queued packets and bytes that were forwarded and dropped |
Access Ingress Queue Forwarded Dropped | The number of IP-Transport subservice access ingress queued packets and bytes that were forwarded and dropped |
Serial Socket Queue Statistics | |
Access Ingress Queue Forwarded Dropped | The number of serial raw socket access ingress queued packets and bytes that were forwarded and dropped |
fdb
Syntax
Context
Description
This command displays the forwarding database (FDB) for the specified MAC address or ring port, or all FDBs associated with the specified ring adapter card.
Parameters
Output
The following output is an example of FDB information, and Table 48 describes the fields.
Table 48: Show MDA Ring FDB Output Fields
Label | Description |
Ring MDA Forwarding Database | |
MAC | The MAC address of any matching entry |
Port | The port identifier of any matching entry |
Type | The type of matching entry |
No. of Entries: | The total number of MAC addresses currently in all FDBs on the adapter card, which includes host, static, and dynamic addresses |
Learning | The configured state of the learning capabilities: Enabled or Disabled |
Ageing | The configured state of the aging capabilities: Enabled or Disabled |
Remote age time | The age time setting of the remote device, in seconds |
Discard unknown source | The configured state of the discard capability for packets arriving from an unknown source: Enabled or Disabled |
Table Size | The table size of the dynamic FDB table |
High water Mark | The high-water mark setting for the FDB table, in percentage of table-size |
1/mda/port, Mac pinning | The configured state of the MAC pinning capability: Enabled or Disabled |
3.14.2.1.3. Show External Alarms Commands
external-alarms
Syntax
Context
Description
This command displays external alarm information for 7705 SAR Ethernet ports, for the Auxiliary Alarm card, or the External Alarms connector on the Fan module of the 7705 SAR-8, the Alarm module of the 7705 SAR-18, or the faceplate of the 7705 SAR-M, 7705 SAR-X, 7705 SAR-H, or 7705 SAR-Hc chassis.
Parameters
- for Ethernet ports, the format is:port-slot/mda/port [name]
- for the Auxiliary Alarm card, the format is:alarm-slot/mda.{d | a}-alarm-num [name]
- for the four alarm inputs on an External Alarms connector, the format is:alarm.d-alarm-num [name]
where:
slot = card slot number for IOM (always 1 on the 7705 SAR)
mda = Ethernet adapter card or Auxiliary Alarm card slot number (for Ethernet modules or ports on platforms with no card slots, the mda slot number is preconfigured)
port = port number for Ethernet ports
d = digital input
a = analog input
alarm-num = alarm port number (1 to 24 for digital on the Auxiliary Alarm card, 1 to 4 for digital on the four chassis alarm inputs, 1 or 2 for analog)
name = optional name assigned to the input
| Note: If you configured a name for the alarm-input using the name option (see input command), you can use the configured name instead of the alarm-input identifier in the show command. |
relay-slot/mda.d-relay-num
where:
slot = slot number of the card in the chassis (always 1 on the 7705 SAR)
mda = Auxiliary Alarm card slot number
d = digital output
relay-num = output relay number (1 to 8)
| Note: If you configured a name for the alarm-output using the name option (see output command), you can use the configured name instead of the alarm-output identifier in the show command. |
Output
The following outputs are examples of external alarm information:
- Specific Alarm (Output Example, Table 49)
- External Alarm Input (Output Example, Table 50)
- External Alarm Input Detail (Output Example, Table 51)
- External Alarm Output (Output Example, Table 52)
- External Alarm Output Detail (Output Example, Table 53)
- External Alarm Name (Output Example, Table 54)
Table 49: Show Specific Alarm Fields
Label | Description |
Admin Status | The administrative state of the alarm |
State | The current state of the alarm: ghost: no trigger equipment presently installed |
ok: no triggers are detected | |
alarm detected: alarm is outstanding | |
not monitored: alarm or all triggers are administratively disabled | |
Severity | The severity level for the specified alarm |
Description | An optional description of the alarm |
Thresholds | |
Analog Voltage | The analog voltage level threshold value for the specified alarm, in millivolts (0.000V) |
Operation | The analog voltage level threshold operational value: lt: a less-than value |
gt: a greater-than value | |
Actions | |
Log Alarm | Indicates whether raise/clear log events and SNMP traps are generated for the specified alarm |
Chassis Alarming | Indicates whether output to chassis alarm relays and LEDs are generated for the specified alarm |
Trigger | The inputs that will trigger the alarm |
Type | The type of trigger (a digital input or analog input, or, for Ethernet ports, the operational state) |
Admin | The administrative state of the trigger |
Value | The current value of the alarm input:
|
Threshold State | The threshold state: ghost: no threshold is present |
not monitored: the threshold is administratively disabled | |
ok: the threshold is enabled | |
detected: the threshold has been crossed | |
Triggers Req'd | The trigger condition that is required to raise an alarm: any: any configured input trigger is required to raise an alarm |
all: all configured input triggers are required to raise an alarm | |
Table 50: Show External Alarm Input Fields
Label | Description |
External Alarm Input Summary | |
Input Id | The alarm input identifier |
Name | The name of the alarm input |
Type | The type of input: digital, analog, or oper-state (for Ethernet ports) |
Admin | The administrative state of the alarm input |
Value | The current value of the alarm input:
|
Alarm State | The current state of the alarm input: ghost: no trigger equipment presently installed |
ok: no triggers are detected | |
alarm detected: alarm is outstanding | |
not monitored: alarm or all triggers are administratively disabled | |
Table 51: Show External Alarm Input Detail Fields
Label | Description |
Input alarm input Detail | |
Name | The name of the alarm input |
Admin Status | The administrative state of the alarm input |
Alarm State | The current state of the alarm input: ghost: no trigger equipment is presently installed |
ok: no triggers are detected | |
alarm detected: alarm is outstanding | |
not monitored: alarm or all triggers are administratively disabled | |
Detect Debounce | The debounce time associated with the detection of the specified alarm input (not applicable to Ethernet ports) |
Clear Debounce | The debounce time associated with the clearance of the specified alarm input (not applicable to Ethernet ports) |
Port State | The value of the alarm input for Ethernet ports, either up or down |
Value | The current value of the alarm input:
|
Description | A description of the alarm input |
# | A summary of the alarms that are using this input as a trigger. Each input can be used for up to four alarms. |
Threshold | The threshold value:
|
Severity | The severity level for the specified alarm input: critical, major, minor, or warning |
Alarm Id | The alarm identifier (1 to 2147483647) |
Threshold State | The threshold state indicates whether the input state contributes to the alarm: detected: this input triggers the alarm into an alarm-detected state |
ok: this input does not trigger the alarm into an alarm-detected state | |
Table 52: Show External Alarm Output Fields
Label | Description |
Output Relay Summary | |
Output Id | The output relay identification |
Name | The name of the output relay |
Type | The output type is digital |
Admin | The administrative state of the alarm output relay When the digital output relay output state is set to no shutdown, the normally closed contacts open and the normally open contacts close. The digital output displays a digital output administrative status of up and the state of active (the output relay is energized). When the digital output relay output state is set to shutdown, the normally closed contacts close and the normally open contacts open. The digital output displays a digital output administrative status of down and the state of off (the output relay is not energized). |
State | The current state of the alarm output relay: ghost: no equipment is installed |
off: the output relay is not energized (it is administratively disabled) | |
active: the output relay is energized (active) | |
Table 53: Show External Alarm Output Detail Fields
Label | Description |
Output relay-x/x.d-x Detail | |
Name | The name of the output relay |
Admin | The administrative state of the alarm output relay When the digital output relay output state is set to no shutdown, the normally closed contacts open and the normally open contacts close. The digital output displays a digital output administrative status of up and the state of active (the output relay is energized). When the digital output relay output state is set to shutdown, the normally closed contacts close and the normally open contacts open. The digital output displays a digital output administrative status of down and the state of off (the output relay is not energized). |
State | The current state of the alarm output relay: ghost: no equipment is installed |
off: the output relay is not energized (it is administratively disabled) | |
active: the output relay is energized (active) | |
Description | The description for the output relay |
Table 54: Show External Alarm Name Fields
Label | Description |
External Alarm Names | |
Name | The alarm name |
Alarm/Relay | The name of the alarm input or output relay |
Type | The alarm input type (digital input, analog input, or oper-state) or output relay type (digital output) |
Admin | The administrative state of the alarm input or output relay |
State | The current state of the alarm input or output relay. For an alarm input: ghost: no trigger equipment is presently installed |
ok: no triggers are detected | |
alarm detected: alarm is outstanding | |
not monitored: alarm or all triggers are administratively disabled | |
For an alarm output relay: ghost: no equipment is installed | |
off: the output relay is not energized (it is administratively disabled) | |
active: the output relay is energized (active) | |
Value | The current value of the alarm input (this field is not applicable to outputs because the value is based on how the Auxiliary Alarm card or External Alarm connector is wired to the external equipment):
|
3.14.2.1.4. Show T1/E1 LCR Commands
lcr
Syntax
Context
Description
This command displays T1/E1 Line Card Redundancy (LCR) information.
Parameters
Output
The following outputs are examples of LCR information:
- LCR (Output Example, Table 55)
- LCR Detailed (Output Example, Table 56)
Table 55: Show LCR Output Fields
Label | Description |
ID | The LCR group name |
MC-Ctl State | Specifies the multi-chassis state |
Work MDA | Specifies the physical MDA that is acting as the working MDA for this LCR group |
Prot MDA | Specifies the physical MDA that is acting as the protection MDA for this LCR group |
Active MDA | Specifies the active MDA |
Request Byte | Specifies the value of the request byte received or transmitted on the protection MDA |
Table 56: Show LCR Detail Output Fields
Label | Description |
LCR Group | Specifies an LCR group |
Description | A description of the LCR group |
Group ID | The LCR group identifier |
Active MDA | Displays the active MDA |
Working MDA | Displays the physical MDA that is acting as the working MDA for this LCR group |
Protection MDA | Displays the physical MDA that is acting as the protection MDA for this LCR group |
Revertive-mode | The revertive mode of the LCR group: non-revertive — traffic remains on the protection MDA until another switch request is received revertive — when the condition that caused a switch to the protection MDA has been cleared, the traffic is switched back to the working MDA |
Revert-time (min) | The configured time, in minutes, to wait after the working MDA has become functional again before making the working MDA active again. If the revertive mode is non-revertive, then this field is empty. |
Request byte | Specifies the value of the request byte received or transmitted on the protection MDA |
Multi-Chassis LCR | Indicates whether MC-LCR is configured |
Neighbor | Displays the neighbor IP address. A 0.0.0.0 address indicates that the LCR group is an SC-LCR. |
Control link state | Displays the current control link status |
Advertise Interval | Displays the advertise interval |
Hold time | Displays the hold time |
LCR Working MDA | Specifies the working MDA |
Admin State | Specifies whether the working MDA is administratively up or down |
Operational State | Specifies the operational state of the working MDA |
Current LCR Status | Specifies the current status of the LCR |
No. of Switchovers | The number of switchovers that have occurred on this MDA |
Last Switchover | Displays the timestamp of the last switchover |
Switchover Seconds | Displays the cumulative Protection SwitchingDuration (PSD) time in seconds For a working MDA, this is the cumulativenumber of seconds that service was carriedon the protection MDA For the protection MDA, this is the cumulativenumber of seconds that the protection MDAhas been used to carry any working MDA traffic. This information is only valid ifrevertive switching is enabled. |
Last Switch Cmd | Displays the last switch command that wasperformed on the MDA |
LCR Protection MDA | Specifies the protection MDA |
Admin State | Specifies whether the protection MDA is administratively up or down |
Operational State | Specifies the operational state of the protection MDA |
Current LCR Status | Specifies the current status of the LCR |
No. of Switchovers | The number of switchovers that have occurred on this MDA |
Last Switchover | Displays the timestamp of the last switchover |
Switchover Seconds | Displays the cumulative Protection SwitchingDuration (PSD) time in seconds For a working MDA, this is the cumulativenumber of seconds that service was carriedon the protection MDA For the protection MDA, this is the cumulativenumber of seconds that the protection MDAhas been used to carry any working MDA traffic. This information is only valid ifrevertive switching is enabled. |
Last Switch Cmd | Displays the last switch command that wasperformed on the MDA |
3.14.2.1.5. Show Microwave Link Commands
mw
Syntax
Context
Description
This command displays information pertaining to a microwave link or an MPR-e radio.
Parameters
Output
The following outputs are examples of microwave link and MPR-e radio information:
- microwave link detail (Output Example, Table 57)
- MPR-e radio detail (Output Example, Table 58)
- MPR-e radio power measurement (Output Example, Table 59)
- MPR-e radio software state (Output Example, Table 60)
- MWA performance monitoring (Output Example, Table 61)
Table 57: Show Microwave Link Detail Fields
Label | Description |
Microwave Link | |
Description | The microwave link description |
Interface | The microwave link interface |
IfIndex | The microwave link interface index number, which reflects its initialization sequence |
Admin State | The microwave link interface administrative state |
Mode | The microwave link interface mode |
Oper State | The microwave link interface operational state |
Oper Flag | The microwave link interface operational flag |
Last State Change | The last time that the operational status of the microwave link interface changed state |
Transmit Diversity | The configured state of Transmit Diversity Antenna: enabled or disabled |
Position | The configured antenna position: main or diversity |
Force | The configured antenna switching: not forced or diversity |
Configured Address | The configured microwave link interface address |
Hardware Address | The configured microwave link interface hardware or system-assigned MAC address |
Link Alarm Synthesis | The microwave link alarm synthesis |
Protection | The configured microwave link protection |
Type | The type of protection scheme |
Activity | The type of MPR-e radio activity, either main or spare |
Revert | Indicates whether revertive switching has been configured on the microwave link |
Main Command | The type of command configured on the main MPR-e radio, either forced or automatic |
Spare Command | The type of command configured on the spare MPR-e radio, either forced or automatic |
Abnormal Condition | Indicates whether an abnormal condition has been detected |
Port | The 7705 SAR-8 or 7705 SAR-18 port configured for an MPR-e radio. |
Name | The name configured for the MPR-e radio |
Type | The type of MPR-e radio |
Link | The microwave link ID associated with the MPR-e radio |
Role | The role of the MPR-e radio, either main or spare |
Tx State | The transmit state of the MPR-e radio |
Oper State | The operational state of the MPR-e radio |
Alarm State | The alarm state of the MPR-e radio |
Discovered Peer radio | |
NE Ip Address | The network element IP address of a peer radio |
Slot/Port | The slot and port of the peer radio |
Traffic Statistics | |
Octets Input/Output | The total number of input/output octets |
Packets Input/Output | The total number of input/output packets |
Discards Input/Output | The total number of input/output discards |
Queue Octets Input/Output | The number of input/output octets per queue |
Queue Packets Input/Output | The number of input/output packets per queue |
Queue Discards Input/Output | The number of input/output discards per queue |
Table 58: Show MPR-e Radio Detail Fields
Label | Description |
Microwave Radio | |
Name | The name configured for the MPR-e radio |
Interface | The port configured for the MPR-e radio |
Mode | The MPR-e radio mode, either standalone or Single NE |
Link | The microwave link ID associated with the MPR-e radio |
Role | The role configured for MPR-e radio, either main or spare |
Tx State | The transmit state of the MPR-e radio |
Oper State | The operational state of the MPR-e radio |
Suppressed Faults | The microwave link faults that are suppressed, if any:
|
Database Filename | The MPR-e radio database filename |
Last State Change | The date and time of last operational state change of the MPR-e radio. |
IfIndex | The MPR-e radio interface index number, which reflects its initialization sequence |
Mgmt Last Up | The alarm state of the MPR-e radio |
Mgmt Last Lost | The alarm state of the MPR-e radio |
Radio Alarm Synthesis | The alarm state of the MPR-e radio |
Radio Information | The MPR-e radio information: Type Frequency Band Modules Software Company Id Mnemonic Hardware Part Number Common Language Equipment Identifier (CLEI) Code Software Part Number Factory Id Date Identifier Date Serial Number Customer Field |
Table 59: Show MPR-e Radio Power Measurement Fields
Label | Description |
Power Measurements | |
Local Radio (Near End) TxPower (dBm) | The transmit power measurement of the near-end radio |
Local Radio (Near End) RSL (dBm) | The received power from the near-end radio |
Peer Radio (Far End) TxPower (dBm) | The transmit power measurement from the far-end radio |
Peer Radio (Far End) RSL (dBm) | The received power from the far-end radio |
Table 60: Show MPR-e Radio Software State Fields
Label | Description |
Microwave Radio Software Summary | |
Port | The port configured for the MPR-e radio |
Name | The name configured for the MPR-e radio |
Type | The type of MPR-e radio |
Link | The microwave link ID |
Role | The role of the MPR-e radio, either main or spare |
Software State | The state of the MPR-e radio software; the software states are:
|
Progress | The progress of the MPR-e radio software download |
Table 61: MWA Performance Monitoring Field Descriptions
Label | Description |
Microwave Radio Performance Monitoring | |
Family | The category of monitoring statistics, either Normalized G.826, Adaptive Coding and Modulation, or Power |
Admin State | The administrative state of the microwave link, either Up or Down |
Oper State | The operational state of the microwave link, either Up or Down |
Section | The section being monitored, either Radio Hop or Radio Link |
Period | The reporting period, either 15 minutes or 24 hours |
Data | The type of data being collected, either current or historic |
Date | The date and time of the monitoring period |
Duration | The duration of the monitoring period in seconds |
EPS | The EPS state at the time of recording this period |
Suspect | Suspected faults (marked with an x) |
ES | Errored Seconds statistics |
SES | Severely Errored Seconds statistics |
BBE | Background Block Errors statistics |
UAS | Unavailable Seconds statistics |
QPSK | Quadrature Phase Shift Keying modulation statistics |
8 PSK | Eight Phase Shift Keying modulation statistics |
16 QAM | 16-state Quadrature Amplitude Modulation statistics |
32 QAM | 32-state Quadrature Amplitude Modulation statistics |
64 QAM | 64-state Quadrature Amplitude Modulation statistics |
128 QAM | 128-state Quadrature Amplitude Modulation statistics |
256 QAM | 256-state Quadrature Amplitude Modulation statistics |
Min Power | Minimum power statistics |
Max Power | Maximum power statistics |
Mean Power | Mean power statistics |
3.14.2.1.6. Show Port Commands
port
Syntax
Context
Description
This command displays port or channel information.
If no command line options are specified, the show port command displays summary information for all ports on provisioned adapter cards, fixed platforms, and modules.
If the detail keyword is specified without any port-id, a detailed output of every port in the system is displayed whether the ports are configured or not. This is useful for gathering full reports or as an input into the “| match” filtering command to display a customized summary of fields.
If the port-id parameter only specifies a portion of a port identifier, a summary of all ports that start with that portion is displayed. For example, specifying a slot number and an MDA number displays a summary of all ports on that MDA. If no port-id is specified, a summary of all ports in the system is displayed.
If the port identifier specifies a unique port, information about that port is displayed. The specific information displayed depends on the type of port. Additional information is displayed if the detail keyword is included. In addition, information subsets can be displayed by using various keywords. For example, the dot1x keyword displays only the dot1x information for the port.
Parameters
Syntax
port-id | slot[/mda[/port]] or slot/mda/port[.channel] | |
where: | ||
slot | 1 | |
mda | 1 to 6 | 7705 SAR-8 |
1 to 12 and X1 to X4 | 7705 SAR-18 | |
1 (Ethernet), 2 (T1/E1), or 3 (module) | 7705 SAR-M | |
1 (Ethernet), 2 (module position 1), or 3 (module position 2) | 7705 SAR-H | |
1 (Ethernet), 2 (RS-232) | 7705 SAR-Hc | |
1 (Ethernet) or 2 (T1/E1) | 7705 SAR-A | |
1 (Ethernet) or 2 (GNSS RF) | 7705 SAR-Ax | |
1 | 7705 SAR-W | |
1 (Ethernet) | 7705 SAR-Wx Ethernet-only variant, and Ethernet and PoE+ variant | |
2 (DSL) | 7705 SAR-Wx Ethernet and xDSL variant | |
1 (for T1/E1 ports) 2 (for Ethernet XOR RJ-45 ports 2/1A and 2/2A, Ethernet XOR SFP ports 2/1B and 2/2B, Ethernet ports 2/3 to 2/6, and 10GigE SFP+ port 2/7) 3 (for Ethernet XOR RJ-45 ports 3/1A and 3/2A, Ethernet XOR SFP ports 3/1B and 3/2B, Ethernet ports 3/3 to 3/6, and 10GigE SFP+ port 3/7) | 7705 SAR-X | |
port | 1 to 2 | 2-port OC3/STM1 Channelized Adapter card ports |
1 to 2 physical ports, 1 virtual port (designated as “v-port” or port 3) | 2-port 10GigE (Ethernet) Adapter card or 2-port 10GigE (Ethernet) module | |
1 to 4 | 4-port OC3/STM1 Clear Channel Adapter card ports, 4-port OC3/STM1 / 1-port OC12/STM4 Adapter card ports, 4-port DS3/E3 Adapter card ports, or 4-port SAR-H Fast Ethernet module ports | |
1 to 6 | 6-port E&M Adapter card ports, 6-port FXS Adapter card ports, 6-port Ethernet 10Gbps Adapter card ports, 6-port DSL Combination module ports, or 6-port SAR-M Ethernet module ports | |
1 to 8 | 8-port Ethernet Adapter card ports, 8-port Gigabit Ethernet Adapter card ports, 8-port xDSL module ports, 8-port Voice & Teleprotection card ports, 8-port C37.94 Teleprotection card ports, 8-port FXO Adapter card ports, or Packet Microwave Adapter card ports | |
1 to 10 | 10-port 1GigE/1-port 10GigE X-Adapter card with card in 10-port 1GigE mode | |
1 | 10-port 1GigE/1-port 10GigE X-Adapter card with card in 1-port 10GigE mode | |
1 | GPS Receiver module GPS RF port GNSS Receiver card GNSS RF port | |
1 to 12 | 12-port Serial Data Interface card ports | |
1 to 16 | 16-port T1/E1 ASAP Adapter card ports | |
1 to 32 | 32-port T1/E1 ASAP Adapter card ports | |
1 to 7 (Ethernet), 1 to 16 (T1/E1), or 1 (module) | 7705 SAR-M | |
1 to 8 (Ethernet) | 7705 SAR-H | |
1 to 6 (Ethernet), 1 to 2 (RS-232) | 7705 SAR-Hc | |
1 to 2 (RS-232 ports) | 4-port T1/E1 and RS-232 Combination module | |
3 to 4 (T1/E1 ports) | 4-port T1/E1 and RS-232 Combination module | |
1 to 12 (Ethernet) or 1 to 8 (T1/E1) | 7705 SAR-A | |
1 to 12 (Ethernet) or 1 (GNSS RF) | 7705 SAR-Ax | |
1 to 5 (Ethernet) and vrtl-mgmt (in-band management) | 7705 SAR-W | |
1 to 5 (Ethernet) (on the Ethernet-only variant and Ethernet and PoE+ variant) or 1 to 4 (Ethernet) (on the Ethernet and DSL variant, 1/2/1 to 1/2/4) | 7705 SAR-Wx | |
1 to 8 (T1/E1 ports), 1 or 2 (Ethernet XOR RJ-45/SFP ports), 3 to 6 (Ethernet ports), 7 (Ethernet SFP+ ports) | 7705 SAR-X | |
channel | ds1, e1, codir, or tpif | for config>port>tdm information |
em, fxo, or fxs | for config>port>voice information | |
rs232, rs530, v35, or x21 | for config>port>serial information | |
1 to 24 (DS1) or 1 to 32 (E1) | for config>port>tdm>channel-group information | |
1 (E&M) | for config>port>voice>em>channel-group information | |
1 (DS0) | for config>port>tdm>codir>channel-group, config>port>tdm>tpif>channel-group, config>port>voice>fxo>channel-group, and config>port>voice>fxs>channel-group information | |
1 (RS-232, RS-530, V.35, or X.21) | for config>port>serial>channel-group information |
Output
The following outputs are examples of port information:
- General (Output Example, Table 62)
- Port Statistics (Output Example, Table 63)
- Specific, Ethernet (Output Example, Table 64)
- Specific, PoE Enabled (Output Example, Table 65)
- Specific, Serial (Output Example, Table 66)
- Specific, SONET/SDH (Output Example, Table 67)
- Specific, Voice E&M (Output Example, Table 68)
- Specific, Voice FXO (Output Example, Table 69)
- Specific, Voice FXS (Output Example, Table 70)
- Specific, DS0 Voice Channel Group (Output Example, Table 71)
- Detail, SONET/SDH (Output Example, Table 72)
- Detail, Ethernet (Ethernet Output Example (access mode), Table 73)
- Detail, Ethernet (Ethernet Output Example (network mode), Table 74)
- Detail, DSL (DSL Output Example, Table 75)
- Detail, GPON (GPON Output Example, Table 76)
- Detail, 10G Ring Ethernet (Output Example, Table 77)
- Detail, 2.5G Virtual Ethernet (Output Example, Table 78)
- Detail, TDM/DS1 (Output Example, Table 79)
- Serial Channel (Output Example, Table 80)
- Voice Channel, E&M (Output Example, Table 81)
- Channel Group (Output Example, Table 82)
- Channelized DS3 (Output Example, Table 83)
- Clear Channel DS3 (Output Example, Table 84)
- ACR Detail (Output Example, Table 85)
- dot1x (Output Example, Table 86)
- Descriptions (Output Example, Table 87)
- Associations (Output Example, Table 88)
- IMA Link (Output Example, Table 89)
- PPP (Output Example, Table 90)
- CEM (Output Example, Table 91)
- Frame Relay (Output Example, Table 92)
- Frame Relay DLCI (Output Example, Table 93)
- HDLC and cHDLC (Output Example, Table 93)
- TDM Codir or TPIF (Output Example, Table 94)
- GNSS (Output Example, Table 95)
- APS (Output Example, Table 96)
- Specific APS Port ID (Output Example, Table 97)
- LCR (Output Example, Table 98)
- Specific LCR Port ID (Output Example, Table 99)
Table 62: Show General Port Output Fields
Label | Description |
Port ID | The port ID configured or displayed in the slot/mda/port format |
Admin State | Up: the administrative state is up |
Down: the administrative state is down | |
Link | Yes: a physical link is present |
No: a physical link is not present | |
Port State | Up: the port is physically present and has a physical link |
Down: the port is physically present but does not have a link | |
Ghost: the port is not physically present | |
None: the port is in its initial creation state or about to be deleted | |
Link Up: the port is physically present and has a physical link. When Link Up appears at the lowest level of a TDM tributary, it means the physical connection is active but the port is waiting 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. | |
Link Down: the port is physically present but does not have a link | |
Cfg MTU | The configured MTU |
Oper MTU | The negotiated size of the largest packet that can be sent on the port or channel specified in octets |
LAG/Bndl | The Link Aggregation Group (LAG) or multilink bundle to which a TDM port is assigned |
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 hybrid use (transport network and service access per VLAN) | |
Port Encp | The encapsulation type on the port |
Port Type | The type of port or optics installed |
SFP/MDI MDX | The SFP type on an Ethernet port (Ethernet, Fast Ethernet, or GigE) |
Table 63: Show Port Statistics Output Fields
Label | Description |
Port ID | The port ID configured or displayed in the slot/mda/port format |
Ingress Packets | The number of ingress packets coming into the port |
Ingress Octets | The number of ingress octets coming into the port |
Egress Packets | The number of egress packets transmitted from the port |
Egress Octets | The number of egress octets transmitted from the port |
Table 64: Show Specific Port Output Fields (GigE Port with Optical SFP)
Label | Description |
Ethernet Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Link-level | The type of link for which the port is configured |
Admin State | up: the administrative state is up |
down: the administrative state is down | |
Oper State | up: the operating state is up |
down: the operating state is down | |
Reason Down | Indicates that the port has gone down due to Link Loss Forwarding |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Single Fiber Mode | Yes: single fiber mode |
No: not single fiber mode | |
IfIndex | The interface's index number, which reflects its initialization sequence |
Last State Change | The last time that the operational status of the port changed state |
Last Cleared Time | The time since the last clear |
Phys State Chng Cnt | The physical state change counter. This counter increments when a fully qualified (debounced) transition occurs at the physical layer of an Ethernet port, including the following transitions of the port state as displayed in the show port slot/mda/port output:
This counter does not increment for changes only in the link protocol states. That is, if the physical link is up, any transitions of the port state due to link protocols (for example, 802.3ah EFM OAM, LACP, 802.1ag) do not cause the counter to increment. The following port state transitions are examples of transitions that are not counted:
|
Configured Mode | network: the port is configured for transport network use |
access: the port is configured for service access | |
hybrid: the port is configured for hybrid use (transport network and service access per VLAN) | |
Dot1Q Ethertype | The Ethertype expected when the port's encapsulation type is dot1q |
QinQ Ethertype | The Ethertype expected when the port's encapsulation type is qinq |
Ing. Pool % Rate | The amount of ingress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port or channel for ingress buffering |
Net. Egr. Queue Pol | default: the default policy is used |
network: the network egress queue policy is used | |
Egr. Sched. Pol | The egress scheduling policy |
Net. Egr. ShaperPol | The network egress shaper policy ID |
Acc. Egr. ShaperPol | The access egress shaper policy ID |
Net. Scheduler Mode | The network scheduler mode |
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 | |
Config Phy-tx-clock | The mode used to establish timing control of a 1000Base-T port. The options are:
|
Oper Phy-tx-clock | The operational value of the MASTER-SLAVE relationship of the 1000Base-T physical layer transmit clock. The options are:
|
SapEgr.Shaper Pol | The SAP egress shaper policy for the port |
SapEgr.Unshaped-Cir | The CIR rate for the aggregate of all the unshaped 4-priority SAPs on the port |
NetEgr.Unshaped-Cir | The CIR rate for the aggregate of all the unshaped VLANs on the port |
Allow Eth-BN | Indicates whether Ethernet Bandwidth Notification (ETH-BN) is allowed on the port: True or False |
BN Egr.Rate in use | The egress rate in use based on the request from the ETH-BN server MEP |
Eth-BN hold time | The configured hold time (in seconds) between an egress rate change based on a received Bandwidth Notification Message (BNM) and the next change request that will be accepted |
Egress Rate | The maximum amount of egress bandwidth (in kilobits per second) that this Ethernet interface can generate |
Egr.Rate Incl.FCS | The configured state of egress rate FCS inclusion: enabled or disabled |
Ingress CBS (bytes) | Indicates the ingress committed buffer space |
Src-pause | A notification to slow down the transmission rate when it exceeds the bandwidth limit |
LACP Tunnel | Indicates whether LACP packet tunneling is enabled |
Down-when-looped | Enabled: The down-when-looped feature is enabled on the port |
Disabled: The down-when-looped feature is disabled on the port | |
Keep-alive | The time interval between keepalive PDUs transmitted toward the network during loop detection by the down-when-looped feature |
Loop Detected | Indicates whether a loop is detected on the port |
Retry | The minimum wait time before the port is re-enabled after it is brought down due to a loop detection |
Use Broadcast Addr | Indicates whether the down-when-looped feature has been configured to compare the destination MAC address of received PDUs to the broadcast MAC address instead of the MAC address of the port |
Loopback | The type of loopback configured on the port, either line, internal, or none |
Swap Mac Addr | Indicates whether MAC address swapping is enabled |
Loopback Time Left | The number of seconds left in a timed loopback If there is no loopback configured or the configured loopback is latched, the value is unspecified If configured loopback is persistent, the value persistent. |
Cfm Loopback | Indicates whether the CFM loopback is enabled |
Sync. Status Msg. | Indicates whether Synchronization Status Messaging is enabled on the port |
PTP Asymmetry | Indicates whether PTP asymmetry is enabled |
Edge Timestamp | Indicates whether the edge timestamp is enabled |
Timestamp Capable | Indicates whether the port is timestamp-capable |
CRC Mon SD Thresh | Indicates the CRC signal degrade threshold value (1 to 9), if enabled |
CRC Mon SF Thresh | Indicates the CRC signal fail threshold value (1 to 9), if enabled |
CRC Mon Window | Indicates the CRC window sampling size value (5 to 60) |
Rx Quality Level | The Synchronization Status Messaging quality level value received on the port |
Code-Type | The Synchronization Status Messaging quality level code type |
Tx Quality Level | The Synchronization Status Messaging quality level value transmitted on the port |
Tx DUS/DNU | Indicates whether the transmission of the QL-DUS/DNU value in synchronization status messages is enabled or disabled on the port |
Configured Address | The base chassis Ethernet MAC address |
Hardware Address | The interface hardware- or system-assigned MAC address at its protocol sublayer |
Cfg Alarm | The type of alarms to be logged and reported for the Ethernet port |
Alarm Status | The current alarm state |
Oper Speed | The operating speed of the interface |
Config Speed | The configured speed of the interface |
Oper Duplex | full: the link is operating at full-duplex mode half: the link is operating at half-duplex mode |
Config Duplex | full: the link is set at full-duplex mode half: the link is set at half-duplex mode |
MTU | The size of the largest packet that can be sent/received on the Ethernet physical interface, specified in octets |
Hold time up | The link-up dampening time in seconds |
Hold time down | The link-down dampening time in seconds |
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 | |
qinq: ingress frames carry two 802.1Q tags, where the outer tag is the service provider tag and the inner tag is the customer service tag | |
Egr. Pool % Rate | The amount of egress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port or channel for egress buffering |
MDI/MDX | Ethernet type |
Transceiver Data | The following information is provided for a configured transceiver (SFP):
|
Transceiver Digital Diagnostic Monitoring (DDM), Internally Calibrated | |
SFP manufacturers specifications guidelines contained in specification SFF-8472, for the following:
For the above categories, the following values are shown:
If alarms/warnings are raised, there will be an "!" in the output | |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Port Statistics | |
Unicast packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Multicast packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent. |
Broadcast packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts. |
Port Discard Statistics | |
Inv L2 Packets Input | The number of invalid packets discarded due to an unknown Layer 2 ID |
Inv IP Packets Input | The number of invalid IP packets discarded |
CSM Ingress Queues Input | The number of incoming control packets discarded |
CSM Egress Queues Output | The number of outgoing control packets discarded |
Ethernet CFM Statistics | |
Cfm LbmRx | The number of LBMs received |
Cfm LbReplyTx | The number of LBRs transmitted |
Cfm LbmDropped | The number of LBMs dropped |
Num Bn Rate Chng | The number of times that the port egress rate is dynamically changed based on Bandwidth Notification (BN) messages Note: not every bandwidth change indicated by a BNM triggers a port egress rate change |
Last BnRateChng | The time that the port egress rate was last changed based on a BNM |
Valid BnmRx | The number of valid BN messages received |
Last Valid BnmRx | The time that the last valid BNM was received |
Invalid BnmRx | The number of invalid BN messages received |
BnmOutOfRangeBW | The number of BN messages received with a requested bandwidth that was out of range |
Ethernet-like Medium Statistics | |
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 that 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 |
FCS Errors | The number of frames received that are an integral number of octets in length but do not pass the FCS check |
SQE Errors | The number of times that the SQE TEST ERROR is received |
CSE | The number of times that the carrier sense condition was lost or never asserted when attempting to transmit a frame |
Too long Frames | The number of frames received that exceed the maximum permitted frame size |
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 |
In Pause Frames | The number of IEEE 802.3x pause frames received for flow control; traffic is momentarily disrupted |
Sngl Collisions | The number of frames that are involved in a single collision, and are subsequently transmitted successfully |
Mult Collisions | The number of frames that are involved in more than one collision and are subsequently transmitted successfully |
Late Collisions | The number of times that a collision is detected later than one slotTime into the transmission of a packet |
Excess Collisns | The number of frames for which a transmission fails due to excessive collisions |
Int MAC Tx Errs | The number of frames for which a transmission fails due to an internal MAC sublayer transmit error |
Int MAC Rx Errs | The number of frames for which a reception fails due to an internal MAC sublayer receive error |
Out Pause Frames | The number of IEEE 802.3x pause frames sent for flow control; traffic is momentarily disrupted |
Table 65: Show PoE Port Output Fields (Ethernet)
Label | Description |
Ethernet Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Oper Speed | The operating speed of the interface |
Link-level | Ethernet: the port is configured as Ethernet |
Config Speed | The configured speed of the interface |
Admin State | up: the port is administratively up |
down: the port is administratively down | |
Oper Duplex | The operating duplex mode of the interface |
Oper State | up: the port is operationally up |
down: the port is operationally down | |
Config Duplex | full: the link is configured to full-duplex mode |
half: the link is configured to half-duplex mode | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
MTU | The size of the largest packet that can be sent/received on the Ethernet physical interface, specified in octets |
Single Fiber Mode | Yes: single fiber mode |
No: not single fiber mode | |
IfIndex | The interface’s index number, which reflects its initialization sequence |
Hold time up | The link-up dampening time in seconds. The port link dampening timer value that reduces the number of link transitions reported to upper layer protocols. |
Last State Change | The last time that the operational status of the port changed state |
Hold time down | The link-down dampening time in seconds. The down timer controls the dampening timer for link down transitions. |
Last Cleared Time | The time since the last clear |
Configured Mode | network: the port is configured for transport network use |
access: the port is configured for service access | |
hybrid: the port is configured for hybrid use (transport network and service access per VLAN) | |
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 | |
qinq: ingress frames carry two 802.1Q tags, where the outer tag is the service provider tag and the inner tag is the customer service tag | |
Dot1Q Ethertype | The protocol carried in a dot1q Ethernet frame |
Ing. Pool % Rate | The amount of ingress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for ingress buffering |
Egr. Pool % Rate | The amount of egress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for egress buffering |
Net.Egr. Queue Pol. | The number of the associated network egress queue QoS policy, or default if the default policy is used |
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 | |
MDI/MDX | Indicates the Ethernet interface type |
Config Phy-tx-clock | The mode used to establish timing control of a 1000Base-T port. The options are:
|
Oper Phy-tx-clock | The operational value of the master-slave relationship of the 1000Base-T physical layer transmit clock. The options are:
|
Allow Eth-BN | Indicates whether Ethernet Bandwidth Notification (ETH-BN) is allowed on the port: True or False |
BN Egr.Rate in use | The egress rate in use based on the request from the ETH-BN server MEP |
Eth-BN hold time | The configured hold time (in seconds) between an egress rate change based on a received Bandwidth Notification Message (BNM) and the next change request that will be accepted |
Egress Rate | The maximum amount of egress bandwidth (in kilobits per second) that this Ethernet interface can generate |
Ingress Rate | The maximum amount of ingress bandwidth (in kilobits per second) that this Ethernet interface can generate |
Down-when-looped | Enabled: The down-when-looped feature is enabled on the port |
Disabled: The down-when-looped feature is disabled on the port | |
Keep-alive | The time interval between keepalive PDUs transmitted toward the network during loop detection by the down-when-looped feature |
Loop Detected | Indicates whether a loop is detected on the port |
Retry | The minimum wait time before the port is re-enabled after it is brought down due to a loop detection |
Use Broadcast Addr | Indicates whether the down-when-looped feature has been configured to compare the destination MAC address of received PDUs to the broadcast MAC address instead of the MAC address of the port |
Loopback | The type of loopback configured on the port, either line, internal, or none |
Swap Mac Addr. | Indicates whether MAC address swapping is enabled |
Loopback Time Left | The number of seconds left in a timed loopback If there is no loopback configured or the configured loopback is latched, the value is unspecified. If configured loopback is persistent, the value persistent |
Cfm Loopback | Indicates whether the CFM loopback is enabled |
PoE Mode | Indicates whether the port is using Poe, PoE+, or if the PoE function is turned off (disabled) |
PoE Detection | Indicates the detection state of the PoE port |
PoE Class | Displays the class of the PoE device connected to the port, as defined in IEEE 802.3af |
PoE Fault Reason | Displays the reason the PoE port is down if a fault is detected |
PoE Maximum Power | Indicates the maximum amount of PoE power configured and available on the port |
PoE Power in Use | Indicates the amount of PoE power being used by the port |
Sync. Status Msg. | Indicates whether Synchronization Status Messaging is enabled on the port |
Rx Quality Level | The Synchronization Status Messaging quality level value received on the port |
PTP Asymmetry | Indicates whether PTP asymmetry is enabled |
Edge Timestamp | Indicates whether the edge timestamp is enabled |
Timestamp Capable | Indicates whether the port is timestamp-capable |
CRC Mon SD Thresh | Indicates the CRC signal degrade threshold value (1 to 9), if enabled |
CRC Mon SF Thresh | Indicates the CRC signal fail threshold value (1 to 9), if enabled |
CRC Mon Window | Indicates the CRC window sampling size value (1 to 10) |
Configured Address | The base chassis Ethernet MAC address |
Hardware Address | The interface hardware- or system-assigned MAC address at its protocol sublayer |
Cfg Alarm | The type of alarms to be logged and reported for the port |
Alarm Status | The current alarm state |
Traffic Statistics | |
Octets input/output | The total number of octets received and transmitted on the port |
Packets input/output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Port Statistics | |
Unicast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Multicast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent |
Broadcast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts |
Port Discard Statistics | |
Inv L2 Packets Input | The number of invalid packets that are discarded due to an unknown Layer 2 ID |
Inv IP Packets Input | The number of invalid IP packets that are discarded |
CSM Ingress Queues Input | The number of incoming control packets discarded |
CSM Egress Queues Output | The number of outgoing control packets discarded |
Port Control Statistics | |
Ingress Queue CTL | The number of forwarded packets and octets, and the number of dropped packets, for the ingress control queue. For access ports, this statistic applies only to Ethernet cards. For network ports, this statistic applies to all adapter cards. |
Egress Queue CTL | The number of forwarded packets and octets, and the number of dropped packets, for the egress control queue. For access ports, this statistic applies only to Ethernet cards. For network ports, this statistic applies to all adapter cards. |
Ethernet-like Medium Statistics | |
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 that 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 |
FCS Errors | The number of frames received that are an integral number of octets in length but do not pass the FCS check |
SQE Errors | The number of times that the SQE TEST ERROR is received |
CSE | The number of times that the carrier sense condition was lost or never asserted when attempting to transmit a frame |
Too long Frames | The number of frames received that exceed the maximum permitted frame size |
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 |
In Pause Frames | The number of IEEE 802.3x pause frames received for flow control; traffic is momentarily disrupted |
Sngl Collisions | The number of frames that are involved in a single collision, and are subsequently transmitted successfully |
Mult Collisions | The number of frames that are involved in more than one collision and are subsequently transmitted successfully |
Late Collisions | The number of times that a collision is detected later than one slotTime into the transmission of a packet |
Excess Collisns | The number of frames for which a transmission fails due to excessive collisions |
Int MAC Tx Errs | The number of frames for which a transmission fails due to an internal MAC sublayer transmit error |
Int MAC Rx Errs | The number of frames for which a reception fails due to an internal MAC sublayer receive error |
Out Pause Frames | The number of IEEE 802.3x pause frames sent for flow control; traffic is momentarily disrupted |
Ethernet CFM Statistics | |
Cfm LbmRx | The number of LBMs received |
Cfm LbReplyTx | The number of LBRs transmitted |
Cfm LbmDropped | The number of LBMs dropped |
Num Bn Rate Chng | The number of times that the port egress rate is dynamically changed based on Bandwidth Notification (BN) messages Note: not every bandwidth change indicated by a BNM triggers a port egress rate change |
Last BnRateChng | The time that the port egress rate was last changed based on a BNM |
Valid BnmRx | The number of valid BN messages received |
Last Valid BnmRx | The time that the last valid BNM was received |
Invalid BnmRx | The number of invalid BN messages received |
BnmOutOfRangeBW | The number of BN messages received with a requested bandwidth that was out of range |
Table 66: Show Specific Port Output Fields (Serial Port)
Label | Description |
Serial RS-232 Physical Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Port IfIndex | The interface’s index number, which reflects its initialization sequence |
Admin Status | up: the administrative state is up |
down: the administrative state is down | |
Oper Status | up: the operational state is up |
down: the operational state is down | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Type | The type of serial interface |
Port Statistics | |
Packets input/output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards input/output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards input/output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
Table 67: Show Specific Port Output Fields (SONET/SDH Port)
Label | Description |
SONET/SDH interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Speed | The speed of a SONET/SDH port |
Admin Status | up: the administrative state is up |
down: the administrative state is down | |
Oper Status | up: the operational state is up |
down: the operational state is down | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Loopback Mode | The loopback mode on the port |
Single Fiber Mode | Yes: single fiber mode No: not single fiber mode |
Ing. Pool % Rate | The amount of ingress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for ingress buffering |
Egr. Pool % Rate | The amount of egress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for egress buffering |
APS group | The automatic protection switching group |
APS role | The automatic protection switching group role |
Clock Source | node: the link uses the internal clock when transmitting data loop: the link recovers the clock from the received data stream |
Framing | sonet: the port is configured for SONET framing sdh: the port is configured for SDH framing |
Last State Change | The last time that the operational status of the port changed state |
Port IfIndex | The interface’s index number, which reflects its initialization sequence |
Last Cleared Time | The time since the last clear |
DDM Events | Enabled: digital diagnostic monitoring events is enabled for the port Disabled: digital diagnostic monitoring events is disabled for the port |
J0 String | The section trace value that is sent to the far-end port |
Section Trace Mode | byte: the section trace in the SONET section header is set in bytes string: a text string is used to identify the SONET section header increment-z0: an incremental STM ID is configured instead of a static value |
Rx S1 Byte | The synchronization status message value of the received SONET/SDH S1 byte |
Rx K1/K2 Byte | The value of the received SONET/SDH K1/K2 byte |
Tx S1 Byte | The synchronization status message value of the transmitted SONET/SDH S1 byte |
Tx DUS/DNU | Indicates whether the transmission of the QL-DUS/DNU value in synchronization status messages is enabled or disabled on the port |
Rx J0 String (Hex) | The hex value of the received J0 |
Cfg Alarm | The type of alarms to be logged and reported for the SONET/SDH port |
Alarm Status | The current alarm state |
BER SD Threshold | The configured threshold for line signal degradation BER error rate, that when crossed determines the signal degradation and signal failure |
BER SF Threshold | The configured threshold for line signal failure BER error rate, that when crossed determines the signal degradation and signal failure |
Hold time up | The hold-timer value for link-up event dampening |
Hold time down | The hold-timer value for link-down event dampening |
Transceiver Data | The following information is provided for a configured transceiver (SFP):
|
Transceiver Digital Diagnostic Monitoring (DDM), Externally Calibrated | |
SFP manufacturers specifications guidelines contained in specification SFF-8472, for the following:
For the above categories, the following values are shown:
If alarms/warnings are raised, an "!" is included in the output | |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards Input/Output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
Table 68: Show Specific Port Output Fields (E&M Voice Port)
Label | Description |
Voice Physical Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Port IfIndex | The interface's index number, which reflects its initialization sequence |
Admin Status | up: the administrative state is up |
down: the administrative state is down | |
Oper Status | up: the operating state is up |
down: the operating state is down | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Type | The type of voice interface |
TLP Rx | The receive transmission level point value for the port |
Audio Wires | Four-wire or two-wire (for E & M only) |
TLP Tx | The transmit transmission level point value for the port |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
Table 69: Show Specific Port Output Fields (FXO Voice Port)
Label | Description |
Voice Physical Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Port IfIndex | The interface's index number, which reflects its initialization sequence |
Admin Status | up: the administrative state is up |
down: the administrative state is down | |
Oper Status | up: the operating state is up |
down: the operating state is down | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Type | The type of voice interface (fxo) |
Signaling Type | The signaling type: Mu-law: 3600ls—loop start A-law: 1511profile1—1511 loop start 3600re—remote extension 1511sn137—1511 profile 137 |
TLP Rx | The receive transmission level point value for the port |
Line Balance | nominal or 800 |
TLP Tx | The transmit transmission level point value for the port |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
Table 70: Show Specific Port Output Fields (FXS Voice Port)
Label | Description |
Voice Physical Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Port IfIndex | The interface's index number, which reflects its initialization sequence |
Admin Status | up: the administrative state is up |
down: the administrative state is down | |
Oper Status | up: the operating state is up |
down: the operating state is down | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Type | The type of voice interface (fxs) |
Signaling Type | The signaling type: Mu-law: 3600ls—loop start 3600plar—private line automatic ringdown A-law: 1511plar—1511 private line automatic ringdown 3600plar—private line automatic ringdown 1511profile1—1511 loop start 3600re—remote extension 1511sn137—1511 profile 137 |
TLP Rx | The receive transmission level point value for the port |
Line Balance | nominal or 800 |
TLP Tx | The transmit transmission level point value for the port |
Ring Generation | The frequency of the generated ring signal |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
Table 71: Show Specific Port Output Fields (DS0 Voice Channel Group)
Label | Description |
Voice | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Admin Status | up: the administrative state is up |
down: the administrative state is down | |
Oper Status | up: the operating state is up |
down: the operating state is down | |
Chan-grp IfIndex | The channel group’s index number, which reflects its initialization sequence |
Last State Change | Date and time of last state change |
Configured Mode | short, long, nominal or 800 |
Admin MTU | The configured MTU |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Encap Type | The transmit transmission level point value for the port |
Oper MTU | The negotiated size of the largest packet that can be sent on the port or channel specified in octets |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards Input/Output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
Table 72: Show Port Detail Output Fields (SONET/SDH Port)
Label | Description |
SONET/SDH interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Speed | The speed of a SONET/SDH port |
Admin Status | up: the administrative state is up |
down: the administrative state is down | |
Oper Status | up: the operational state is up |
down: the operational state is down | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Loopback Mode | The loopback mode on the port |
Single Fiber Mode | Yes: single fiber mode No: not single fiber mode |
Ing. Pool % Rate | The amount of ingress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for ingress buffering |
Egr. Pool % Rate | The amount of egress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for egress buffering |
Clock Source | node: the link uses the internal clock when transmitting data loop: the link recovers the clock from the received data stream |
Framing | sonet: the port is configured for SONET framing sdh: the port is configured for SDH framing |
Last State Change | The last time that the operational status of the port changed state |
Port IfIndex | The interface’s index number, which reflects its initialization sequence |
Last Cleared Time | The time since the last clear |
DDM Events | Enabled: digital diagnostic monitoring events is enabled for the port Disabled: digital diagnostic monitoring events is disabled for the port |
J0 String | The section trace value that is sent to the far-end port |
Section Trace Mode | byte: the section trace in the SONET section header is set in bytes string: a text string is used to identify the SONET section header increment-z0: an incremental STM ID is configured instead of a static value |
Rx S1 Byte | The synchronization status message value of the received SONET/SDH S1 byte |
Rx K1/K2 Byte | The value of the received SONET/SDH K1/K2 byte |
Tx S1 Byte | The synchronization status message value of the transmitted SONET/SDH S1 byte |
Tx DUS/DNU | Indicates whether the transmission of the QL-DUS/DNU value in synchronization status messages is enabled or disabled on the port |
Rx J0 String (Hex) | The hex value of the received J0 |
Cfg Alarm | The type of alarms to be logged and reported for the SONET/SDH port |
Alarm Status | The current alarm state |
BER SD Threshold | The configured threshold for line signal degradation BER error rate, that when crossed determines the signal degradation and signal failure |
BER SF Threshold | The configured threshold for line signal failure BER error rate, that when crossed determines the signal degradation and signal failure |
Hold time up | The hold-timer value for link-up event dampening |
Hold time down | The hold-timer value for link-down event dampening |
Transceiver Data | The following information is provided for a configured SFP:
|
Sonet Section | |
ES-S | The number of Errored Seconds errors |
SES-S | The number of Severely Errored Seconds errors |
SEFS-S | The number of Severely Errored Framing Seconds errors |
CV-S | The number of Code Violations errors |
LOS | The number of Loss of Signal errors |
LOC | The number of Loss of Clock errors |
LOF | The number of Loss of Frame errors |
OOF | The number of Out of Frame errors |
B1 Error | The number of B1 errors |
Sonet Line | |
ES-L | The number of Errored Seconds errors, at the near end and far end |
SES-L | The number of Severely Errored Seconds errors, at the near end and far end |
UAS-L | The number of Unavailable Seconds errors, at the near end and far end |
CV-L | The number of Code Violations errors, at the near end and far end |
AIS-L | The number of Alarm Indication Signal errors |
RDI-L | The number of Remote Defect Indication errors |
B2 Error | The number of B2 errors |
S1 Error | The number of S1 errors |
M1 Error | The number of M1 errors |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards Input/Output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
Table 73: Show Port Detail Output Fields (Ethernet, Access Mode)
Label | Description |
Ethernet Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Oper Speed | The operating speed of the interface |
Link-level | Ethernet: the port is configured as Ethernet |
Config Speed | The configured speed of the interface |
Admin State | up: the port is administratively up |
down: the port is administratively down | |
Oper Duplex | The operating duplex mode of the interface |
Oper State | up: the port is operationally up |
down: the port is operationally down | |
Config Duplex | full: the link is configured to full-duplex mode |
half: the link is configured to half-duplex mode | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
MTU | The size of the largest packet that can be sent/received on the Ethernet physical interface, specified in octets |
IfIndex | The interface’s index number, which reflects its initialization sequence |
Hold time up | The link-up dampening time in seconds. The port link dampening timer value that reduces the number of link transitions reported to upper layer protocols. |
Last State Change | The last time that the operational status of the port changed state |
Hold time down | The link-down dampening time in seconds. The down timer controls the dampening timer for link down transitions. |
Phys State Chng Cnt | The physical state change counter. This counter increments when a fully qualified (debounced) transition occurs at the physical layer of an Ethernet port, including the following transitions of the port state as displayed in the show port slot/mda/port output:
This counter does not increment for changes only in the link protocol states. That is, if the physical link is up, any transitions of the port state due to link protocols (for example, 802.3ah EFM OAM, LACP, 802.1ag) do not cause the counter to increment. The following port state transitions are examples of transitions that are not counted:
|
Configured Mode | network: the port is configured for transport network use |
access: the port is configured for service access | |
hybrid: the port is configured for hybrid use (transport network and service access per VLAN) | |
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 | |
qinq: ingress frames carry two 802.1Q tags, where the outer tag is the service provider tag and the inner tag is the customer service tag | |
Dot1Q Ethertype | The protocol carried in a dot1q Ethernet frame |
QinQ Ethertype | The protocol carried in a qinq Ethernet frame |
Net. Egr. Queue Pol. | The number of the associated network egress queue QoS policy, or default if the default policy is used |
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 | |
Net. Scheduler Mode | The network scheduler mode |
SapEgr.Unshaped-Cir | The CIR rate for the aggregate of all the unshaped 4-priority SAPs on the port |
SapEgr.Shaper-Pol | The access egress shaper policy ID |
NetEgr.Unshaped-Cir | The CIR rate for the aggregate of all the unshaped VLANs on the port |
NetEgr. Shaper-Pol | The network egress shaper policy ID |
Allow Eth-BN | Indicates whether Ethernet Bandwidth Notification (ETH-BN) is allowed on the port: True or False |
BN Egr.Rate in use | The egress rate in use based on the request from the ETH-BN server MEP |
Eth-BN hold time | The configured hold time (in seconds) between an egress rate change based on a received Bandwidth Notification Message (BNM) and the next change request that will be accepted |
Egress Rate | The maximum amount of egress bandwidth (in kilobits per second) that this Ethernet interface can generate |
Ingress Rate | The maximum amount of ingress bandwidth (in kilobits per second) that this Ethernet interface can generate |
Egr.Rate Incl.FCS | The configured state of egress rate FCS inclusion: enabled or disabled |
LACP Tunnel | Indicates whether LACP packet tunneling is enabled |
Down-when-looped | Enabled: The down-when-looped feature is enabled on the port |
Disabled: The down-when-looped feature is disabled on the port | |
Keep-alive | The time interval between keepalive PDUs transmitted toward the network during loop detection by the down-when-looped feature |
Loop Detected | Indicates whether a loop is detected on the port |
Retry | The minimum wait time before the port is re-enabled after it is brought down due to a loop detection |
Use Broadcast Addr | Indicates whether the down-when-looped feature has been configured to compare the destination MAC address of received PDUs to the broadcast MAC address instead of the MAC address of the port |
Loopback | The type of loopback configured on the port, either line, internal, or none |
Swap Mac Addr. | Indicates whether MAC address swapping is enabled |
Loopback Time Left | The number of seconds left in a timed loopback If there is no loopback configured or the configured loopback is latched, the value is unspecified. If configured loopback is persistent, the value persistent |
Cfm Loopback | Indicates whether the CFM loopback is enabled |
Sync. Status Msg. | Indicates whether Synchronization Status Messaging is enabled on the port |
Rx Quality Level | The Synchronization Status Messaging quality level value received on the port |
Code-Type | The Synchronization Status Messaging quality level code type, either SONET or SDH |
Tx Quality Level | The Synchronization Status Messaging quality level value transmitted on the port |
Tx DUS/DNU | Indicates whether the transmission of the QL-DUS/DNU value in synchronization status messages is enabled or disabled on the port |
Configured Address | The base chassis Ethernet MAC address |
Hardware Address | The interface hardware- or system-assigned MAC address at its protocol sublayer |
Cfg Alarm | The type of alarms to be logged and reported for the port |
Alarm Status | The current alarm state |
Transceiver Data | The following information is provided for a configured transceiver (SFP):
|
Transceiver Digital Diagnostic Monitoring (DDM), Externally Calibrated | |
SFP manufacturers specifications guidelines contained in specification SFF-8472, for the following:
For the above categories, the following values are shown:
If alarms/warnings are raised, there will be an "!" in the output | |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Ethernet Statistics | |
Broadcast Pckts | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Multicast Pckts | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent. |
Undersize Pckts | The total number of packets received that were shorter than 64 octets (excluding framing bits, but including FCS octets) but were otherwise well formed |
Oversize Pckts | The total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets) but were otherwise well formed |
Collisions | The best estimate of the total number of collisions on this Ethernet segment |
Drop Events | The total number of times that packets were detected as being dropped due to a lack of resources (not necessarily the total number of packets dropped) |
CRC/Align Errors | The total number of packets received that were between 64 and 1518 octets (excluding framing bits but including FCS octets) that 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) |
Fragments | The total number of packets received that were shorter than 64 octets (excluding framing bits but including FCS octets) that 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) |
Jabbers | The total number of packets received that were longer than 1518 octets (excluding framing bits but including FCS octets) that 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) |
Octets | Total number of octets received |
Packets | Number of packets received, broken down by size |
Port Statistics | |
Unicast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Multicast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent |
Broadcast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts |
Port Discard Statistics | |
Inv L2 Packets Input | The number of invalid packets that are discarded due to an unknown Layer 2 ID |
Port MTU Exceeded | Indicates that the port MTU has been exceeded |
Inv MPLS Labels | The number of MPLS labels discarded |
Inv IP Packets Input | The number of invalid IP packets that are discarded |
H. Policed Packets | The number of packets that are discarded due to hard policing |
CSM Ingress Queues Input | The number of incoming control packets discarded |
CSM Egress Queues Output | The number of outgoing control packets discarded |
Port Control Statistics | |
Ingress Queue CTL | The number of forwarded packets and octets, and the number of dropped packets, for the ingress control queue. For access ports, this statistic applies only to Ethernet cards. For network ports, this statistic applies to all adapter cards. |
Egress Queue CTL | The number of forwarded packets and octets, and the number of dropped packets, for the egress control queue. For access ports, this statistic applies only to Ethernet cards. For network ports, this statistic applies to all adapter cards. |
Ethernet CFM Statistics | |
Cfm LbmRx | The number of LBMs received |
Cfm LbReplyTx | The number of LBRs transmitted |
Cfm LbmDropped | The number of LBMs dropped |
Num Bn Rate Chng | The number of times that the port egress rate is dynamically changed based on Bandwidth Notification (BN) messages Note: not every bandwidth change indicated by a BNM triggers a port egress rate change |
Last BnRateChng | The time that the port egress rate was last changed based on a BNM |
Valid BnmRx | The number of valid BN messages received |
Last Valid BnmRx | The time that the last valid BNM was received |
Invalid BnmRx | The number of invalid BN messages received |
BnmOutOfRangeBW | The number of BN messages received with a requested bandwidth that was out of range |
Ethernet-like Medium Statistics | |
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 that 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 |
FCS Errors | The number of frames received that are an integral number of octets in length but do not pass the FCS check |
SQE Errors | The number of times that the SQE TEST ERROR is received |
CSE | The number of times that the carrier sense condition was lost or never asserted when attempting to transmit a frame |
Too long Frames | The number of frames received that exceed the maximum permitted frame size |
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 |
In Pause Frames | The number of IEEE 802.3x pause frames received for flow control; traffic is momentarily disrupted |
Sngl Collisions | The number of frames that are involved in a single collision, and are subsequently transmitted successfully |
Mult Collisions | The number of frames that are involved in more than one collision and are subsequently transmitted successfully |
Late Collisions | The number of times that a collision is detected later than one slotTime into the transmission of a packet |
Excess Collisns | The number of frames for which a transmission fails due to excessive collisions |
Int MAC Tx Errs | The number of frames for which a transmission fails due to an internal MAC sublayer transmit error |
Int MAC Rx Errs | The number of frames for which a reception fails due to an internal MAC sublayer receive error |
Out Pause Frames | The number of IEEE 802.3x pause frames sent for flow control; traffic is momentarily disrupted |
| Note: The 7705 SAR counts both Ethernet packets with errors and valid Ethernet packets under Ethernet port statistics. For each received errored packet, both aggregate Ethernet statistics and the errored Ethernet statistics are incremented. |
The show>port output for an Ethernet port in network mode is similar to the access mode output (see Ethernet Output Example (access mode)) with the addition of a section for queue statistics. The output example below shows only the queue statistics fields.
See Table 73 for field descriptions common to both access and network mode outputs.
Table 74: Show Port Detail Output Fields (Ethernet, Network Mode)
Label | Description |
Queue Statistics | |
Ingress Queue | For the specified ingress queue, the number of packets and octets that are:
|
Unshaped Egress Queue | For the specified unshaped egress queue, the of number packets and octets that are:
|
Total Egress from all Shaped and Unshaped Queues | For all shaped and unshaped queues, the total number of egress packets and octets that are:
|
Egress Queue CTL | The number of forwarded packets and octets, and the number of dropped packets, for the egress control queue. |
Table 75: Show Port Detail Output Fields (DSL)
Label | Description |
DSL Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
US Rate | The trained rate of the DSL port in the upstream direction |
DS Rate | The trained rate of the DSL port in the downstream direction |
PortType | The type of DSL port installed |
Admin State | up: the port is administratively up |
down: the port is administratively down | |
Oper State | up: the port is operationally up |
down: the port is operationally down | |
BondingType | The DSL bonding type |
BondingState | up: DSL bonding is operationally up |
down: DSL bonding is operationally down | |
NtrDslLineID | The DSL line number that derives NTR |
AtmVpi | The ATM VPI used for traffic when DSL lines are trained in ATM mode |
NtrLockedStatus | The NTR lock status of the DSL line |
AtmVci | The ATM VCI used for traffic when DSL lines are trained in ATM mode |
NtrStdDev | The standard deviation of NTR clock errors over a 10-second period of the phase error between the encoded phase information (as present in the NTR field of the overhead frame) and the CPE regenerated NTR clock |
NtrMaxError | The maximum NTR phase error (after a lock has been declared), between the encoded phase information in the NTR field of the overhead frame and the CPE regenerated NTR clock |
NtrMinError | The minimum NTR phase error (after a lock has been declared), between the encoded phase information in the NTR field of the overhead frame and the CPE regenerated NTR clock |
NtrSampleClkPeri* | The sample clock period for NTR in nanoseconds This number, multiplied by the NtrErrHsty value, results in the phase error in nanoseconds between the encoded phase information in the NTR field of the overhead frame and the CPE regenerated NTR clock |
NtrErrHsty (*28 ns) | An array of bytes indicating the NTR phase error history Each byte represents the phase error between the encoded phase information in the NTR field of the overhead frame and the CPE regenerated NTR clock. The phase error values are expressed in clock ticks based on the NtrSampleClkPer* and are displayed as a signed integer in hexadecimal notation. The time interval between bytes is 1/16th of a second |
IfIndex | The interface’s index number, which reflects its initialization sequence |
MTU | The configured MTU |
Last State Change | The last time that the operational status of the port changed state |
Hold time up | The link-up dampening time in seconds |
Last Cleared Time | The time since the last clear |
Hold time down | The link-down dampening time in seconds |
Configured Mode | The configured port mode, either access or network |
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 | |
Dot1Q Ethertype | The protocol carried in a dot1q Ethernet frame |
Ing. Pool % Rate | The amount of ingress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for ingress buffering |
Egr. Pool % Rate | The amount of egress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for egress buffering |
Net Egr. Queue Pol | The number of the associated network egress queue QoS policy, or default if the default policy is used |
Egress Rate | The maximum amount of egress bandwidth (in kilobits per second) that this interface can generate |
Down-when-looped | Enabled: The down-when-looped feature is enabled on the port |
Disabled: The down-when-looped feature is disabled on the port | |
Keep-alive | The time interval between keepalive PDUs transmitted toward the network during loop detection by the down-when-looped feature |
Loop Detected | Indicates whether a loop is detected on the port |
Retry | The minimum wait time before the port is re-enabled after it is brought down due to a loop detection |
Use Broadcast Addr | Indicates whether the down-when-looped feature has been configured to compare the destination MAC address of received PDUs to the broadcast MAC address instead of the MAC address of the port |
Loopback | The type of loopback configured on the port, either internal or none |
Loopback Time Left | The number of seconds left in a timed loopback; if there is no loopback configured or the configured loopback is latched, the value is unspecified |
Cfm Loopback | Indicates whether the CFM loopback is enabled |
Sync. Status Msg. | Indicates whether Synchronization Status Messaging is enabled on the port |
Rx Quality Level | The Synchronization Status Messaging quality level value received on the port |
Configured Address | The base chassis Ethernet MAC address |
Hardware Address | The interface hardware- or system-assigned MAC address at its protocol sublayer |
Table 76: Show Port Detail Output Fields (GPON)
Label | Description |
GPON Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Admin State | up: the port is administratively up |
down: the port is administratively down | |
Oper State | up: the port is operationally up |
down: the port is operationally down | |
ONT Active SW Ver | The GPON module software version |
G984 Serial Number | The G984 serial number that is used for provisioning with the OLT |
IfIndex | The interface’s index number, which reflects its initialization sequence |
Last State Change | The last time that the operational status of the port changed state |
Last Cleared Time | The time since the last clear |
ONT Enet Speed | The Ethernet speed of the GPON module |
ONT Enet Status | The Ethernet status of the GPON module |
PON Status | The status of the PON |
MTU | The configured MTU |
Configured Mode | The configured port mode, either access or network |
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 | |
Dot1Q Ethertype | The protocol carried in a dot1q Ethernet frame |
Ing. Pool % Rate | The amount of ingress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for ingress buffering |
Net. Egr. Queue Pol | The number of the associated network egress queue QoS policy, or default if the default policy is used |
Net Scheduler Mode | The mode for servicing CoS queues; 16-priority scheduling is the only supported value |
Egress Rate | The maximum amount of egress bandwidth (in kilobits per second) that this interface can generate |
Down-when-looped | Enabled: The down-when-looped feature is enabled on the port |
Disabled: The down-when-looped feature is disabled on the port | |
Keep-alive | The time interval between keepalive PDUs transmitted toward the network during loop detection by the down-when-looped feature |
Loop Detected | Indicates whether a loop is detected on the port |
Retry | The minimum wait time before the port is re-enabled after it is brought down due to a loop detection |
Use Broadcast Addr | Indicates whether the down-when-looped feature has been configured to compare the destination MAC address of received PDUs to the broadcast MAC address instead of the MAC address of the port |
Egr. Pool % Rate | The amount of egress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for egress buffering |
Loopback | The type of loopback configured on the port, either line, internal, or none |
Loopback Time Left | The number of seconds left in a timed loopback If there is no loopback configured or the configured loopback is latched, the value is unspecified |
Cfm Loopback | Indicates whether the CFM loopback is enabled |
Configured Address | The base chassis Ethernet MAC address |
Hardware Address | The interface hardware- or system-assigned MAC address at its protocol sublayer |
Traffic Statistics (These statistics are generated at the Ethernet port on the 7705 SAR-M backplane facing the GPON module.) | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Ethernet Statistics (These statistics are generated at the Ethernet port on the 7705 SAR-M backplane facing the GPON module.) | |
Broadcast Pckts | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Multicast Pckts | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent. |
Undersize Pckts | The total number of packets received that were shorter than 64 octets (excluding framing bits, but including FCS octets) but were otherwise well formed |
Oversize Pckts | The total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets) but were otherwise well formed |
Collisions | The best estimate of the total number of collisions on this Ethernet segment |
Drop Events | The total number of times that packets were detected as being dropped due to a lack of resources (not necessarily the total number of packets dropped) |
CRC/Align Errors | The total number of packets received that were between 64 and 1518 octets (excluding framing bits but including FCS octets) that 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) |
Fragments | The total number of packets received that were shorter than 64 octets (excluding framing bits but including FCS octets) that 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) |
Jabbers | The total number of packets received that were longer than 1518 octets (excluding framing bits but including FCS octets) that 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) |
Octets | Total number of octets received |
Packets | Number of packets received, broken down by size |
GPON ONT Current Interval Statistics | |
Ethernet (These statistics are generated at the Ethernet port on the GPON module facing the 7705 SAR-M backplane.) | |
Tx Frames | Total number of frames transmitted |
Tx Bytes | Total number of bytes transmitted |
Drop Frames Up | Total number of transmitted frames that were dropped |
Tx Mcast Frames | Total number of multicast frames transmitted |
FCS Errors | Total number of FCS errors |
Late Collisions | Total number of late collisions |
Rx Buf Overflow | Total number of buffer overflows on receive |
Sngl Collisions | Total number of single collisions |
SQE Test Errors | Total number of SQE test errors |
Int MAC Tx Errs | Total number of internal MAC transmit errors |
Alignment Errors | Total number of alignment errors |
Rx Frames | Total number of frames received |
Rx Bytes | Total number of bytes received |
Drop Frames Down | Total number of frames that were dropped downstream |
Rx Mcast Frames | Total number of multicast frames received |
Exc Collisions | Total number of excessive collisions |
Too Long Frames | Total number of frames that are too long |
Tx Buf Overflow | Total number of buffer overflows on transmission |
Mult Collisions | Total number of multiple collisions |
Deferred Tx | Total number of deferred transmissions |
CSE Count | Total number of carrier sense errors |
Int Mac Rx Errs | Total number of internal MAC receive errors |
Aggregate GEM (These statistics are generated at the GPON module facing the OLT/ISAM0 | |
Lost Frags Down | Aggregate number of lost GEM fragments transmitted |
Receive Frags | Aggregate number of GEM fragments received |
Transmit Blocks | Aggregate number of GEM blocks transmitted |
Bad Headers | Aggregate number of bad GEM headers received |
Lost Frags Up | Aggregate number of lost GEM fragments received |
Receive Blocks | Aggregate number of GEM blocks received |
Transmit Frags | Aggregate number of transmitted GEM fragments |
GPON ONT Previous Interval Statistics | |
Ethernet (These statistics are generated at the Ethernet port on the GPON module facing the 7705 SAR-M backplane.) | |
Tx Frames | Total number of frames transmitted |
Tx Bytes | Total number of bytes transmitted |
Drop Frames Up | Total number of transmitted frames that were dropped |
Tx Mcast Frames | Total number of multicast frames transmitted |
FCS Errors | Total number of FCS errors |
Late Collisions | Total number of late collisions |
Rx Buf Overflow | Total number of buffer overflows on receive |
Mult Collisions | Total number of single collision |
Deferred Tx | Total number of deferred transmissions |
CSE Count | Total number of carrier sense errors |
Int Mac Rx Err | Total number of internal MAC receive errors |
Aggregate GEM (These statistics are generated at the GPON module facing the OLT/ISAM) | |
Lost Frags Down | Aggregate number of lost GEM fragments transmitted |
Receive Frags | Aggregate number of GEM fragments received |
Transmit Blocks | Aggregate number of GEM blocks transmitted |
Bad Headers | Aggregate number of bad GEM headers received |
Lost Frags Up | Aggregate number of lost GEM fragments received |
Receive Block | Aggregate number of GEM blocks received |
Transmit Frags | Aggregate number of transmitted GEM fragments |
Port Statistics | |
Unicast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Multicast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent |
Broadcast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts |
Port Discard Statistics | |
Inv L2 Packets Input | The number of invalid packets that are discarded due to an unknown Layer 2 ID |
Port MTU Exceeded | Indicates that the port MTU has been exceeded |
Inv MPLS Labels | The number of MPLS labels discarded |
Inv IP Packets Input | The number of invalid IP packets that are discarded |
H. Policed Packets | The number of packets that are discarded due to hard policing |
CSM Ingress Queues | The number of incoming control packets discarded |
CSM Egress Queues Common | The number of outgoing control packets discarded |
Ethernet-like Medium Statistics | |
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 that 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 |
FCS Errors | The number of frames received that are an integral number of octets in length but do not pass the FCS check |
SQE Errors | The number of times that the SQE TEST ERROR is received |
CSE | The number of times that the carrier sense condition was lost or never asserted when attempting to transmit a frame |
Too long Frames | The number of frames received that exceed the maximum permitted frame size |
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 |
Sngl Collisions | The number of frames that are involved in a single collision, and are subsequently transmitted successfully |
Mult Collisions | The number of frames that are involved in more than one collision and are subsequently transmitted successfully |
Late Collisions | The number of times that a collision is detected later than one slotTime into the transmission of a packet |
Excess Collisions | The number of frames for which a transmission fails due to excessive collisions |
Int MAC Tx Errs | The number of frames for which a transmission fails due to an internal MAC sublayer transmit error |
Int MAC Rx Errs | The number of frames for which a reception fails due to an internal MAC sublayer receive error |
Ethernet CFM Loopback Statistics | |
Cfm LbmRx | The number of LBMs received |
Cfm LbReplyTx | The number of LBMs transmitted |
Cfm LbmDropped | The number of LBMs dropped |
Queue Statistics | |
Ingress Queue | In Profile forwarded/dropped |
Out Profile forwarded/dropped | |
Egress Queue | In Profile forwarded/dropped |
Out Profile forwarded/dropped | |
Table 77: Show Port Detail Output Fields (Ring Ethernet)
Label | Description |
Ethernet Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Oper Speed | The operating speed of the interface |
Link-level | Ethernet: the port is configured as Ethernet |
Config Speed | The configured speed of the interface |
Admin State | up: the port is administratively up |
down: the port is administratively down | |
Oper Duplex | The operating duplex mode of the interface |
Oper State | up: the port is operationally up |
down: the port is operationally down | |
Config Duplex | full: the link is configured to full-duplex mode |
half: the link is configured to half-duplex mode | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
MTU | The size of the largest packet that can be sent/received on the Ethernet physical interface, specified in octets |
Single Fiber Mode | Yes: single fiber mode |
No: not single fiber mode | |
IfIndex | The interface’s index number, which reflects its initialization sequence |
Hold time up | The link-up dampening time in seconds The port link dampening timer value that reduces the number of link transitions reported to upper layer protocols |
Last State Change | The last time that the operational status of the port changed state |
Hold time down | The link-down dampening time in seconds. The down timer controls the dampening timer for link down transitions. |
Last Cleared Time | The time since the last clear |
DDM Events | Enabled: digital diagnostic monitoring events is enabled for the port |
Disabled: digital diagnostic monitoring events is disabled for the port | |
Configured Mode | network: the port is configured for transport network use |
access: the port is configured for service access | |
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 | |
null&dot1q: applies only to port 1 and port 2 on the 2-port 10GigE (Ethernet) Adapter card and 2-port 10GigE (Ethernet) module. The encapsulation type for these ports is not user-configurable. | |
Dot1Q Ethertype | The protocol carried in a dot1q Ethernet frame |
VLAN Filter | The filter ID of the VLAN filter |
Ing. Pool % Rate | The amount of ingress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for ingress buffering |
Egr. Pool % Rate | The amount of egress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for egress buffering |
Net. Egr. Queue Pol. | The number of the associated network egress queue QoS policy, or default if the default policy is used |
Net. Scheduler Mode | The mode for servicing CoS queues; 16-priority scheduling is the only supported value |
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 | |
MDI/MDX | Ethernet type |
Config Phy-tx-clock | The mode used to establish timing control of a 1000Base-T port. The options are:
|
Oper Phy-tx-clock | The operational value of the master-slave relationship of the 1000Base-T physical layer transmit clock. The options are:
|
Egress Rate | The maximum amount of egress bandwidth (in kilobits per second) that this Ethernet interface can generate |
Ingress Rate | The maximum amount of ingress bandwidth (in kilobits per second) that this Ethernet interface can generate |
Ingress CBS (bytes) | Indicates the ingress committed buffer space |
Src-pause | A notification to slow down the transmission rate when it exceeds the bandwidth limit |
LACP Tunnel | Indicates whether LACP packet tunneling is enabled |
Down-when-looped | Enabled: The down-when-looped feature is enabled on the port |
Disabled: The down-when-looped feature is disabled on the port | |
Keep-alive | The time interval between keepalive PDUs transmitted toward the network during loop detection by the down-when-looped feature |
Loop Detected | Indicates whether a loop is detected on the port |
Retry | The minimum wait time before the port is re-enabled after it is brought down due to a loop detection |
Use Broadcast Addr | Indicates whether the down-when-looped feature has been configured to compare the destination MAC address of received PDUs to the broadcast MAC address instead of the MAC address of the port |
Loopback | The type of loopback configured on the port, either line, internal, or none |
Swap Mac Addr. | Indicates whether MAC address swapping is enabled |
Loopback Time Left | The number of seconds left in a timed loopback If there is no loopback configured or the configured loopback is latched, the value is unspecified. If configured loopback is persistent, the value persistent |
Cfm Loopback | Indicates whether the CFM loopback is high priority, low priority, dot1p, or disabled |
Cfm Loopback Vlan | Indicates the VLAN IDs for VLANs that have a CFM loopback enabled |
Sync. Status Msg. | Indicates whether Synchronization Status Messaging is enabled on the port |
Rx Quality Level | The Synchronization Status Messaging quality level value received on the port |
PTP Asymmetry | Indicates whether PTP asymmetry is enabled |
Edge Timestamp | Indicates whether the edge timestamp is enabled |
Timestamp Capable | Indicates whether the port is timestamp-capable |
Code-Type | The Synchronization Status Messaging quality level code type, either SONET or SDH |
Configured Address | The base chassis Ethernet MAC address |
Hardware Address | The interface hardware- or system-assigned MAC address at its protocol sublayer |
Cfg Alarm | The type of alarms to be logged and reported for the port |
Alarm Status | The current alarm state |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Ethernet Statistics | |
Broadcast Pckts | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Multicast Pckts | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent. |
Undersize Pckts | The total number of packets received that were shorter than 64 octets (excluding framing bits, but including FCS octets) but were otherwise well formed |
Oversize Pckts | The total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets) but were otherwise well formed |
Collisions | The best estimate of the total number of collisions on this Ethernet segment |
Drop Events | The total number of times that packets were detected as being dropped due to a lack of resources (not necessarily the total number of packets dropped) |
CRC/Align Errors | The total number of packets received that were between 64 and 1518 octets (excluding framing bits but including FCS octets) that 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) |
Fragments | The total number of packets received that were shorter than 64 octets (excluding framing bits but including FCS octets) that 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) |
Jabbers | The total number of packets received that were longer than 1518 octets (excluding framing bits but including FCS octets) that 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) |
Octets | Total number of octets received |
Packets | Number of packets received, broken down by size |
Port Statistics | |
Unicast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Multicast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent |
Broadcast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts |
Ethernet-like Medium Statistics | |
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 that 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 |
FCS Errors | The number of frames received that are an integral number of octets in length but do not pass the FCS check |
SQE Errors | The number of times that the SQE TEST ERROR is received |
CSE | The number of times that the carrier sense condition was lost or never asserted when attempting to transmit a frame |
Too long Frames | The number of frames received that exceed the maximum permitted frame size |
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 |
In Pause Frames | The number of IEEE 802.3x pause frames received for flow control; traffic is momentarily disrupted |
Sngl Collisions | The number of frames that are involved in a single collision, and are subsequently transmitted successfully |
Mult Collisions | The number of frames that are involved in more than one collision and are subsequently transmitted successfully |
Late Collisions | The number of times that a collision is detected later than one slotTime into the transmission of a packet |
Excess Collisns | The number of frames for which a transmission fails due to excessive collisions |
Int MAC Tx Errs | The number of frames for which a transmission fails due to an internal MAC sublayer transmit error |
Int MAC Rx Errs | The number of frames for which a reception fails due to an internal MAC sublayer receive error |
Out Pause Frames | The number of IEEE 802.3x pause frames sent for flow control; traffic is momentarily disrupted |
Ethernet CFM Loopback Statistics N/A | |
Queue Statistics | |
Egress Queue | In Profile forwarded/dropped |
Out Profile forwarded/dropped | |
Table 78: Show Port Detail Output Fields (v-port)
Label | Description |
Ethernet Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Oper Speed | The operating speed of the interface |
Link-level | Ethernet: the port is configured as Ethernet |
Config Speed | The configured speed of the interface |
Admin State | up: the port is administratively up |
down: the port is administratively down | |
Oper Duplex | The operating duplex mode of the interface |
Oper State | up: the port is operationally up |
down: the port is operationally down | |
Config Duplex | full: the link is configured to full-duplex mode |
half: the link is configured to half-duplex mode | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
MTU | The size of the largest packet that can be sent/received on the Ethernet physical interface, specified in octets |
Single Fiber Mode | Yes: single fiber mode |
No: not single fiber mode | |
IfIndex | The interface’s index number, which reflects its initialization sequence |
Hold time up | The link-up dampening time in seconds The port link dampening timer value that reduces the number of link transitions reported to upper layer protocols |
Last State Change | The last time that the operational status of the port changed state |
Hold time down | The link-down dampening time in seconds. The down timer controls the dampening timer for link down transitions. |
Configured Mode | network: the port is configured for transport network use |
access: the port is configured for service access | |
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 | |
null&dot1q: applies only to port 1 and port 2 on the 2-port 10GigE (Ethernet) Adapter card and 2-port 10GigE (Ethernet) module. The encapsulation type for these ports is not user-configurable. | |
Dot1Q Ethertype | The protocol carried in a dot1q Ethernet frame |
QinQ Ethertype | The protocol carried in a QinQ Ethernet frame |
Ing. Pool % Rate | The amount of ingress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for ingress buffering |
Egr. Pool % Rate | The amount of egress buffer space, expressed as a percentage of the available buffer space, that will be allocated to the port for egress buffering |
Net. Egr. Queue Pol. | The number of the associated network egress queue QoS policy, or default if the default policy is used |
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 | |
Net. Scheduler Mode | The mode for servicing CoS queues; 16-priority scheduling is the only supported value |
MDI/MDX | Ethernet type |
Config Phy-tx-clock | The mode used to establish timing control of a 1000Base-T port. The options are:
|
Oper Phy-tx-clock | The operational value of the master-slave relationship of the 1000Base-T physical layer transmit clock. The options are:
|
Allow Eth-BN | Indicates whether Ethernet Bandwidth Notification (ETH-BN) is allowed on the port: True or False |
BN Egr.Rate in use | The egress rate in use based on the request from the ETH-BN server MEP |
Eth-BN hold time | The configured hold time (in seconds) between an egress rate change based on a received Bandwidth Notification Message (BNM) and the next change request that will be accepted |
Egress Rate | The maximum amount of egress bandwidth (in kilobits per second) that this Ethernet interface can generate |
Ingress Rate | The maximum amount of ingress bandwidth (in kilobits per second) that this Ethernet interface can generate |
Ingress CBS (bytes) | Indicates the ingress committed buffer space |
Src-pause | A notification to slow down the transmission rate when it exceeds the bandwidth limit |
LACP Tunnel | Indicates whether LACP packet tunneling is enabled |
Down-when-looped | Enabled: The down-when-looped feature is enabled on the port |
Disabled: The down-when-looped feature is disabled on the port | |
Keep-alive | The time interval between keepalive PDUs transmitted toward the network during loop detection by the down-when-looped feature |
Loop Detected | Indicates whether a loop is detected on the port |
Retry | The minimum wait time before the port is re-enabled after it is brought down due to a loop detection |
Use Broadcast Addr | Indicates whether the down-when-looped feature has been configured to compare the destination MAC address of received PDUs to the broadcast MAC address instead of the MAC address of the port |
Loopback | The type of loopback configured on the port, either line, internal, or none |
Swap Mac Addr. | Indicates whether MAC address swapping is enabled |
Loopback Time Left | The number of seconds left in a timed loopback If there is no loopback configured or the configured loopback is latched, the value is unspecified. If configured loopback is persistent, the value persistent |
Cfm Loopback | Indicates whether the CFM loopback is high priority, low priority, dot1p, or disabled |
Sync. Status Msg. | Indicates whether Synchronization Status Messaging is enabled on the port |
Rx Quality Level | The Synchronization Status Messaging quality level value received on the port |
PTP Asymmetry | Indicates whether PTP asymmetry is enabled |
Edge Timestamp | Indicates whether the edge timestamp is enabled |
Timestamp Capable | Indicates whether the port is timestamp-capable |
CRC Mon SD Thresh | Indicates the CRC signal degrade threshold value (1 to 9), if enabled |
CRC Mon SF Thresh | Indicates the CRC signal fail threshold value (1 to 9), if enabled |
CRC Mon Window | Indicates the CRC window sampling size value (5 to 60) |
Configured Address | The base chassis Ethernet MAC address |
Hardware Address | The interface hardware- or system-assigned MAC address at its protocol sublayer |
Cfg Alarm | The type of alarms to be logged and reported for the port |
Alarm Status | The current alarm state |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Ethernet Statistics | |
Broadcast Pckts | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Multicast Pckts | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent. |
Undersize Pckts | The total number of packets received that were shorter than 64 octets (excluding framing bits, but including FCS octets) but were otherwise well formed |
Oversize Pckts | The total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets) but were otherwise well formed |
Collisions | The best estimate of the total number of collisions on this Ethernet segment |
Drop Events | The total number of times that packets were detected as being dropped due to a lack of resources (not necessarily the total number of packets dropped) |
CRC/Align Errors | The total number of packets received that were between 64 and 1518 octets (excluding framing bits but including FCS octets) that 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) |
Fragments | The total number of packets received that were shorter than 64 octets (excluding framing bits but including FCS octets) that 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) |
Jabbers | The total number of packets received that were longer than 1518 octets (excluding framing bits but including FCS octets) that 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) |
Octets | Total number of octets received |
Packets | Number of packets received |
Packets of n Octets | Number of packets received, broken down by size |
Port Statistics | |
Unicast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Multicast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent |
Broadcast Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts |
Port Discard Statistics | |
Inv L2 Packets Input | The number of invalid packets that are discarded due to an unknown Layer 2 ID |
Port MTU Exceeded Output | Indicates that the port MTU has been exceeded |
Inv MPLS Labels Input | The number of MPLS labels discarded |
Inv IP Packets Input | The number of invalid IP packets that are discarded |
H. Policed Packets Input | The number of packets that are discarded due to hard policing |
CSM Ingress Queues Input | The number of incoming control packets discarded |
CSM Egress Queues Output | The number of outgoing control packets discarded |
Ethernet-like Medium Statistics | |
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 that 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 |
FCS Errors | The number of frames received that are an integral number of octets in length but do not pass the FCS check |
SQE Errors | The number of times that the SQE TEST ERROR is received |
CSE | The number of times that the carrier sense condition was lost or never asserted when attempting to transmit a frame |
Too long Frames | The number of frames received that exceed the maximum permitted frame size |
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 |
In Pause Frames | The number of IEEE 802.3x pause frames received for flow control; traffic is momentarily disrupted |
Sngl Collisions | The number of frames that are involved in a single collision, and are subsequently transmitted successfully |
Mult Collisions | The number of frames that are involved in more than one collision and are subsequently transmitted successfully |
Late Collisions | The number of times that a collision is detected later than one slotTime into the transmission of a packet |
Excess Collisns | The number of frames for which a transmission fails due to excessive collisions |
Int MAC Tx Errs | The number of frames for which a transmission fails due to an internal MAC sublayer transmit error |
Int MAC Rx Errs | The number of frames for which a reception fails due to an internal MAC sublayer receive error |
Out Pause Frames | The number of IEEE 802.3x pause frames sent for flow control; traffic is momentarily disrupted |
Ethernet CFM Statistics | |
Cfm LbmRx | The number of LBMs received |
Cfm LbReplyTx | The number of LBRs transmitted |
Cfm LbmDropped | The number of LBMs dropped |
Num Bn Rate Chng | The number of times that the port egress rate is dynamically changed based on Bandwidth Notification (BN) messages Note: not every bandwidth change indicated by a BNM triggers a port egress rate change |
Last BnRateChng | The time that the port egress rate was last changed based on a BNM |
Valid BnmRx | The number of valid BN messages received |
Last Valid BnmRx | The time that the last valid BNM was received |
Invalid BnmRx | The number of invalid BN messages received |
BnmOutOfRangeBW | The number of BN messages received with a requested bandwidth that was out of range |
Queue Statistics | |
Add-drop Port Queue | In Profile forwarded/dropped |
Out Profile forwarded/dropped | |
Ingress Queue | In Profile forwarded/dropped |
Out Profile forwarded/dropped | |
Ingress Queue CTL | The number of forwarded packets and octets, and the number of dropped packets, for the ingress control queue. For access ports, this statistic applies only to Ethernet cards. For network ports, this statistic applies to all adapter cards. |
Egress Queue | In Profile forwarded/dropped |
Out Profile forwarded/dropped | |
Egress Queue CTL | The number of forwarded packets and octets, and the number of dropped packets, for the egress control queue. For access ports, this statistic applies only to Ethernet cards. For network ports, this statistic applies to all adapter cards. |
Table 79: Show Port Detail Output Fields (TDM DS1 Interface)
Label | Description |
TDM DS1 Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Type | The type of interface |
Admin Status | up: the port is administratively up |
down: the port is administratively down | |
Physical Link | yes: a physical link is present |
no: a physical link is not present | |
Signal Mode | The port signaling mode |
Last State Change | The last time that the operational status of the port changed state |
Loopback | The port loopback mode |
Remote Loop respond | The DS1 channel response to remote loopbacks |
Load-balance-algo | The load balance algorithm used on the port |
Cfg Alarm | The type of alarms to be logged and reported for the port |
Alarm Status | The current alarm state |
Hold time up | The hold-timer value for link-up event dampening |
Hold time down | The hold-timer value for link-down event dampening |
Sync. Status Msg. | The setting of SSM: enabled or disabled |
Tx DUS/DNU | The setting of tx-dus: enabled or disabled |
Ssm-bit | The Sa bit that carries the quality level value: Sa4 to Sa8 |
Rx Quality Level | The SSM QL value received on the interface |
Tx Quality Level | The SSM QL value transmitted on the interface |
Framing | The DS1 framing to be used for the port |
Oper Status | up: the port is operationally up |
down: the port is operationally down | |
Clock Source | loop-timed: the link recovers the clock from the received data stream node-timed: the link uses the internal clock when transmitting data adaptive: clocking is derived from the incoming pseudowire packets differential: clocking is derived from a common clock compared to differential clock recovery data in the RTP header in the TDM PW overhead |
Clock Sync State | The current state of the clock recovery function |
Channel IfIndex | The channel interface index number |
In Remote Loop | Indicates whether incoming remote loopback is enabled |
Egr. Sched. Pol | The egress scheduling policy |
BER SD Threshold | The configured value of the BER SD threshold |
BER SF Threshold | The configured value of the BER SF threshold |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
DS1/E1 Line | The DS1/E1 Line statistics |
ES | The number of Errored Seconds errors |
SES | The number of Severely Errored Seconds errors |
SEFS | The number of Severely Errored Framing Seconds errors |
UAS | The number of Unavailable Seconds errors |
CSS | The number of Controlled Slip Seconds errors |
PCV | The number of Path Code Violations errors |
LES | The number of Line Errored Seconds errors |
BES | The number of Bursty Errored Seconds alarms |
LCV | The number of Line Code Violations errors |
Transmit | The transmit statistics: FE-LOF: the number of far-end loss of frame errors AIS: the number of alarm indication signal errors |
Receive | The receive statistics: FE-LOF: the number of far-end loss of frame errors AIS: the number of alarm indication signal errors LOS: the number of loss of signal errors LOF: the number of loss of frame errors |
Looped | The number of looped packet errors |
DS1/E1 CAS Signalling Bits | The CAS signaling bit information |
Timeslot | The timeslot number (1 to 24 for DS1, 2 to 32 for E1) |
Rx ABCD | The signaling bits received in the timeslot, where each signaling bit is represented by a 1 (set) or a 0 (not set), and 0000 represents a timeslot that is in use but not receiving any signaling bits (for example, 1000 means that the A bit is set); “n/a” indicates timeslots not in use |
Tx ABCD | The signaling bits transmitted from the timeslot, where each signaling bit is represented by a 1 (set) or a 0 (not set), and 0000 represents a timeslot that is in use but not transmitting any signaling bits (for example, 1000 means that the A bit is set); “n/a” indicates timeslots not in use |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast, multicast, or broadcast address at this sublayer |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts. |
The following output is an example of raw socket statistics.
Table 80: Show Port Serial Channel Output Fields
Label | Description |
Serial RS-232 Interface | |
Description | The description of the port |
Interface | The port ID displayed in the slot/mda/port.channel format |
Type | The type of serial interface |
Admin Status | up: the administrative state is up down: the administrative state is down |
Oper Status | up: the operational state is up down: the operational state is down |
Physical Link | yes: a physical link is present no: a physical link is not present |
Clock Source | The source of the transmit clock: On the 12-port Serial Data Interface card, version 1 and version 2: slave On the 12-port Serial Data Interface card, version 3: For RS-232 and RS-530 interfaces: external, slave, dcr-serial For V.35 and X.21 interfaces: external, slave |
Device Mode | The operational mode of the device, either synchronous (the device transmits data continuously based on timing) or asynchronous (the device transmits data one character at a time) Asynchronous mode is supported only on channels with subrate speeds of 38 400 b/s or less RS-232, RS-530, and X.21 channels support synchronous and asynchronous modes (RS-530 channels are only supported on the 12-port Serial Data Interface card, version 3) V.35 channels support synchronous mode only |
Speed | The speed of the interface:
|
Character Length | The number of data bits used to transmit a character; for asynchronous devices only |
Parity | The parity bit in a character; for asynchronous devices only |
Stop Bits | The number of stop bits used signify the end of a character; for asynchronous devices only |
Multi-Drop | The MDDB mode; supported on RS-232 and X.21 synchronous or asynchronous links, and on RS-530 asynchronous links (RS-530 links are only supported on the 12-port Serial Data Interface card, version 3): disabled: MDDB mode is off slave: device operates as an MDDB slave device master: device operates as an MDDB master device |
Device Gender | The gender of the device: dce: the device is performing the role of the data communications equipment dte: the device is performing the role of the data terminal equipment |
Duplex | The duplex mode: half: single transmission path (supported only if multidrop data bridge is enabled in slave mode) full: two independent transmission paths, one in each direction |
Data Position | The HCM data start position; applies to RS-232, RS-530, and X.21 interfaces only (RS-530 interfaces are only supported on the 12-port Serial Data Interface card, version 3) |
S-Bit-Signaling | Indicates whether S-bit signaling is turned on or off; applies to RS-232, RS-530, and X.21 interfaces only (RS-530 interfaces are only supported on the 12-port Serial Data Interface card, version 3) |
Last State Change | The last time the operational status of the port changed state |
Channel IfIndex | The channel group index number |
Loopback | The loopback mode for the port or channel: bidir-b: bidirectional loopback B takes place on the control card (CSM) side of the adapter card and is closer to the system (not supported on the 12-port Serial Data Interface card, version 3) bidir-e: bidirectional loopback E takes place on the data device side of the adapter card and is closer to the line none: there is no loopback done at the associated port or channel |
Hold time up | The hold-timer value for link-up event dampening |
Hold time down | The hold-timer value for link-down event dampening |
Cfg Alarm | The HCM alarms to be reported for RS-232, RS-530, or X.21 interfaces (RS-530 interfaces are only supported on the 12-port Serial Data Interface card, version 3): hcmOof: local HCM out-of-frame errors are raised and cleared hcmRai: HCM remote alarm indication events are raised and cleared |
Alarm Status | The current alarm status |
Serial Control Leads (The input and output leads, which carry control signals) | |
Inputs | The input control leads |
dtr-dsr | The Data Terminal Ready/Data Set Ready input control lead (applicable only for RS-232, RS-530, and V.35 interfaces; RS-530 interfaces are only supported on the 12-port Serial Data Interface card, version 3) |
rts-dcd | The Request To Send/Data Carrier Detect input control lead (applicable only for RS-232, RS-530, and V.35 interfaces; RS-530 interfaces are only supported on the 12-port Serial Data Interface card, version 3) |
ll-tm | The Local Loopback/Test Mode input control lead (only supported on RS-530 interfaces on the 12-port Serial Data Interface card, version 3) |
rl-cts | The Remote Loopback/Clear To Send input control lead (only supported on RS-530 interfaces on the 12-port Serial Data Interface card, version 3) |
alb-cts | The Analog Loopback/Clear To Send input control lead (applicable only for RS-232 and V.35 interfaces) Not supported on the 4-port T1/E1 and RS-232 Combination module |
rdl-ri | The Remote Digital Loopback/Ring Indicator input control lead (applicable only for RS-232 interfaces) Not supported on the 4-port T1/E1 and RS-232 Combination module |
c-i | The Control/Indication input control lead (applicable only for X.21 interfaces) |
Cfg | The configuration of the input signaling leads:
|
Outputs | The output control leads |
dsr-dtr | The Data Set Ready/Data Terminal Ready output control lead (applicable only for RS-232, RS-530, and V.35 interfaces; RS-530 interfaces are only supported on the 12-port Serial Data Interface card, version 3) Not supported on the 4-port T1/E1 and RS-232 Combination module |
dcd-rts | The Data Carrier Detect/Request To Send output control lead (applicable only for RS-232, RS-530, and V.35 interfaces; RS-530 interfaces are only supported on the 12-port Serial Data Interface card, version 3) |
cts-alb | The Clear To Send/Analog Loopback output control lead (applicable only for RS-232 and V.35 interfaces) |
ri-rdl | The Ring Indicator/Remote Digital Loopback output control lead (applicable only for RS-232 interfaces) |
cts-rl | The Clear To Send/Remote Loopback output control lead (only supported on RS-530 interfaces on the 12-port Serial Data Interface card, version 3) |
tm-ll | The Test Mode/Local Loopback output control lead (only supported on RS-530 interfaces on the 12-port Serial Data Interface card, version 3) |
i-c | The Indication/Control output control lead (applicable only for X.21 interfaces) |
Cfg | The configuration of the output signaling leads:
|
Netw | The value that indicates the current states of the input and output control leads. These values are transported over the network; therefore, are referred to as network-side values:
|
Line | The value that indicates the current signal levels of the input and output control leads connected to the attached CPE. These values are signaled over the (physical) line; therefore, are referred to as line-side values:
|
Mon | Indicates whether monitoring is enabled (on) or disabled (off) for the control lead; applies to input control leads only |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
Serial Socket | |
Description | The configured port type |
Interface | The interface ID displayed in the format slot/mda/port.channel |
Admin Status | The administrative status of the port, either up or down |
Oper status | The operational status of the port, either up or down |
Last State Change | The last time the operational status of the channel changed state |
Socket IfIndex | The socket index number |
Configured mode | The port mode (serial raw sockets support access mode only) |
Encap Type | The encapsulation type of the port (serial raw sockets support encapsulation type raw only) |
Physical Link | Indicates whether a physical link is present |
EOP Length | The number of characters (in bytes) that trigger sending an IP transport packet when end of packet is declared |
Squelch Delay | Indicates whether squelch delay is enabled or disabled |
EOP Idle Timeout | The limit, in milliseconds, that a queued packet can remain idle before an end of packet is declare |
Unsquelch Delay | Indicates whether unsquelch delay is enabled or disabled |
EOP Special Char | Indicates whether the sending of a special character that declares end of packet is enabled or disabled |
Inter-Session Delay | The time delay, in milliseconds, between transmission of a session’s data over a serial port and the transmission of the next queued session’s data |
Squelch Status | Indicates whether squelch is enabled (on) or disabled (off) |
Socket Statistics | |
Characters received | The number of data characters received |
Characters transmitted | The number of data characters sent |
End of packet idle timeout | The number of times that end of packet has been declared due to an EOP idle timeout |
End of packet length | The number of times that an IP transport packet was sent due to the EOP packet length being exceeded |
End of packet special character | The number of times that end of packet has been declared due to an EOP special character being sent |
Ingress forwarded packets | The number of ingress forwarded packets |
Egress forwarded packets | The number of egress forwarded packets |
Ingress dropped packets | The number of ingress dropped packets |
Egress dropped packets | The number of egress dropped packets |
Squelch activated | The number of times that squelch was activated |
Table 81: Show Port Voice Channel Output Fields
Label | Description |
Voice Interface | |
Description | The description of the port |
Interface | The port ID displayed in the slot/mda/port.channel format |
Type | The type of voice interface |
Admin Status | up: the administrative state is up |
down: the administrative state is down | |
Oper Status | up: the operational state is up |
down: the operational state is down | |
Physical Link | yes: a physical link is present |
no: a physical link is not present | |
Clock Source | node-timed: the link uses the internal clock when transmitting data |
Signaling Mode | The signaling mode used by the interface, either em or transmission-only |
Signal Mode | The network signaling transport scheme, either cas for em signaling or none for transmission-only signaling |
Fault Signaling | The type of fault signaling used by the channel, either idle or seized |
Idle Code | The ABCD signaling code to be transmitted when the channel is configured to transmit idle fault signaling |
Seized Code | The ABCD signaling code to be transmitted when the channel is configured to transmit seized fault signaling |
Last State Change | The last time the operational status of the channel changed state |
Channel IfIndex | The channel index number |
Loopback | The loopback mode for the channel: internal-analog, internal-digital, or none |
Voice E&M Signaling Leads | |
Inputs | The type of input signaling lead (M-lead), shown only if the signaling mode is E&M |
Cfg | The configuration of the input signaling lead: |
high: (the input signaling lead is assumed on) | |
low: (the input signaling lead is assumed off) | |
end-to-end: (the input signaling lead follows that of the remote end) | |
Scans | The current scanned value of the input lead, which can either be 0 (idle) or 1 (seized) |
Outputs | The type of output lead (E-lead), shown only if the signaling mode is E&M |
Cfg | The configuration of the output signaling lead: |
high: (the output signaling lead is forced on) | |
low: (the output signaling lead is forced off) | |
end-to-end: (the output signaling lead follows that of the remote end) | |
Drives | The current value set on the output lead, which can either be 0 (idle) or 1 (seized) |
Voice Signalling Bits | |
DS0 | The number of DS0 voice signaling bits |
Rx ABCD | The signaling bits received from the network side |
Tx ABCD | The signaling bits transmitted to the network side |
Voice Call Usage Statistics | |
The state of the channel (non-forwarding, out-of-service, idle, incoming, or outgoing), and voice call usage statistics Note: Non-forwarding means that the channel is in shutdown mode or has no SAP configured; incoming means that the call was received by the channel; outgoing means that the call was originated by the channel
Note: The only valid statistics for transmission-only mode are Idle Time and Out Of Service Time. When the system is in transmission-only mode and in a forwarding state, there is no signaling. To show that the system is active (that is, not in an out-of-service state) the “Idle Time” counter is incremented. This is a design intent. | |
Traffic Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
Table 82: Show Port Channel Group Output Fields
Label | Description |
Description | A text description of the port |
Interface | The port ID displayed in the format slot/mda/port.channel-group-id |
Timeslots | The number of timeslots that are part of this channel group |
Speed | The speed of the interface |
CRC | The checksum used for the channel group (16 or 32) |
Admin Status | Up: the port is administratively up |
Down: the port is administratively down | |
BER SF Link Down | Indicates whether BER SF Link Down is enabled |
Oper Status | Up: the port is operationally up |
Down: the port is operationally down | |
Remote Loop respond | Indicates whether the channel will respond to requests for remote loopbacks |
Cfg Alarm | Indicates the alarms configured |
Last State Change | The last time the operational status of the port changed state |
Chan Grp IfIndex | The channel group index number |
Channel IfIndex | The channel interface index number |
Loopback | The type of loopback configured on the channel group: line, internal, or none |
Configured Mode | network: the port is configured for transport network use |
access: the port is configured for service access | |
Encap Type | The encapsulation type for the channel group (atm, cem, ipcp, ppp-auto, hdlc, or cisco-hdlc) |
Admin MTU | The configured MTU |
Oper MTU | The negotiated size of the largest packet that can be sent on the port or channel specified in octets |
Scramble | Indicates whether payload scrambling is enabled on channel groups (only applicable if encap type is atm) |
Hold time up | The hold-timer value for link-up event dampening |
Hold time down | The hold-timer value for link-down event dampening |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Bundle Number | The number assigned to the multilink bundle |
Idle Cycle Flags | The value transmitted by the DS0, DS1, or E1 interface during idle cycles |
Clock Source | loop-timed: the link recovers the clock from the received data stream node-timed: the link uses the internal clock when transmitting data adaptive: clocking is derived from the incoming pseudowire packets |
Payload Fill Type | The payload type to be transmitted when the circuit emulation service is not operational or temporarily experiences underrun conditions (only valid for CESoPSN services) |
Payload Pattern | The user-defined pattern transmitted if the payload fill type is pattern |
Signal Fill Type | The signaling type to be transmitted when the circuit emulation service is not operational or temporarily experiences underrun conditions (only valid for CESoPSN with CAS) |
Signal Pattern | The user-defined pattern transmitted if the payload fill type is pattern |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that 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. |
Table 83: Show Port Channelized DS3 Output Fields
Label | Description |
Description | A text description of the port |
Interface | The port ID displayed in the format slot/mda/port.channel-group-id |
Type | The type of interface |
Timeslots | The number of timeslots that are part of this channel group |
Speed | The speed of the interface |
CRC | The checksum used for the channel group (16 or 32) |
Admin Status | Up: the port is administratively up |
Down: the port is administratively down | |
Oper Status | Up: the port is operationally up |
Down: the port is operationally down | |
Last State Change | The last time the operational status of the port changed state |
Chan Grp IfIndex | The channel group index number |
Configured Mode | network: the port is configured for transport network use |
access: the port is configured for service access | |
Encap Type | The encapsulation type for the channel group (atm, cem, ipcp, ppp-auto) |
Admin MTU | The configured MTU |
Oper MTU | The negotiated size of the largest packet that can be sent on the port or channel specified in octets |
Scramble | Indicates whether payload scrambling is enabled on channel groups (only applicable if encap type is atm) |
CRC | Indicates 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 |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Idle Cycle Flags | The value transmitted by the DS0, DS1, or E1 interface during idle cycles |
FEAC Loop Respond | Indicates whether the associated DS3 interface can respond to remote loop signals |
Cfg Alarm | The alarms that have alarm reporting enabled |
Alarm Status | The current alarm state (for example, stray, malformed, packet loss, overrun, underrun, remote packet loss, remote fault, or remote RDI) |
Framing | The DS3 framing mode |
Clock Source | loop-timed: the link recovers the clock from the received data stream node-timed: the link uses the internal clock when transmitting data adaptive: clocking is derived from the incoming pseudowire packets |
Port IfIndex | The interface’s index number, which reflects its initialization sequence |
oper MTU | The negotiated size of the largest packet that can be sent on the port or channel specified in octets |
Channelized | The level of channelization on the port |
Loopback | The port loopback mode |
In FEAC Loop | The remote loopback state |
Local MDL Information | The MDL strings sent by the near end |
Far End MDL Information | The MDL strings received from the far end |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that 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. |
Table 84: Show Port Clear Channel DS3 Output Fields
Label | Description |
Description | A text description of the port |
Interface | The port ID displayed in the format slot/mda/port |
Port IfIndex | The interface’s index number, which reflects its initialization sequence |
Admin Status | Up: the port is administratively up |
Down: the port is administratively down | |
Oper Status | Up: the port is operationally up |
Down: the port is operationally down | |
Physical Link | Yes: a physical link is present |
No: a physical link is not present | |
Type | The type of interface |
Buildout | The line buildout (cable length) for the DS3 physical interface |
Hardware Address | The port’s hardware address |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that 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. |
Table 85: Show Port ACR Detail Output Fields
Label | Description |
Adaptive Clock Recovery (ACR) Configuration | |
Clock Master PW | The SAP being used by the port for recovering the clock |
Clock Sync State | The current state of the ACR adaptive algorithm |
CEM SAP Configuration Information | |
Endpoint Type | The type of endpoint |
Bit-rate | The number of DS0s or timeslots in the channel group |
Payload Size | The number of octets contained in the payload of a TDM PW packet when the packet is transmitted |
Jitter Buffer | The size of the receive jitter buffer, expressed in milliseconds |
Use RTP Header | Indicates whether RTP headers are used in CES packets (Yes or No) |
CAS Framing | The type of CAS framing |
Effective PDVT | The peak-to-peak packet delay variation (PDV) used by the circuit emulation service Since the operating system may adjust the jitter buffer setting in order to ensure no packet loss, the configured jitter buffer value may not be the value used by the system. The effective PDVT provides an indication that the PDV has been adjusted by the operating system. |
Cfg Alarm | The alarms that have alarm reporting enabled |
Alarm Status | The current alarm state (for example, stray, malformed, packet loss, overrun, underrun, remote packet loss, remote fault, or remote RDI) |
Internal Digital Phase Locked Loop (DPLL) Statistics | |
ACR DPLL Statistics | frequency offset mean: the ACR frequency offset mean for the previous 15 sets of 60-s intervals |
frequency offset stddev: the ACR frequency offset standard deviation for the previous 15 sets of 60-s intervals | |
phase error mean: the ACR input phase error mean and output DCO mean for the previous 15 sets of 60-s intervals | |
phase error stddev: the ACR input phase error standard deviation and output DCO standard deviation for the previous 15 sets of 60-s intervals | |
ACR State Statistics | |
Algorithm State Counts | normal: the number of 2-s intervals the ACR algorithm was in the normal state |
Phase-tracking: the number of 2-s intervals the ACR algorithm was in the phase-tracking state | |
Freq-tracking: the number of 2-s intervals the ACR algorithm was in the frequency tracking state | |
Holdover: the number of 2-s intervals the ACR algorithm was in the holdover state | |
Free-run: the number of 2-s intervals the ACR algorithm was in the free-run state | |
Events | ACR Calc Out of Range: the number of times the ACR algorithm was internally reset |
Prolonged ACR failure: the number of times the ACR algorithm was in the phase-tracking or holdover state for an extended period of time | |
Excessive Packet Loss: increments every 2-second interval that ACR is in the phase-tracking state and the tolerated packet loss threshold is exceeded | |
Excessive Phase Shift: increments each time the ACR algorithm transitions to the phase-tracking state from normal as a result of a phase shift above the tolerated shift level | |
Table 86: Show Port dot1x Output Fields
Label | Description |
802.1x Port Status | |
Port control | auto: the 802.1x authentication mode is configured as automatic. The port starts in an unauthorized state and stays in that state until the first supplicant is authenticated successfully. |
force-auth: 802.1 authentication is disabled and the port is automatically authorized | |
force-unauth: the port will always remain in the unauthorized state | |
Port status | authorized: the 802.1 port is authorized |
unauthorized: the 802.1 port is unauthorized | |
Authenticator PAE state | auto: the authenticator is set to the unauthorized state |
force-auth: the authenticator is set to the authorized state | |
force-unauth: the authenticator is set to the unauthorized state | |
Backend state | request: the backend authentication machine is in the request state |
response: the backend authentication machine is in the response state | |
success: the backend authentication machine is in the success state | |
fail: the backend authentication machine is in the fail state | |
timeout: the backend authentication machine is in the timeout state | |
idle: the backend authentication machine is in the idle state | |
initialize: the backend authentication machine is in the initialize state | |
Reauth enabled | Indicates whether reauthentication is enabled |
Max auth requests | The maximum number of authentication requests the 7705 SAR sends to the RADIUS server before declaring the port unauthorized |
Supplicant timeout | The number of seconds the 7705 SAR waits for a client to respond to an EAPOL message before considering the 802.1x authentication to have failed |
Quiet period | The period, in seconds, between two authentication sessions during which no EAPOL frames are sent by the 7705 SAR |
Radius-plcy | The name of the RADIUS policy used for 802.1x authentication |
Reauth period | The delay, in seconds, before the 7705 SAR attempts reauthentication |
Transmit period | The time, in seconds, that the 7705 SAR waits before sending a new EAPOL message |
Server timeout | The time, in seconds, that the 7705 SAR waits for the RADIUS server to respond to the access request message before resending the request message the number of times specified by the max-auth-req command |
802.1x Session Statistics | |
authentication method | remote-radius: the authentication method used to establish the session |
last session id | A unique identifier for the session, in the form of a printable ASCII string of at least three characters |
last session time | The duration of the session in seconds |
last session username | The username representing the identity of the supplicant PAE |
last session term cause | The reason for the session termination: supplicantLogoff: the supplicant logged off |
portFailure: there was a port failure | |
supplicantRestart: the supplicant state machine reinitialized | |
reauthFailed: the reauthentication attempt failed | |
authControlForceUnauth: the authentication mode was changed to always force unauthorized after being authorized | |
portReInit: the port was reinitialized | |
portAdminDisabled: the port was administratively disabled | |
notTerminatedYet: the session has not been terminated | |
user tx octets | The number of octets transmitted in user data frames on this port during the session |
user rx octets | The number of octets received in user data frames on this port during the session |
user tx frames | The number of user data frames transmitted on this port during the session |
user rx frames | The number of user data frames received on this port during the session |
802.1x Authentication Statistics | |
tx frames | The number of EAPOL frames of any type that have been transmitted by this authenticator |
tx req/id frames | The number of EAP-Request/ID frames that have been transmitted by this authenticator |
tx request frames | The number of EAP request frames (other than Request/ID frames) that have been transmitted by this authenticator |
rx start frames | The number of EAPOL-Start frames that have been received by this authenticator |
rx unknown frame type | The number of EAPOL frames that have been received by this authenticator in which the frame type is not recognized |
rx last version | The protocol version number carried in the most recently received EAPOL frame |
rx frames | The number of valid EAPOL frames of any type that have been received by this authenticator |
rx resp/id frames | The number of EAP-Response/ID frames that have been received by this authenticator |
rx response frames | The number of valid EAP response frames (other than Resp/ID frames) that have been received by this authenticator |
rx logoff frames | The number of EAP-Logoff frames that have been received by this authenticator |
rx bad eap length | The number of EAPOL frames that have been received by this authenticator in which the packet body length field is invalid |
rx last source mac | The source MAC address carried in the most recently received EAPOL frame |
802.1x Authentication Diagnostics | |
Enters Connecting | Counts the number of times that the state machine transitions to the CONNECTING state from any other state |
EapLogoffs While Connecting | Counts the number of times that the state machine transitions from CONNECTING to DISCONNECTED as a result of receiving an EAPOL-logoff message |
Success While Authenticating | Counts the number of times that the state machine transitions from AUTHENTICATING to AUTHENTICATED, as a result of the backend authentication state machine indicating successful authentication of the supplicant (authSuccess = TRUE) |
Timeouts While Authenticating | Counts the number of times that the state machine transitions from AUTHENTICATING to ABORTING, as a result of the backend authentication state machine indicating authentication timeout (authTimeout = TRUE) |
Failures While Authenticating | Counts the number of times that the state machine transitions from AUTHENTICATING to HELD, as a result of the backend authentication state machine indicating authentication failure (authFail = TRUE) |
Reauths While Authenticating | Counts the number of times that the state machine transitions from AUTHENTICATING to ABORTING, as a result of a reauthentication request (reAuthenticate = TRUE) |
EapStarts While Authenticating | Counts the number of times that the state machine transitions from AUTHENTICATING to ABORTING, as a result of an EAPOL-Start message being received from the supplicant |
EapLogoffs While Authenticating | Counts the number of times that the state machine transitions from AUTHENTICATING to ABORTING, as a result of an EAPOL-Logoff message being received from the supplicant |
Reauths While Authenticated | Counts the number of times that the state machine transitions from AUTHENTICATED to CONNECTING, as a result of a reauthentication request (reAuthenticate = TRUE) |
EapStarts While Authenticated | Counts the number of times that the state machine transitions from AUTHENTICATED to CONNECTING, as a result of an EAPOL-Start message being received from the supplicant |
EapLogoffs While Authenticated | Counts the number of times that the state machine transitions from AUTHENTICATED to DISCONNECTED, as a result of an EAPOL-Logoff message being received from the supplicant |
Backend Responses | Counts the number of times that the state machine sends an initial Access-Request packet to the authentication server (that is, executes sendRespToServer on entry to the RESPONSE state) Indicates that the authenticator attempted communication with the authentication server |
Backend Access Challenges | Counts the number of times that the state machine receives an initial Access-Challenge packet from the authentication server (that is, aReq becomes TRUE, causing an exit from the RESPONSE state) Indicates that the authentication server has communication with the authenticator |
Backend Requests To Supplicant | Counts the number of times that the state machine sends an EAP-Request packet (other than an Identity, Notification, Failure, or Success message) to the supplicant (that is, executes txReq on entry to the REQUEST state) Indicates that the authenticator chose an EAP-method |
Backend Non Nak Responses | Counts the number of times that the state machine receives a response from the supplicant to an initial EAP-Request, and the response is something other than EAP-NAK (that is, rxResp becomes TRUE, causing the state machine to transition from REQUEST to RESPONSE, and the response is not an EAP-NAK) Indicates that the supplicant can respond to the authenticator's chosen EAP-method |
Backend Auth Successes | Counts the number of times that the state machine receives an EAP-Success message from the authentication server (that is, aSuccess becomes TRUE, causing a transition from RESPONSE to SUCCESS) Indicates that the supplicant has successfully authenticated to the authentication server |
Backend Auth Failures | Counts the number of times that the state machine receives an EAP-Failure message from the authentication server (that is, aFail becomes TRUE, causing a transition from RESPONSE to FAIL) Indicates that the supplicant has not authenticated to the authentication server |
Table 87: Show Port Description Output Fields
Label | Description |
Port Id | The port identifier |
Description | A text description of the port |
Table 88: Show Port Associations Output Fields
Label | Description |
Router/ServiceId | The service identifier |
Name | The name of the IP interface |
Encap Val | The dot1q, null, or qinq encapsulation value on the port for this IP interface |
Table 89: Show Port IMA Link Output Fields
Label | Description |
State Information | |
Transmit Link Identifier | The identifier of the IMA link used to transmit data |
Receive Link Identifier | The identifier of the IMA link used to receive data |
Near Rx Failure State | The failure state of the near-end receive link |
Far End Rx Failure State | The failure state of the far-end receive link |
Near End Tx State | The state of the near-end transmit link |
Near End Rx State | The state of the near-end receive link |
Far End Tx State | The state of the far-end transmit link |
Far End Rx State | The state of the far-end receive link |
Link Test State | The state of the link test procedure: Enabled or Disabled |
Rx Test Pattern | The received test pattern in an IMA link loopback operation (0 to 255) |
TC Sublayer Information | |
TC Alarm State | The alarm state for the traffic class of the IMA link |
HEC Errors (Dropped) | The number of HEC errors resulting in dropped packets |
Number OCD Events | The number of OCD events |
HEC Errors (Fixed) | The number of HEC errors fixed |
Statistical Information | |
Num Violations | The number of violations (path, line, code, and length) |
NE Severely Err. Seconds | The number of near-end severely errored seconds |
NE Unavail. Seconds | The number of seconds that the near end has been unavailable |
NE Tx Unused Seconds | The number of seconds that the near-end transmit link has been unused |
NE Rx Unused Seconds | The number of seconds that the near-end receive link has been unused |
NE Tx Num Failures | The number of near-end transmit link failures |
FE Tx Num Failures | The number of far-end transmit link failures |
Tx ICP Cell count | The number of ICP cells transmitted on the IMA link |
Error ICP Cells Total | The total number of errored ICP cells on the IMA link |
Relative Link Delay | The time delay, in seconds, between detection of a link activation/deactivation condition and acting upon it (going in/out of the Rx failure state on a link) |
Num OIF Anomalies | The number of OIF anomalies for the IMA link |
FE Severely Err. Seconds | The number of far-end severely errored seconds |
FE Unavail. Seconds | The number of seconds that the far end has been unavailable |
FE Tx Unused Seconds | The number of seconds that the far-end transmit link has been unused |
FE Rx Unused Seconds | The number of seconds that the far end receive link has been unused |
NE Rx Num Failures | The number of near-end receive link failures |
FE Rx Num Failures | The number of far-end receive link failures |
Rx ICP Cell count | The number of ICP cells received on the IMA link |
Rx Lost ICP Cells Total | The total number of lost ICP cells received on the IMA link |
Table 90: Show Port PPP Output Fields
Label | Description |
Protocol | The applicable protocols for the specified port |
State | The current status of a PPP link. Values are initial, starting, closed, stopped, closing, stopping, requestSent, ackReceived, ackSent, opened. |
Last Change | The last time the PPP link state changed |
Restart Count | The number of times that this Control Protocol has reached the open state |
PPP Statistics | |
Last Cleared | The date and time the restart count was set to zero |
Local Mac address | The MAC address assigned to the local end of the PPP link |
Remote Mac address | The Ethernet MAC address sent by the remote 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 the remote magic number, then it is possible that the link might be looped back. If the two magic numbers do not match, the link is not looped back. |
Remote Magic Number | The magic number sent by the peer. If the value of the 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, the link is not looped back. |
Local Address | The IP address at the local end of the link |
Remote Address | The IP address at the remote end of the link |
Line Monitor Method | The type of line monitoring packets being sent and received on this PPP link |
Request Interval | The time interval in seconds at which keepalive requests are issued |
Threshold exceeded | The number of times that the drop count was reached |
Drop Count | The number of keepalive or LQR messages that were missed before the line was brought down |
In packets | The number of echo-reply packets received |
Time to link drop | The time remaining before the link will be declared dropped if a keepalive echo reply packet is not received |
Out packets | The number of echo-request packets sent |
Last cleared time | The time since the last clear |
Table 91: Show Port CEM Output Fields
Label | Description |
Port Id | The port ID, in the slot/mda/port format |
Admin State | The administrative state of the interface connection |
Link | Indicates whether the link is active |
Port State | The state level of the port |
Clock Src | The clock source |
Master Port Id | The master port ID |
Clock State | The clock state |
Table 92: Show Port Frame Relay Output Fields
Label | Description |
Frame Relay Info for port identifier | |
Mode | The frame relay mode:
|
LMI Type | The LMI type:
|
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 will stay in the running state indefinitely. |
N391 DTE | The DTE full status polling interval for the frame relay LMI. The number specifies the frequency at which inquiries expect a full status report. |
N392 DCE | The DCE error threshold for the frame relay LMI. The threshold specifies the number of errors needed to bring down a link. |
N392 DTE | The DTE error threshold for the frame relay LMI. The threshold specifies the number of errors needed to bring down a link. |
N393 DCE | The DCE monitored event count for the frame relay LMI |
N393 DTE | The DTE monitored event count for the frame relay LMI |
T392 DCE | The DCE keepalive timer for the frame relay LMI. The number specifies the interval at which the DCE checks for keepalive responses from the DTE. |
T391 DTE | The DTE keepalive timer for the frame relay LMI. The number specifies the interval at which the DTE sends a keepalive response request to the DCE. |
FRF-12 | Not supported |
Link Identifier | The link associated with the frame relay port |
Tx Status Enquiry | The number of status enquiries sent |
Rx Status Enquiry | The number of status enquiries received |
Rx Status Messages | The number of status messages received |
Tx Status Messages | The number of status messages sent |
Status Message Timeouts | The number of status message timeouts |
Status Enquiry Timeouts | The number of status enquiry timeouts |
Discard Messages | The number of status enquiry messages discarded due to errors |
Inv. RxSeqNum Messages | The number of LMI messages received with an invalid sequence number |
frame-relay statistics for port port-identifier (input and output values) | |
Frames | The number of frames received or transmitted |
Octets | The number of octets received or transmitted |
DEFrames | The number of packets received or transmitted with the DE bit set |
DEOctets | The number of octets received or transmitted with the discard eligibility (DE) bit set |
FECNFrames | The number of frames received or transmitted with the forward explicit congestion notification bit set |
BECNFrames | The number of frames received or transmitted with the backward explicit congestion notification bit set |
Invalid Dlci | The number of invalid DLCIs |
Last Invalid Dlci | The last time when an invalid DLCI was detected |
Crc Errors | The number of cyclical redundancy check errors |
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 that had either a bad frame check sequence with an integral number of octets (FCS error) or a bad FCS with a non-integral number of octets |
Length Violations | The number of packet length violations |
Illegal Header | The number of header configuration errors |
Underruns Errors | The number of frames that were unsuccessfully transmitted because transmission was not fast enough to maintain synchronization |
Other Errors | The number of other unspecified errors |
Table 93: Show Port Frame Relay DLCI Output Fields
Label | Description |
Frame Relay Info for port-identifier | |
See Table 92 | — |
Frame Relay PVCs | |
Dlci | The specified DLCI |
State | The port state |
Type | The port type |
Creation Time | The time at which the port was created |
PVCs | The number of PVCs |
frame-relay statistics for port port-identifier (input and output values) | |
Frames | The number of frames received or transmitted |
Octets | The number of octets received or transmitted |
DE Frames | The number of packets received or transmitted with the DE bit set |
DE Octets | The number of octets received or transmitted with the discard eligibility bit set |
Crc Discard | The number of cyclical redundancy check discards |
Aborts | The number of aborts |
Other Discard | The number of other discards |
Table 94: Show Port Output Fields (TDM Codirectional or TPIF)
Label | Description |
TDM Data Physical Interface TDM Data Interface | |
Description | A text description of the port |
Interface | The port ID displayed in the slot/mda/port format |
Port IfIndex | The port interface's index number, which reflects its initialization sequence |
Admin Status | up: the administrative state is up |
down: the administrative state is down | |
Oper Status | up: the operating state is up |
down: the operating state is down | |
Physical Link | yes: a physical link is present |
no: a physical link is not present | |
Type | The type of interface: codirectional or TPIF |
Clock Source | loop-timed: the link recovers the clock from the received data stream node-timed: the link uses the internal clock when transmitting data adaptive: clocking is derived from the incoming pseudowire packets differential: clocking is derived from a common clock compared to differential clock recovery data in the RTP header in the TDM PW overhead |
Timing 8khz | Indicates whether 8-kb/s timing on a codirectional interface is enabled or disabled |
Last State Change | The last time the operational status of the port changed state |
Channel IfIndex | The channel interface index number |
Loopback | The loopback mode for the channel: internal-analog, internal-digital, or none |
Cfg Alarm | The type of alarms to be logged and reported for the port |
Alarm Status | The current alarm state |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Codir Line | |
Data-slip: | In a plesiochronous timing system, the number of data slips that have occurred in the receive direction |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
Table 95: Show Port Output Fields (GNSS)
Label | Description |
Description | Specifies the GNSS RF port description |
Interface | Specifies the card, MDA, and port number of the GNSS RF port |
Admin Status | up: the port is administratively up down: the port is administratively down |
Physical Link | yes: an operational GNSS antenna is detected no: an operational GNSS antenna is not detected |
Type | Specifies the type of satellite navigation system used |
Ant. Cable Delay | Specifies the amount of time, in nanoseconds, compensated for signal delay due to cable length |
Antenna Status | ok: valid antenna connection under-current: open condition. Previously, an under-current status caused the port operational status to be down. Currently, the port remains operationally up in the event that any GNSS splitters used do not provide a load. over-current: short circuit, or maximum power limits for the receiver have been exceeded no-bias voltage: antenna power disabled |
Sync Status | locked: GNSS time is within alarm limits (1 μs) not locked: GNSS time is outside of the alarm limits and/or there is an insufficient number of tracked satellites |
Receiver Status | Acquiring Satellites: GNSS receiver is attempting to track satellite Position Hold: GNSS receiver position is determined and GNSS receiver is no longer solving for position 2D Fix: GNSS receiver is attempting to get a 2D fix on a satellite 3D Fix: GNSS receiver is attempting to get a 3D fix on a satellite Unknown: default state on power-up Communication Lost: occurs after 30 s of no Channel/Data/Status messages from the GNSS receiver Communication Established: occurs after a successful re-establishment of communication following a Communication Lost status Self-Test Failed: occurs after a GNSS receiver startup failure |
Time | Specifies the GNSS system date and time |
UTC Offset | Specifies the difference between GNSS time and UTC time UTC time = GNSS time – UTC offset |
Port IfIndex | Specifies the GNSS interface index number, which reflects its initialization sequence |
Oper Status | up: the port is operationally up (communication with the GNSS receiver is established, the self-test has passed, and the antenna status is OK) down: the port is operationally down (any of the up conditions have not been met) |
Elev. Mask Angle | Specifies the configured elevation angle below which satellites are ignored. The default elevation mask angle is 10°. |
Visible Satellites | Specifies the number of satellites that the GNSS receiver should see at the current time. This number can be 0 if the GNSS receiver has not yet downloaded an almanac, even if Used Satellites is more than 0. Five or more satellites must be in view of the GNSS receiver antenna at all times when the receiver is in the process of obtaining a position fix, and these satellites must be above the configured elevation mask angle. |
Used Satellites | Specifies the number of tracked satellites |
Latitude | Specifies the latitude of the GNSS antenna |
Longitude | Specifies the longitude of the GNSS antenna |
Altitude (m MSL) | Specifies the altitude of the GNSS antenna above mean sea level, in meters |
Table 96: Show Port Output Fields (APS)
Label | Description |
Port Id | The port ID configured or displayed in the aps-id format |
Admin State | Up: the administrative state is up |
Down: the administrative state is down | |
Link | Yes: a physical link is present |
No: a physical link is not present | |
Port State | Up: the port is physically present and has a physical link |
Down: the port is physically present but does not have a link | |
Ghost: the port is not physically present | |
None: the port is in its initial creation state or about to be deleted | |
Link Up: the port is physically present and has a physical link. When Link Up appears at the lowest level of a TDM tributary, it means the physical connection is active but the port is waiting 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. | |
Link Down: the port is physically present but does not have a link | |
Cfg MTU | The configured MTU |
Oper MTU | The negotiated size of the largest packet that can be sent on the port or channel specified in octets |
LAG/Bndl | The Link Aggregation Group (LAG) or multilink bundle to which a TDM port is assigned |
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 hybrid use (transport network and service access per VLAN) | |
Port Encp | The encapsulation type on the port |
Port Type | The type of port or optics installed |
C/QS/S/XFP/MDIMDX | The SFP type on the port |
Table 97: Show Port Output Fields (With APS ID)
Label | Description |
SONET/SDH Interface | |
Description | A description of the port |
Interface | The APS interface name (the APS group port) |
Speed | The speed of the SONET/SDH port |
Admin Status | Specifies whether the APS circuit is administratively up or down |
Oper Status | Specifies whether the APS circuit is operationally up or down |
Physical Link | Specifies whether or not a physical link is present |
Loopback Mode | The loopback mode of the port |
Single Fiber Mode | Specifies whether the port is operating in single-fiber mode |
Clock Source | node: the link uses the internal clock when transmitting data loop: the link recovers the clock from the received data stream |
Framing | sonet: the port is configured for SONET framing sdh: the port is configured for SDH framing |
Last State Change | The last time that the operational status of the port changed state |
Port IfIndex | The interface index number, which reflects its initialization sequence |
Configured Address | The base chassis SONET/SDH MAC address |
Hardware Address | The interface hardware- or system-assigned MAC address at its protocol sublayer |
Last Cleared Time | The time since the last clear |
J0 String | The section trace value that is sent to the far-end port |
Section Trace Mode | byte: the section trace in the SONET section header is set in bytes string: a text string is used to identify the SONET section header increment-z0: an incremental STM ID is configured instead of a static value |
Rx S1 Byte | The value of the SONET/SDH S1 byte received on the interface |
Rx K1/K2 Byte | The value of the SONET/SDH K1/K2 byte received on the interface |
Tx S1 Byte | The value of the SONET/SDH S1 byte transmitted on the interface |
Tx DUS/DNU | Indicates whether the transmission of the QL-DUS/DNU value in synchronization status messages is enabled or disabled on the port |
Rx J0 String (Hex) | The hexadecimal value of the received J0 |
Cfg Alarm | The types of alarms to be logged and reported for the SONET/SDH port |
Alarm Status | The current alarm state |
BER SD Threshold | The configured threshold for line signal degradation BER error rate, that when crossed determines the signal degradation and signal failure |
BER SF Threshold | The configured threshold for line signal failure BER error rate, that when crossed determines the signal degradation and signal failure |
Hold time up | The link-up dampening time in seconds |
Reset On Path Down | Specifies whether or not the port will be reset when the path transitions to the operationally down state |
Hold time down | The link-down dampening time in seconds |
Transceiver Data | The following information is provided for a configured SFP:
|
Transceiver Status | The status of the transceiver |
Hardware Address | The port hardware address |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast, multicast, or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts. |
Table 98: Show Port Output Fields (LCR)
Label | Description |
Port Id | The port ID configured or displayed in the slot/mda/port format |
Admin State | Up: the administrative state is up |
Down: the administrative state is down | |
Link | Yes: a physical link is present |
No: a physical link is not present | |
Port State | Up: the port is physically present and has a physical link |
Down: the port is physically present but does not have a link | |
Ghost: the port is not physically present | |
None: the port is in its initial creation state or about to be deleted | |
Link Up: the port is physically present and has a physical link When Link Up appears at the lowest level of a TDM tributary, it means the physical connection is active but the port is waiting 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. | |
Link Down: the port is physically present but does not have a link | |
Cfg MTU | The configured MTU |
Oper MTU | The negotiated size of the largest packet that can be sent on the port or channel specified in octets |
LAG/Bndl | The Link Aggregation Group (LAG) or multilink bundle to which a TDM port is assigned |
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 hybrid use (transport network and service access per VLAN) | |
Port Encp | The encapsulation type on the port |
Port Type | The type of port or optics installed |
C/QS/S/XFP/MDIMDX | The SFP type on the port |
Table 99: Show Port Output Fields (With LCR Port ID)
Label | Description |
TDM DS1 Physical Interface | |
Description | A text description of the LCR port |
Interface | The LCR port ID displayed in the lcr-group-id/port[.channel] format |
Port Ifindex | The interface index number, which reflects its initialization sequence |
Admin Status | up: the LCR port is administratively up |
down: the LCR port is administratively down | |
Oper Status | up: the LCR port is operationally up |
down: the LCR port is operationally down | |
Physical Link | yes: a physical link is present |
no: a physical link is not present | |
Line Impedance | The line impedance configured for the port |
Line Encoding | The line encoding configured for the physical DS1 (T1) port |
Type | The type of interface |
Buildout | The line buildout (cable length) configured for physical DS1 ports on the 16-port T1/E1 ASAP Adapter card or 32-port T1/E1 ASAP Adapter card |
Length | The line length configured for the physical DS1 port on the 16-port T1/E1 ASAP Adapter card or 32-port T1/E1 ASAP Adapter card |
Hardware Address | The port hardware address |
Port Statistics | |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast, multicast, or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto DiscardsInput/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts. |
dsl
Syntax
Context
Description
This command displays DSL port information
Parameters
Output
The following output is an example of DSL port information and Table 100 describes the fields.
SHDSL port information
xDSL port information
Table 100: Show DSL Port Output Fields
Label | Description |
SHDSL Line Information | |
DSL PortId | The DSL port identifier |
Line | The DSL line number |
Admin State | Up: the DSL port is administratively up |
Down: the DSL port is administratively down | |
State | The training state of the DSL line |
Protocol | The regional configuration learned from the Central Office: a-f : Annex A/F Region 1 |
b-g: Annex B/F Region 2 | |
Data Rate | The data rate configured on the DSL port |
Negotiated Consellation | TC-PAM modulation selection for the SHDSL span |
Capability List Mode | The handshake mode for the span |
TpsTcType | The SHDSL span transport channel operational mode |
In Bonding Group | The bonding status of the DSL line |
Attenuation | SHDSL line attenuation |
SNRMargin | The signal to noise ratio margin of line |
Power Back Off | Indicates whether Power Back is off |
SHDSL Line Statistics | |
Link Loss | The link loss counter |
Code Violation | The code violation error counter |
ES | Errored seconds |
SES | The number of severely errored seconds |
LOSWS | The loss of sync word seconds |
UAS | Unavailable seconds |
XDSL Line Information | |
DSL PortId | The DSL port identifier |
Line | The DSL line number |
Oper State | Up: the DSL port is operationally up |
Down: the DSL port is operationally down | |
State | The state of the DSL line |
In Bonding Group | The state of the DSL line in bonding group |
Admin State | Up: the DSL port is administratively up |
Down: the DSL port is administratively down | |
Protocol | The xDSL protocol used on the DSL line |
Vdsl Profile | The VDSL profile used on the line |
TpsTcType | The transport protocol used by the DSL line |
US Bit Rate | The trained upstream bit rate in kb/s |
US Failure | The bitmap for the current upstream failure |
US SNR Margin | The upstream signal to noise margin in tenths of db |
US Output Power | The upstream power output in tenths of db |
US Loop Delay | The upstream loop delay in ms |
US Ref Psd | The upstream reference power spectral density |
US B0 INP | The upstream impulse noise protection (unit is 1/2 symbol) |
US B0 Delay | The upstream B0 latency path delay, in ms |
DS Bit Rate | The trained downstream bit rate in kb/s |
DS Failure | The bitmap for the current downstream failure |
DS SNR Margin | The downstream signal to noise margin in tenths of db |
DS Output Power | The downstream power output in tenths of db |
DS Ref Psd | The downstream reference power spectral density |
DS Loop Delay | The downstream loop delay, in ms |
DS B0 Delay | The downstream B0 latency path delay, in ms |
DS B0 INP | The downstream impulse noise protection (unit is 1/2 symbol) |
XDSL Line Statistics | |
Near End FECS | The near end forward error correction seconds |
Near End LOSS | The near end loss of signal seconds |
Near End ES | The near end errored seconds |
Near End SES | The near end severely errored seconds |
Near End UAS | The near end unavailable seconds |
Near End AS | The near end available seconds |
Near End LOFS | The near end loss of framing seconds |
Near End LPRS | The near end loss of power seconds |
Near End LEFTRS | The near end low error-free throughput rate seconds |
Far End FECS | The near end forward error correction seconds |
Far End LOSS | The far end loss of signal seconds |
Far End ES | The far end errored seconds |
Far End SES | The far end severely errored seconds |
Far End UAS | The far end unavailable seconds |
Far End AS | The far end available seconds |
Far End LOFS | The far end loss of framing seconds |
Far End LPRS | The far end loss of power seconds |
Far End LEFTRS | The far end low error-free throughput rate seconds |
Up Time | The length of time the DSL port has been operational |
lldp
Syntax
Context
Description
This command displays LLDP information.
Parameters
Output
The following outputs are examples of LLDP information:
- LLDP (Output Example, Table 101)
- LLDP Detail (Output Example, Table 102)
Table 101: Show Port LLDP Output Fields
Label | Description |
Admin State | The LLDP transmission/reception frame handling |
Notifications | Indicates whether LLDP notifications are enabled |
Tunnel Nearest Bridge | n/a |
Transmit TLVs | The optional TLVs that are transmitted by this port |
PortID TLV Subtype | Indicates the setting for the port ID subtype: tx-if-alias, tx-fi-name, or tx-local |
Management Address Transmit Configuration | |
Index 1 (system) Index 2 (IPv6 system) | Details of the management address configuration. The 7705 SAR can only be configured to send or not send the system address. Enabled: the management address TLV is included in LLDPDUs sent by the port Disabled: the management address TLV is not included in LLDPDUs sent by the port |
Address | The address transmitted by the port when tx-mgmt-address command is enabled |
Table 102: Show Port LLDP Detail Output Fields
Label | Description |
Admin State | The LLDP transmission/reception frame handling |
Notifications | Indicates whether LLDP notifications are enabled |
Transmit TLVs | The optional TLVs that are transmitted by this port |
Index 1 (system) | Details of the management address configuration. The 7705 SAR can only be configured to send or not send the system address. Enabled: the management address TLV is included in LLDPDUs sent by the port Disabled: the management address TLV is not included in LLDPDUs sent by the port |
Enabled Address | The address transmitted by the port when the management address TLV is included in LLDPDUs sent by the port |
Port LLDP Stats | |
Tx Frames | The number of LLDP frames transmitted |
Tx Length Err Frames | The number of frames with LLDPDU length violations caused by too many TLVs selected by the network manager. The packets are sent containing the mandatory TLVs and the maximum number of optional TLVs that will fit in the LLDP frame. |
Rx Frames | The number of LLDP frames received |
Rx Frame Discard | The number of LLDP frames received by the LLDP agent that were discarded for any reason. This counter can provide an indication that LLDP header formatting problems may exist with the local LLDP agent in the sending system, or that LLDPDU validation problems may exist with the local LLDP agent in the receiving system. |
Rx Frame Errors | The number of invalid LLDP frames received by the LLDP agent on the indicated port while the LLDP agent is enabled |
Rx TLV Discard | The number of LLDP TLVs discarded for any reason by the LLDP agent on the indicated port |
Rx TLV Unknown | The number of LLDP TLVs received that are not recognized by the LLDP agent |
Rx Ageouts | The number of age-outs that have occurred on the port |
Supported Caps | Describes the system capabilities supported by the remote peer |
Enabled Caps | Describes the system capabilities enabled on the remote peer |
Chassis Id Subtype | An integer value and text definition that indicates the basis for the chassis ID entity listed in the chassis ID field |
Chassis Id | The chassis identifier of the chassis containing the Ethernet port that sent the LLDPDU |
PortId Subtype | An integer value and text definition that indicates the basis for the port ID entity listed in the port ID field |
Port Id | The port identifier of the Ethernet port that sent the LLDPDU |
Port Description | Describes the port that sent the LLDPDU and indicates that the description is the ifDescr object text string from RFC 2863 - IF MIB |
System Name | The name of the system that sent the LLDPDU |
System Description | Describes the system that sent the LLDPDU |
3.14.2.1.7. Show ATM Port Commands
port
Syntax
Context
Description
This command displays ATM port information.
If no command line options are specified, the command port displays summary information for all ports on provisioned adapter cards.
Parameters
Syntax | port-id | slot[/mda[/port]] or slot/mda/port[.channel], where: |
slot | 1 | |
mda | 1 to 6 (7705 SAR-8) | |
1 to 12 (7705 SAR-18) | ||
port | 1 to 2 (2-port OC3/STM1 Channelized Adapter card ports) | |
1 to 4 (4-port OC3/STM1 Clear Channel Adapter card ports or 4-port DS3/E3 Adapter card ports) | ||
1 to 16 (16-port T1/E1 ASAP Adapter card ports) | ||
1 to 32 (32-port T1/E1 ASAP Adapter card ports) | ||
channel | 1 to 24 (DS1) or 1 to 32 (E1) |
vci: 1, 2, 5 to 65534
Output
The following outputs are examples of ATM information:
- ATM (Output Example, Table 103)
- ATM Connections (Output Example, Table 104)
- ATM PVC (Output Example, Table 105)
- ATM PVC VPI/VCI (Output Example, Table 106)
- ATM PVC VPI/VCI Detail (Output Example, Table 107)
- ATM PVP (Output Example, Table 108)
- ATM PVP Detail (Output Example, Table 109)
Table 103: Show Port ATM Output Fields
Label | Description |
Cell Mode | The cell format (UNI or NNI) that is used on the ATM interface (NNI is not supported on SONET/SDH ports) |
Configured VCs | The number of configured VCs |
Configured VTs | The number of configured VTs |
Configured minimum VPI | The configured minimum allowable VPI value that can be used on the ATM interface for a VPC |
Last Unknown VPI/VCI | The last unknown VPI/VCI that was received on this interface |
Mapping | Direct: direct ATM cell mapping is used |
Configured VPs | The number of configured VPs |
Configured IFCs | The number of configured IFCs |
TC Alarm State | The ATM interface notifications indicating that the TC sublayer is currently in the Loss of Cell Delineation (LCD) defect maintenance state or that the TC sublayer is currently not in the Loss of Cell Delineation (LCD) defect maintenance state |
HEC Errors (Dropped) | The number of cells with uncorrectable HEC errors on this interface |
Number OCD Events | The number of times the Out of Cell Delineation (OCD) events occurred |
HEC Errors (Fixed) | The number of cells with correctable HEC errors on this interface |
Ingress CBR | The total CBR bandwidth consumed on this interface in the ingress direction |
Ingress RT-VBR | The total real-time variable bit rate (rt-VBR) 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 UBR | The total unspecified bit rate (UBR) bandwidth consumed on this interface in the ingress direction |
Egress CBR | The total CBR bandwidth consumed on this interface in the egress direction |
Egress RT-VBR | The total real-time variable bit rate (rt-VBR) 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 UBR | The total unspecified bit rate (UBR) bandwidth consumed on this interface in the egress direction |
Ingress Total | The total bandwidth of all service categories consumed on this interface in the ingress direction |
Egress Total | The total bandwidth of all service categories consumed on this interface in the egress direction |
ATM Link Bandwidth | The total ATM link bandwidth accepted on this interface |
Shaped Bandwidth | The total shaped bandwidth consumed on this interface in the egress direction |
Table 104: Show Port ATM Connections Output Fields
Label | Description |
Owner | The system entity that owns a specific ATM connection |
Type | The connection type |
Ing. TD | The ATM traffic descriptor profile that applies to the receive direction of the interface connection |
Egr. TD | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Adm | The administrative state of the interface connection |
OAM | The OAM operational status of ATM connections: Up: the interface is operationally up ETE-AIS: the endpoint is down and is generating end-to-end AIS OAM cells to alert the far end that it is down |
Opr | The status of the ATM interface |
Table 105: Show Port ATM PVC Output Fields
Label | Description |
VPI/VCI | The VPI/VCI values |
Owner | The system entity that owns a specific ATM connection |
Type | The connection type |
Ing. TD | The ATM traffic descriptor profile that applies to the receive direction of the interface connection |
Egr. TD | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Adm | The administrative state of the interface connection |
OAM | The OAM operational status of ATM connections: Up: the interface is operationally up ETE-AIS: the endpoint is down and is generating end-to-end AIS OAM cells to alert the far end that it is down |
Opr | The status of the ATM interface |
Table 106: Show Port ATM PVC VPI/VCI Output Fields
Label | Description |
Port Id | The port ID configured or displayed in the slot/mda/port format |
VPI/VCI | The VPI/VCI values |
Admin State | The administrative state of the interface connection |
Oper State | The status of the ATM interface |
OAM State | The OAM operational status of ATM connections: Up: the interface is operationally up ETE-AIS: the endpoint is down and is generating end-to-end AIS OAM cells to alert the far end that it is down |
Encap Type | The encapsulation type |
Owner | The system entity that owns a specific ATM connection |
Endpoint Type | The endpoint type |
Cast Type | The connection topology type |
Ing. TD Idx | The ATM traffic descriptor profile that applies to the receive direction of the interface connection |
Egr. TD Idx | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Table 107: Show Port ATM PVC VPI/VCI Detail Output Fields
Label | Description |
Port Id | The port ID configured or displayed in the slot/mda/port format |
VPI/VCI | The VPI/VCI values |
Admin State | The administrative state of the interface connection |
Oper State | The status of the ATM interface |
OAM State | The OAM operational status of ATM connections: Up: the interface is operationally up ETE-AIS: the endpoint is down and is generating end-to-end AIS OAM cells to alert the far end that it is down |
Encap Type | The encapsulation type |
Owner | Identifies the system entity that owns a specific ATM connection |
AAL Type | The ATM Adaptation Layer 5 (AAL5) information |
Endpoint Type | The endpoint type |
Cast Type | The connection topology type |
Ing. Td Idx | The ATM traffic descriptor profile that applies to the receive direction of the interface connection |
Egr. Td Idx | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Last Changed | The date and time that the interface connection entered its current operational state |
Octets | The number of input and output octets HEC discarded cells are not included in the input octet numbers |
Cells | The number of input and output cells HEC discarded cells are not included in the input cell numbers |
CLP=0 Cells | The number of CLP=0 cells |
Dropped CLP=0 Cells | The number of dropped CLP=0 cells |
Dropped Cells (CLP=0+1) | The number of dropped CLP=0+1 cells |
Tagged Cells | The number of tagged cells |
Loopback | The number of loopback requests and responses transmitted and received on this connection for both end-to-end and segment |
OAM Cells (generated) | The number of OAM cells generated at the endpoint and sent towards the network |
Table 108: Show Port ATM PVP Output Fields
Label | Description |
VPI | The VPI value |
Owner | The system entity that owns a specific ATM connection |
Type | The type of connection |
Ing.TD | The ATM traffic descriptor profile that applies to the receive direction of the interface connection |
Egr.TD | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Adm | Up: the interface is administratively up |
Down: the interface is administratively down | |
OAM | The OAM operational status of ATM connections: Up: the interface is operationally up ETE-AIS: the endpoint is down and is generating end-to-end AIS OAM cells to alert the far end that it is down |
Opr | Up: the interface is operationally up |
Down: the interface is operationally down |
Table 109: Show Port ATM PVP Detail Output Fields
Label | Description |
Port Id | The port ID configured or displayed in the slot/mda/port format |
VPI | The VPI values |
Admin State | The administrative state of the interface connection |
Oper State | The status of the ATM interface |
OAM State | The OAM operational status of ATM connections: Up: the interface is operationally up ETE-AIS: the endpoint is down and is generating end-to-end AIS OAM cells to alert the far end that it is down |
Owner | The system entity that owns a specific ATM connection |
Endpoint Type | The endpoint type |
Cast Type | The connection topology type |
Ing. Td Idx | The ATM traffic descriptor profile that applies to the receive direction of the interface connection |
Egr. Td Idx | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Last Changed | The date and time that the interface connection entered its current operational state |
Octets | The number of input and output octets HEC discarded cells are not included in the input octet numbers |
Cells | The number of input and output cells HEC discarded cells are not included in the input cell numbers |
CLP=0 Cells | The number of CLP=0 cells |
Dropped CLP=0 Cells | The number of dropped CLP=0 cells |
Dropped Cells (CLP=0+1) | The number of dropped CLP=0+1 cells |
Tagged Cells | The number of tagged cells |
Loopback | The number of loopback requests and responses transmitted and received on this connection for both end-to-end and segment |
OAM Cells (generated) | The number of OAM cells generated at the endpoint and sent towards the network |
3.14.2.1.8. Show Port-tree Commands
port-tree
Syntax
Context
Description
This command displays the tree for SONET/SDH ports or channels.
| Note: The same show>port-tree display is used for both SONET and SDH. The SONET nomenclature is used to show both SONET and SDH hierarchies. |
Parameters
Syntax | slot[/mda[/port]] or slot/mda/port[.channel] |
Output
The following output is an example of port-tree information, and Table 110 describes the fields.
Table 110: Show Port-tree Output Fields
Label | Description |
IfIndex | Displays the interface number of the index, which reflects its initialization sequence |
type | Specifies the OC3 bandwidth subdivision |
sonet-sdh-index | Specifies the sonet-sdh-index |
* | Indicates that the port or channel is provisioned |
3.14.2.1.9. Show LAG Commands
lag
Syntax
Context
Description
This command displays Link Aggregation Group (LAG) information.
If no command line options are specified, a summary listing of all LAGs is displayed.
Parameters
Output
The following outputs are examples of LAG information:
- Summary (Output Example, Table 111)
- Detail (Output Example, Table 112)
- Statistics (Output Example, Table 113)
- Associations (Output Example, Table 114)
- Description (Output Example, Table 115)
- LACP partner (Output Example, Table 116)
- LACP partner (detail) (Output Example, Table 117)
- Port (Output Example, Table 118)
Table 111: Show LAG Summary Output Fields
Label | Description |
Lag-id | The LAG identifier |
Adm | Up: the LAG is administratively up |
Down: the LAG is administratively down | |
Opr | Up: the LAG is operationally up |
Down: the LAG is operationally down | |
Port-Threshold | The number of operational links at or below which the LAG is considered to be operationally down |
Up-Link-Count | The number of ports that are physically present and have physical links present |
MC Act/Stdby | N/A |
The following example displays LAG details with MC-LAG Output
Table 112: Show LAG Detailed Output Fields
Label | Description |
Lag-id | The LAG identifier |
Mode | The mode of the LAG: access or network |
Adm | Up: the LAG is administratively up |
Down: the LAG is administratively down | |
Opr | Up: the LAG is operationally up |
Down: the LAG is operationally down | |
Thres. Exceeded Cnt | The number of times that the drop count was reached |
Port Threshold | The number of operational links at or below which the LAG is regarded as operationally down |
Thres. Last Cleared | The last time that keepalive statistics were cleared |
Threshold Action | Action to take when the number of operational links is equal to or below the port threshold |
Dynamic Cost | n/a |
Encap Type | The encapsulation method used to distinguish customer traffic on a LAG |
Configured Address | The base chassis Ethernet MAC address |
Lag-IfIndex | A unique number assigned to this interface |
Hardware Address | The hardware address |
Adapt Qos | The configured QoS mode |
Hold-time Down | The hold-time, in tenths of seconds, before a failure is reported to higher levels |
Port Type | Standard: standard Ethernet port types are supported |
LACP | Enabled: LACP is enabled |
Disabled: LACP is disabled | |
Mode | Active: LACP operates in active mode |
Passive: LACP operates in passive mode | |
Role | Actor: local device (7705 SAR) participating in LACP negotiation |
Partner: remote device participating in LACP negotiation | |
LACP Transmit Intvl | LACP timeout signaled to peer |
LACP xmit stdby | LACP transmit on standby links enabled or disabled |
Selection Criteria | Configured subgroup selection criteria |
Slave-to-partner | Slave-to-partner flag enabled or disabled |
Number of sub-groups | Total subgroups in LAG |
Forced | n/a |
System Id | System ID used by actor in LACP messages |
System Priority | System priority used by actor in LACP messages |
Admin Key | Configured LAG key |
Oper Key | Key used by actor in LACP messages |
Prtr System Id | System ID used by partner in LACP messages |
Prtr System Priority | System priority used by partner in LACP messages |
Prtr Oper Key | Key used by partner in LACP messages |
MC Peer Address | IP address of the MC-LAG peer |
MC Peer Lag-id | The LAG identifier of the MC-LAG peer |
MC System Id | System ID used by the MC-LAG actor in LACP messages |
MC System Priority | System priority used by the MC-LAG actor in LACP messages |
MC Admin Key | Configured MC-LAG key |
MC Active/Standby | Indicates whether the port is in active or standby mode |
MC Lacp ID in use | Indicates whether MC-LAG values such as system-id, system priority, and lacp-key are advertised to the LACP peer |
MC extended timeout | Indicates whether the system is using a larger value than the value configured as the MC-LAG hold-on-neighbor-failure value |
MC Selection Logic | The current state of the MC-LAG protocol, indicating which of the two MC-LAG redundancy systems is the master |
MC Config Mismatch | Indicates whether there is a LAG configuration mismatch between redundancy systems, and what is mismatched |
Port-id | The member physical port ID expressed in slot/mda/port format |
Adm | Up: the member port is administratively up |
Down: the member port is administratively down | |
Act/Stdby | Active: the member port is active |
Standby: the member port is on standby | |
Opr | Up: the member port is operationally up |
Down: the member port is operationally down | |
Primary | Indicates whether the member port is the primary port |
Sub-group | The member port subgroup |
Prio | The member port priority |
Table 113: Show LAG Statistics Output Fields
Label | Description |
Port-id | The member physical port ID expressed in slot/mda/port format |
Input Bytes | The number of inbound bytes for the LAG on a per-port basis |
Input Packets | The number of inbound packets for the LAG on a per-port basis |
Output Bytes | The number of outbound bytes for the LAG on a per-port basis |
Output Packets | The number of outbound packets for the LAG on a per-port basis |
Input Errors | The number of inbound packets (for packet-oriented interfaces) or inbound transmission units (for character-oriented or fixed-length interfaces) that contained errors preventing them from being delivered to higher layers |
Output Errors | The number of outbound packets (for packet-oriented interfaces) or outbound transmission units (for character-oriented or fixed-length interfaces) that could not be transmitted because of errors |
Table 114: Show LAG Associations Output Fields
Label | Description |
Router/ServiceId | The service associated with the LAG |
Name | The name of the IP interface |
Encap Val | The dot1q or qinq values of the port for the IP interface |
Table 115: Show LAG Description Output Fields
Label | Description |
Lag Port States | |
LACP Status | Indicates whether LACP is enabled or disabled |
Lag-id | The LAG identifier and LACP status code |
Port-id | The member physical port ID |
Adm | Indicates the administrative state of the member port: up or down |
Act/Stdby | Indicates whether the port is in active or standby mode |
Opr | Indicates the operational state of the member port: up or down |
Description | The description strings configured for the LAG and member ports |
Table 116: Show LAG LACP Partner Output Fields
Label | Description |
LAG Partner information | |
Partner system ID | The system ID of the partner (remote device) |
Partner system priority | The system priority used by the partner in LACP messages |
Partner operational key | The key used by the partner in LACP messages |
LAG 1 Ports Partner operational information | |
Port | The member physical port ID |
Actor port | The actor (local device) port associated with the member port |
Port | The partner port associated with the member port |
Prio | The partner port priority associated with the member port |
Key | The partner operational key associated with the member port |
LAG 1 Ports Partner operational state information | |
Port | The member physical port ID |
Exp | (Expired) – indicates whether the partner is in the Expired state; if Yes, the LAG is not operational |
Def | (Default) – indicates whether the partner information (system priority, key, port priority, and state of the partner) is the default information that is configured administratively or is information received through LACPDUs. Default partner information is used if LACPDUs were not received on time. |
Dist | (Distributing) – indicates whether the distribution of outgoing frames is enabled or disabled on the link |
Col | (Collecting) – indicates whether the collection of incoming frames is enabled or disabled on the link |
Syn | (Synchronization) – indicates whether the link is allocated to the correct LAG |
Aggr | (Aggregation) – indicates whether link aggregation is enabled or disabled on the port |
Time out | Indicates whether a timeout value is set for the port |
Act | (Activity) – indicates whether the link is active (port can send and receive LACPDU messages) or passive (port does not initiate LACP messages but will respond to LACP messages) |
Table 117: Show LAG Detailed LACP Partner Output Fields
Label | Description |
LAG Partner information | |
Partner system ID | The system ID of the partner (remote device) |
Partner system priority | The system priority used by the partner in LACP messages |
Partner operational key | The key used by the partner in LACP messages |
LAG port port-id partner information | |
Actor port | The actor (local device) port associated with the member port |
Partner admin system prio | The partner administrative system priority associated with the member port |
Partner oper system prio | The partner operational system priority associated with the member port |
Partner admin system ID | The partner administrative system ID associated with the member port |
Partner oper system ID | The partner operational system ID associated with the member port |
Partner admin key | The partner administrative key associated with the member port |
Partner oper key | The partner operational key associated with the member port |
Partner admin port | The partner administrative port associated with the member port |
Partner oper port | The partner operational port associated with the member port |
Partner admin port prio | The partner administrative port priority associated with the member port |
Partner oper port prio | The partner operational port priority associated with the member port |
Partner admin state | The administrative state of the partner |
Partner oper state | The operational state of the partner |
Table 118: Show LAG Port Output Fields
Label | Description |
Lag Port States | |
LACP status | Indicates whether LACP is enabled or disabled |
Lag-id | The LAG identifier and LACP status code |
Port-id | The member physical port ID |
Adm | Indicates the administrative state of the member port: up or down |
Act/Stdby | Indicates whether the member port is in active or standby mode |
Opr | Indicates the operational state of the member port: up or down |
Primary | Indicates whether the member port is the primary port |
Sub-group | The member port sub-group |
Forced | n/a |
Priority | The member port priority |
3.14.2.1.10. Show Multilink Bundle and IMA Group Commands
multilink-bundle
Syntax
Context
Description
This command displays multilink bundle information. An operator can display:
- all bundles on the system/adapter card or all bundles of a given type on the system by specifying the value of type filter to be either mlppp or ima-grp
- bundle-specific information in summary (no detail option) or detailed format (detail option specified) for one or more bundles
- protocol-specific information (for example, PPP or IMA) for the specified bundle
Parameters
Syntax: bundle-type-slot/mda.bundle-num
bundle-ppp-slot/mda.bundle-num (a multilink PPP bundle)
bundle-ima-slot/mda.bundle-num (an IMA group bundle)
bundle: keyword
slot: MDA slot numbers
bundle-num: 1 to 32
Output
The following outputs are examples of multilink bundle information:
- Multilink Bundle (Output Example, Table 119)
- Multilink Bundle IMA Group (Output Example, Table 120)
- Multilink Bundle IMA Group Detailed (Output Example, Table 121)
- Multilink Bundle MLPPP (Output Example, Table 122)
- Multilink Bundle Multi-class (Output Example, Table 122)
- Multilink Bundle MLPPP Detail (Output Example, Table 123)
Table 119: Show Multilink Bundle Output Fields
Label | Description |
Bundle Id | The port ID for this bundle |
Type | The type of this multilink bundle: mlppp: the bundle is of type MLPPP ima: the bundle is of type IMA group |
Admin State | Up: the bundle is administratively up |
Down: the bundle is administratively down | |
Oper State | Up: the bundle is operationally up |
Down: the bundle is operationally down | |
Port State | The state level of the port: none: the port is either in its initial creation state or is just about to be deleted |
ghost: no member links are configured as part of this bundle | |
down: all member links are in “none”, “ghost”, or “down” state | |
linkUp: at least one member link is in port state “link up” but the bundle protocol is not yet operationally up (due to the bundle protocol still coming up; for example, due to insufficient number of member links in “link up” state yet or to bundle being shut down) | |
Up: the bundle is ready to pass some kinds of traffic as the bundle protocol has come up (at least “minimum links” member links are in the port state up and the bundle protocol is up) | |
Min Links | The minimum number of links that must be active for a bundle to be active. If the number of links drop below the given minimum, then the multilink bundle will transition to an operation down state. |
Total Links | The total number active of member links configured for this bundle |
Active Links | The total number of active links for the bundle |
| Note: The ima-grp command shows all bundles in the IMA group. The bundle-ima command shows information on the specified bundle. The fields for both commands are the same. |
Table 120: Show Multilink Bundle IMA Group Output Fields
Label | Description |
Bundle Id | The port ID for this bundle |
Type | The type of this multilink bundle: ima: the bundle is of type IMA group |
Admin State | Up: the bundle is administratively up |
Down: the bundle is administratively down | |
Oper State | Up: the bundle is operationally up |
Down: the bundle is operationally down | |
Port State | The state level of the port: none: the port is either in its initial creation state or is just about to be deleted |
ghost: no member links are configured as part of this bundle | |
down: all member links are in “none”, “ghost”, or “down” state | |
linkUp: at least one member link is in port state “link up” but the bundle protocol is not yet operationally up (due to the bundle protocol still coming up; for example, due to insufficient number of member links in “link up” state yet or to bundle being shut down) | |
Up: the bundle is ready to pass some kinds of traffic as the bundle protocol has come up (at least “minimum links” member links are in the port state up and the bundle protocol is up) | |
Min Links | The minimum number of links that must be active for a bundle to be active. If the number of links drop below the given minimum, then the multilink bundle will transition to an operation down state. |
Total Links | The total number active of member links configured for this bundle |
Active Links | The total number of active links for the bundle |
Bundles | The number of bundles on the port |
| Note: The ima-grp detail command shows all bundles in the IMA group. The bundle-ima detail command shows information on the specified bundle. The fields for both commands are the same. |
Table 121: Show Multilink Bundle IMA Group Detailed Output Fields
Label | Description |
Description | The configured description for this bundle |
Bundle Id | The port ID for this bundle |
Admin Status | Up: the bundle is administratively up |
Down: the bundle is administratively down | |
Minimum Links | The minimum number of links that must be active for a bundle to be active. If the number of links drop below the given minimum, then the multilink bundle will transition to an operation down state. |
Total Links | The total number of active member links configured for this bundle |
Red Diff Delay | The maximum acceptable differential delay for individual circuits within this multilink bundle. If the delay exceeds this threshold, a trap is issued. |
Red Diff Delay Act | The action that will be taken on the IMA group once the Red Diff Delay is exceeded |
Oper MTU | The negotiated size of the largest packet that can be sent on the port or channel, specified in octets |
Mode | network: the port is configured for transport network use |
access: the port is configured for service access | |
Type | Indicates that this bundle is of type IMA group |
Oper Status | The operational port status of a member link |
Bundle IfIndex | The bundle’s interface index number, which reflects its initialization sequence |
Active Links | The total number of active links for the bundle |
Bandwidth | The bandwidth configured for this IMA group bundle in kb/s |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Port Statistics | |
Unicast packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Multicast packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent. |
Broadcast packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts. |
| Note: The mlppp command shows all bundles in the MLPPP group. The bundle-ppp command shows information on the specified bundle. The fields for both commands are the same. |
Table 122: Show Multilink Bundle MLPPP Output Fields
Label | Description |
Bundle Id | The port ID for this bundle |
Type | The type of this multilink bundle: mlppp: the bundle is of type MLPPP |
Admin State | Up: the bundle is administratively up |
Down: the bundle is administratively down | |
Oper State | Up: the bundle is operationally up |
Down: the bundle is operationally down | |
Port State | The state level of the port: none: the port is either in its initial creation state or is just about to be deleted |
ghost: no member links are configured as part of this bundle | |
down: all member links are in the “none”, “ghost”, or “down” state | |
linkUp: at least one member link is in the port state “link up” but the bundle protocol is not yet operationally up (due to the bundle protocol still coming up; for example, due to an insufficient number of member links in the “link up” state or to the bundle being shut down) | |
Up: the bundle is ready to pass some kinds of traffic as the bundle protocol has come up (at least “minimum links” member links are in the port state up and the bundle protocol is up) | |
Min Links | The minimum number of links that must be active for a bundle to be active. If the number of links drops below the given minimum, then the multilink bundle will transition to an operation down state. |
Total Links | The total number of active member links configured for this bundle |
Active Links | The total number of active links for the bundle |
Bundles | Number of bundles on the port |
Class | The MC-MLPPP service class |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The total number of packets received and transmitted on the port |
Errors Input/Output | The number of packets that contained errors preventing them from being deliverable |
| Note: The mlppp detail command shows all bundles in the MLPPP group. The bundle-ppp detail command shows information on the specified bundle. The fields for both commands are the same. |
Table 123: Show Multilink Bundle MLPPP Detail Fields
Label | Description |
Description | The configured description for this bundle |
Bundle Id | The port ID for this bundle |
Admin Status | Up: the bundle is administratively up |
Down: the bundle is administratively down | |
Minimum Links | The minimum number of links that must be active for a bundle to be active. If the number of links drop below the given minimum, then the multilink bundle will transition to an operation down state. |
Total Links | The total number of active member links configured for this bundle |
Red Diff Delay | The maximum acceptable differential delay for individual circuits within this multilink bundle. If the delay exceeds this threshold, a trap is issued. |
Red Diff Delay Act | The action that will be taken on the MLPPP bundle once the Red Diff Delay is exceeded |
Short Sequence | Indicates whether the MLPPP bundle uses short (12 bit) sequence numbers instead of the default 24-bit sequence number |
Oper MTU | The negotiated size of the largest packet that can be sent on the port or channel, specified in octets |
Mode | network: the port is configured for transport network use |
access: the port is configured for service access | |
Type | The bundle type |
Oper Status | The operational port status of a member link |
Bundle IfIndex | The bundle’s interface index number, which reflects its initialization sequence |
Active Links | The total number of active links for the bundle |
Yellow Diff Delay | The yellow warning threshold for the differential delay for members within a multilink bundle |
MRRU | The configured maximum frame size that can be reconstructed from multilink fragments |
Oper MRRU | The operating maximum frame size that can be reconstructed from multilink fragments |
Bandwidth | The bandwidth configured for this MLPPP bundle in kb/s |
Traffic and Port statistics | The traffic and port statistics information displayed for bundles when the detail option is selected is the same as information displayed for physical ports |
Traffic Statistics | |
Octets Input/Output | The total number of octets received and transmitted on the port |
Packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
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. |
Port Statistics | |
Unicast packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a multicast or broadcast address at this sublayer. 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 sublayer, including those that were discarded or not sent. |
Multicast packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or broadcast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or broadcast address at this sublayer, including those that were discarded or not sent. |
Broadcast packets Input/Output | The number of packets, delivered by this sublayer to a higher (sub) layer, which were not addressed to a unicast or multicast address at this sublayer. The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a unicast or multicast address at this sublayer, including those that were discarded or not sent. |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown proto discards Input/Output | For packet-oriented interfaces, the number of packets received via the interface that 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 that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. Unknown proto discards do not show up in the packet counts. |
3.14.2.1.11. Show ATM IMA Group Commands
multilink-bundle
Syntax
Context
Description
This command displays ATM port information for IMA group bundles. The information displayed is equivalent to that displayed for the show port (atm) command.
Parameters
Output
The following outputs are examples of IMA ATM information:
- Multilink Bundle IMA ATM (Output Example, Table 124)
- Multilink Bundle IMA ATM Connections (Output Example, Table 125)
- Multilink Bundle IMA ATM PVC (Output Example, Table 126)
- Multilink Bundle IMA ATM PVP (Output Example, Table 127)
Table 124: Show Multilink Bundle IMA ATM Output Fields
Label | Description |
Cell Mode | The cell format (UNI or NNI) that is used on the ATM interface |
Configured VCs | The number of configured VCs |
Configured VTs | The number of configured VTs |
Configured minimum VPI | The minimum VPI configured for this bundle |
Last Unknown VPI/VCI | The last unknown VPI/VCI that was received on this interface |
Configured VPs | The number of configured VPs |
Table 125: Show Multilink Bundle IMA ATM Connections Output Fields
Label | Description |
Owner | The system entity that owns a specific ATM connection |
Type | The type of connection |
Ing.TD | The ATM traffic descriptor profile that applies to the receive direction of the interface connection |
Egr.TD | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Adm | Up: the bundle is administratively up |
Down: the bundle is administratively down | |
OAM | The OAM operational status of ATM connections: Up: the interface is operationally up |
ETE-AIS: the endpoint is down and is generating end-to-end AIS OAM cells to alert the far end that it is down | |
Opr | Up: the bundle is operationally up |
Down: the bundle is operationally down |
Table 126: Show Multilink Bundle IMA ATM PVC Output Fields
Label | Description |
VPI/VCI | The VPI/VCI value |
Owner | The system entity that owns a specific ATM connection |
Type | The type of connection |
Ing.TD | The ATM traffic descriptor profile that applies to the receive direction of the interface connection |
Egr.TD | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Adm | Up: the bundle is administratively up |
Down: the bundle is administratively down | |
OAM | The OAM operational status of ATM connections: Up: the interface is operationally up |
ETE-AIS: the endpoint is down and is generating end-to-end AIS OAM cells to alert the far end that it is down | |
Opr | Up: the bundle is operationally up |
Down: the bundle is operationally down |
Table 127: Show Multilink-bundle IMA ATM PVP Output Fields
Label | Description |
VPI | The VPI value |
Owner | The system entity that owns a specific ATM connection |
Type | The type of connection |
Ing.TD | The ATM traffic descriptor profile that applies to the receive direction of the interface connection |
Egr.TD | The ATM traffic descriptor profile that applies to the transmit direction of the interface connection |
Adm | up: the bundle is administratively up |
down: the bundle is administratively down | |
OAM | The OAM operational status of ATM connections: Up: the interface is operationally up |
ETE-AIS: the endpoint is down and is generating end-to-end AIS OAM cells to alert the far end that it is down | |
Opr | up: the bundle is operationally up |
down: the bundle is operationally down |
3.14.2.1.12. Show SCADA Commands
scada
Syntax
Context
Description
This command displays SCADA bridge information.
Parameters
Output
The following outputs are examples of SCADA information:
- SCADA bridge detail (Output Example, Table 128)
- specific SCADA bridge detail (Output Example, Table 129)
Table 128: Show SCADA Bridge Detail Output Fields
Label | Description |
Scada Bridges on Slot 1 | |
Bridge Id | The bridge/branch ID (the bridge ID is in the format slot/mda/bridge-id, where bridge-id is 1 to 16; the branch ID is in the format slot/mda/bridge-id.branch-id, where branch-id is 1 to 32) |
Admin State | The administrative state of the bridge, either Up or Down |
Link | Indicates whether there is an active link on the bridge, either Yes or No |
Bridge State | The operational state of the bridge, either Up or Down |
Port Mode | The operational mode of the bridge (always accs – access) |
Port Encp | The encapsulation type of the bridge (always cem – circuit emulation) |
Bridge Type | The bridge type: mddb, pcm, or vcb |
Branch Type | The type of device connected to the bridge, either master or slave (for MDDB and PCM applications) or N/A (for the VCB application) |
Table 129: Show Specific SCADA Bridge Detail Output Fields
Label | Description |
Scada Info | |
Description | The description configured for the bridge |
Bridge Id | The bridge ID in the format slot/mda/bridge-id, where bridge-id is 1 to 16 |
Type | The bridge type: Mddb, pcm, or vcb |
Admin Status | The administrative state of the bridge, either up or down |
Oper Status | The operational state of the bridge, either up or down |
Squelch | Indicates whether the squelch function has been enabled (applies only to MDDB and PCM) |
Squelch Timeout | The configured squelch timeout (applies only to MDDB and PCM) |
Squelch Recovery | The squelch recovery mode: manual or auto (applies only to MDDB and PCM) |
Recovery Timeout | The configured time after which the branch will automatically be put back in the normal state (applies only to MDDB and PCM) Applicable only if recovery mode is auto; if recovery mode is manual, the field displays N/A |
Squelch Status | The bitmap (32 bits) of the branches that are squelched (applies only to MDDB and PCM). A value of 0x0 means that no branch is squelched. |
Force-active | The master branch (1 or 2) to which the force-active command has been applied (applies only to MDDB and PCM) |
Redundant Mode | The redundancy mode for the master inputs: manual or auto (applies only to MDDB and PCM) |
Report Alarms | The configured type of alarms to be reported to the bridge (applies only to MDDB) |
Speed | The configured speed of the bridge (applies only to MDDB) |
Bridge Members | |
Identifier | The branch ID in the format bridge-id.branch-id, where bridge-id is 1 to 16 and branch-id is 1 to 32 |
Multidrop | The type of device connected to the bridge, either master or slave (applies only to MDDB and PCM) |
AdminState | The administrative state of the branch, either up or down |
OperState | The operational state of the branch, either up or down |
AlarmStatus | The current alarm state of the branch |
Squelched | Indicates whether the squelch function has been enabled |
Scada Bridge Statistics | |
Packets Input/Output | The total number of packets that were delivered by this sublayer to a higher (sub) layer and that were not addressed to a multicast or broadcast address at this sublayer The total number of packets that higher-level protocols requested to be transmitted and that were not addressed to a multicast or broadcast address at this sublayer, including those that were discarded or not sent |
Discards Input/Output | The number of inbound/outbound packets chosen to be discarded to possibly free up buffer space |
Unknown Proto Discards Input/Output | For packet-oriented interfaces, the number of packets received at the interface that 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 at the interface that were discarded because of an unknown or unsupported protocol. For any interface that does not support protocol multiplexing, this counter will always be 0. |
3.14.2.2. Monitor Commands
3.14.2.2.1. Port Monitor Commands
port
Syntax
Context
Description
This command enables port traffic monitoring. The specified ports’ statistical information is shown at the configured interval until the configured count is reached.
The first screen displays the current statistics related to the specified ports. The subsequent statistical information listed for each interval is displayed as a delta to the previous screen.
When the keyword 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 is shown. Monitor commands display the selected statistics according to the configured number of times at the interval specified.
Parameters
Syntax | port-id | slot[/mda[/port]] or slot/mda/port[.channel] |
bundle-id: bundle-type-slot/mda.bundle-num | ||
bundle keyword | ||
bundle-num: 1 to 32 | ||
type ima, ppp |
Output
The following outputs are examples of port monitoring information.
port
Syntax
Context
Description
This command enables ATM port traffic monitoring.
Parameters
Syntax | port-id | slot[/mda[/port]] or slot/mda/port[.channel] |
bundle-id: bundle-type-slot/mda.bundle-num | ||
bundle keyword | ||
bundle-num: 1 to 32 | ||
type ima, ppp |
Output
The following output is an example of ATM port monitoring information.
3.14.2.2.2. Fabric Profile Statistics Monitor Commands
fabric-profile
Syntax
Context
Description
This command enables monitoring of adapter card fabric profile statistics. The specified adapter card statistical information displays and automatically refreshes at the configured interval.
Parameters
3.14.2.2.3. SCADA Monitor Commands
scada
Syntax
Context
Description
This command enables traffic monitoring for a SCADA bridge or branch. The statistical information for the specified bridge or branch is shown at the configured interval until the configured count is reached.
The first screen displays the current statistics related to the specified bridge or branch. The subsequent statistical information listed for each interval is displayed as a delta to the previous screen.
When the keyword 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 is shown. Monitor commands display the selected statistics according to the configured number of times at the interval specified.
Parameters
3.14.2.3. Clear Commands
external-alarms
Syntax
Context
Description
This command clears remote site external alarm information.
Parameters
lag
Syntax
Context
Description
This command clears statistics for the specified LAG.
Parameters
mda
Syntax
Context
Description
The clear mda form of this command reinitializes the specified adapter card or DSL module and clears all the collected fabric statistics related to the card or module. The clear mda statistics form of this command clears all the collected fabric statistics related to the specified adapter card or DSL module. The clear mda ring form of this command clears the dynamic FDB entries related to the specified ring adapter card.
The clear mda all form of this command applies only to the 7705 SAR-A, 7705 SAR-Ax, 7705 SAR-M, 7705 SAR-H, 7705 SAR-Hc, 7705 SAR-W, and 7705 SAR-Wx and is equivalent to clearing all adapter cards using all keywords above (source-mda, destination-mda, fabric-port, and fabric-global)
Parameters
mw
Syntax
Context
Description
This command enables the context to clear microwave link parameters.
link
Syntax
Context
Description
This command clears microwave link statistics.
Parameters
radio
Syntax
Context
Description
This command reboots managed microwave devices or resets their performance monitoring statistics.
| Note: This command will bring down the microwave link; traffic will not pass over it while the radio is rebooting. |
Parameters
rsl-history
Syntax
Context
Description
This command clears the RSL history for the specified MPR-e radio.
Parameters
port
Syntax
Context
Description
This command clears the statistics for the specified port or channel group.
Parameters
Syntax | port-id | slot[/mda[/port]] or slot/mda/port[.channel] |
bundle-id | bundle-type-slot/mda.bundle-num | |
bundle keyword | ||
bundle-num: 1 to 32 | ||
type ima, ppp |
The clear port port-id statistics frame-relay dlci dlci command differs from the clear port port-id statistics command in the sense that the former clears the circuit-level SAP statistics whereas the latter clears the frame-relay port statistics.
scada
Syntax
Context
Description
This command clears the statistics for all or specified bridges or branches.
Parameters
3.14.2.4. Debug Commands
lag
Syntax
Context
Description
This command enables debugging for a LAG.
The no form of the command disables debugging for a LAG.
Parameters