Configuring Y.1731 Performance Monitoring
This chapter describes how to configure the Y.1731 Performance Monitoring on the Cisco ME 3400E switches and includes the following sections:
•Understanding Y.1731 Performance Monitoring
•Configuring Two-way Delay Measurement
•Configuring Single Ended Synthetic Loss Measurement
•Verifying the Frame Delay Configurations
•Troubleshooting
Understanding Y.1731 Performance Monitoring
When service providers sell connectivity services to a subscriber, a Service Level Agreement (SLA) is reached between the buyer and seller of the service. The SLA defines the attributes offered by a provider and serves as a legal obligation on the service provider. As the level of performance required by subscribers increases, service providers need to monitor the performance parameters being offered. To capture the needs of the service providers, organizations have defined various standards such as IEEE 802.1ag and ITU-T Y.1731 that define the methods and frame formats used to measure performance parameters.
Y.1731 Performance Monitoring (PM) provides a standard ethernet PM function that includes measurement of ethernet frame delay, frame delay variation, frame loss, and frame throughput measurements specified by the ITU-T Y-1731 standard and interpreted by the Metro Ethernet Forum (MEF) standards group. As per recommendations, the ME 3400E switches should be able to send, receive and process PM frames in intervals of 1000ms (1000 frames per second) with the maximum recommended transmission period being 1000ms (1000 frames per second) for any given service.
To measure SLA parameters such as frame delay or frame delay variation, a small number of synthetic frames are transmitted along with the service to the end point of the maintenance region, where the Maintenance End Point (MEP) responds to the synthetic frame. For a function such as connectivity fault management, the messages are sent less frequently, while performance monitoring frames are sent more frequently.
Figure 45-1 illustrates Maintenance Entities (ME) and Maintenance End Points (MEP) typically involved in a point-to-point metro ethernet deployment for the Y.1731 standard.
Figure 45-1 A Point-to-Point Metro Ethernet Deployment with Typical Maintenance Entities and Maintenance Points
Performance monitoring parameters include
•Connectivity, page 41-2
•Frame Delay and Frame Delay Variation, page 41-2
•Frame Loss Ratio and Availability
Connectivity
The first step to performance monitoring is verifying the connectivity. Continuity check messages (CCM) are best suited for connectivity verification. Since they are optimized for fault recovery operation, they are not usually accepted as a component of an SLA due to the timescale difference between SLA and fault recovery. Instead, Connectivity Fault Management (CFM) and Continuity Check Database (CCDB) are used to verify connectivity. For more information on CFM see, Configuring Ethernet OAM, CFM, and E-LMI.
Frame Delay and Frame Delay Variation
Ethernet frame delay measurement (ETH-DM) is used for on-demand ethernet Operations, Administration, and Maintenance (OAM) to measure frame delay and frame delay variation.
Ethernet frame delay and frame delay variation are measured by sending periodic frames with ETH-DM information to the peer MEP and receiving frames with ETH-DM information from the peer MEP. During the interval, each MEP measures the frame delay and frame delay variation.
ETH-DM also collects information, such as worst and best case delays, average delay, and average delay variation. It provides a runtime display of delay statistics during a two-way delay measurement. ETH-DM records the last 100 samples collected per remote Maintenance End Point (MEP) or per CFM session.
These are the two methods of delay measurement, as defined by the ITU-T Y.1731 standard: One-way ETH-DM and Two-way ETH-DM. However, only Two-way ETH-DM is supported.
Two-way ETH-DM:
Each MEP transmits frames with ETH-DM request information to its peer MEP and receives frames with ETH-DM reply information from its peer MEP. Two way frame delay and frame delay variation are measured using delay measurement message (DMM) and delay measurement reply (DMR) frames.
Synthetic Loss Measurement
Synthetic Loss Measurement (ETH-SLM) is a mechanism to measure frame loss using synthetic frames, rather than data traffic. A number of synthetic frames are sent and received, and the number that are lost is calculated between a pair of MEPs. This number is used as a statistical sample to approximate the frame loss ratio of data traffic.
ETH-SLM transmits synthetic frames with ETH-SLM information to a peer MEP and similarly receives synthetic frames with ETH-SLM information from the peer MEP. Each MEP performs frame loss measurements which contribute to unavailable time.
A near-end frame loss refers to frame loss associated with ingress data frames. Far-end frame loss refers to frame loss associated with egress data frames. Both near-end and far-end frame loss measurements contribute to near-end severely errored seconds and far end severely errored seconds which together contribute to unavailable time.
ETH-SLM is measured using SLM and SLR frames. Although ITU-T Y.1731 defines two methods of frame loss measure, only Single-ended ETH-SLM is supported.
With Single-ended ETH-SLM, each MEP transmits frames with the ETH-SLM request information to its peer MEP and receives frames with ETH-SLM reply information from its peer MEP to complete synthetic loss measurements.
Supported Interfaces
Y.1731 PM supports these interfaces:
•SLM and DMM on Switchport on OFM
•SLM and DMM on Switchport on IFM
•SLM and DMM on PC Switchport OFM
•SLM and DMM on PC Switchport IFM
Restrictions and Usage Guidelines
Follow these restrictions and usage guidelines when you configure Y.1731 PM on the switch:
•Y.1731 PM is not supported on these interfaces:
–mLACP
–Port MEPs
–L2VFI
•Y.1731 PM is not supported on customer VLANs (C-VLANs). PM is only supported on service provider VLANs (S-VLANs).
•PM does not support SNMP, although CLI and system-logging is supported.
•Frame throughput measurements are not supported.
•Clock synchronization is not mandatory for Two-way delay measurement.
•For PM support on port-channels. adding or deleting a member link renders the session invalid.
•On-demand SLM/DMM is not supported on ME 3400E.
•SLM supports the following modes for sending frames:
–Continues Mode
–Burst Mode
•SLM supports frame interval of 1 sec and 100 ms.
Configuring Two-way Delay Measurement
To configure a two-way delay measurement, complete these steps:
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Step 1 |
enable |
Enables privileged EXEC mode. Enter your password if prompted. |
Step 2 |
configure terminal |
Enters global configuration mode. |
Step 3 |
ip sla n |
Enables the IP SLA configuration. |
Step 4 |
ethernet y1731 delay DMM domain domain {{vlan | evc} value}{mpid | mac-address} value cos value source {mpid | mac-address} value |
Configures a two-way delay measurement on the sender. •evc—Specifies the ethernet virtual circuit identifier. •vlan—Specifies the VLAN. •cos —Specifies the class of service. The value ranges between 0 and 7. •mpid—Specifies the destination MP ID. The value ranges between 1 and 8191. •mac-address—Specifies the destination mac-address. •source—Specifies the source MP ID or mac-address. |
Step 5 |
frame {interval | offset | size} value |
Configures Y.1731 frame parameters. •interval—Specifies the number of intervals. •offset—Specifies the frame offset to be used for calculations. The value ranges between 1 and 10. •size—Specifies the frame size. The value ranges between 64 and 384. |
Step 6 |
history {interval} value |
Configures Y.1731 history parameters. •interval—Specifies the number of intervals. The interval ranges between 1 and 10. |
Step 7 |
aggregate {interval} value |
Configures Y.1731 aggregation parameters. •interval—Specifies the number of intervals. The aggregation period, in seconds, ranges between 1 and 65535. |
Step 8 |
distribution {delay | delay-variation} {one-way | two-way} value |
Configures Y.1731 distribution parameters. •delay—Specifies delay distribution parameters. •delay-variation—Specifies delay-variation distribution parameters. •one-way—Specifies one-way distribution parameters. •two-way—Specifies two-way distribution parameters. |
Step 9 |
clock sync |
Checks whether the clocks are synchronized on the sender and receiver. |
Step 10 |
max-delay value |
Configures the maximum delay in milliseconds. The value ranges between 1 and 65535. |
Step 11 |
owner value |
Specifies the operation owner. |
Step 12 |
exit |
Exits the Y.1731 submode and enters the global configuration mode. |
Step 13 |
ip sla schedule n {life | ageout | recurring | start-time} value start-time start time |
Schedules the two-way delay measurement on the sender. •Life—Specifies the period time to execute in seconds. •Ageout—Specifies the period time to keep the entry when inactive. •Recurring—Specifies the probe to be scheduled automatically every day. •Start-time—Specifies the time to start the entry. The options available are: –after –hh:mm –hh:mm:ss –now –pending |
Step 14 |
exit |
Exits the global configuration mode. |
Configuration Example
The following example shows a two-way frame delay measurement configuration:
Switch# configure terminal
Switch(config-ip-sla)# ethernet y1731 delay DMM domain ifm_400 evc e1 mpid 401 cos 4
source mpid 1
Switch(config-sla-y1731-delay)# history interval 5
Switch(config-sla-y1731-delay)# aggregate interval 60
Switch(config-sla-y1731-delay)# exit
Switch(config)# ip sla schedule 1 start-time after 00:00:30
Configuring Single Ended Synthetic Loss Measurement
To configure single ended synthetic loss measurement, complete the steps in this section.
Note Before you begin, configure the interfaces for loss monitoring by using the monitor loss counter [priority cos range] command under the EVC CFM sub-config mode.
Configuring SLM on the Sender
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Step 1 |
enable |
Enables privileged EXEC mode. Enter your password if prompted. |
Step 2 |
configure terminal |
Enters global configuration mode. |
Step 3 |
ip sla n |
Enables the IP SLA configuration. |
Step 4 |
ethernet y1731 loss SLM {burst} domain domain {{vlan | evc} value}{mpid | mac-address} value cos value source {mpid | mac-address} value |
Configures single ended frame loss measurement on the sender. •burst—(Optional) Specifies the number of frames to be sent in the cycle. •vlan—Specifies the VLAN. •evc—Specifies the ethernet virtual circuit identifier. •cos —Specifies the class of service. The value ranges between 0 and 7. The cos value 7 is for aggregated cos and is used when LMM is configured for routed port sub interface. •source—Specifies the source MP ID or mac-address. •mpid—Specifies the destination MP ID. The value ranges between 1 and 8191. •mac-address—Specifies the destination mac-address. |
Step 5 |
aggregate {interval} value |
Configures the Y.1731 aggregation parameters. •interval—Specifies the number of intervals. The aggregation period ranges between 1 and 65535 seconds. |
Step 6 |
frame consecutive value |
Specifies the number of consecutive measurements used to determine availability or unavailability status. |
Step 7 |
frame consecutive loss-ratio value |
Specifies the number of frames over which to calculate frame-loss ratio. |
Step 8 |
owner value |
Specifies the operation owner. |
Step 9 |
exit |
Exits the Y.1731 submode and enters the global configuration mode. |
Step 10 |
exit |
Exits the global configuration mode. |
Step 11 |
ip sla n |
Enables the IP SLA configuration. |
Step 12 |
ethernet y1731 loss SLM {burst} domain domain {{vlan | evc} value}{mpid | mac-address} value cos value source {mpid | mac-address} value |
Configures single ended frame loss measurement on the sender. •burst—(Optional) Specifies the number of frames to be sent in the cycle. •vlan—Specifies the VLAN. •evc—Specifies the ethernet virtual circuit identifier. •mpid—Specifies the destination MP ID. The value ranges between 1 and 8191. •mac-address—Specifies the destination mac-address. •cos —Specifies the class of service. The value ranges between 0 and 7. The cos value 7 is for aggregated cos and is used when LMM is configured for routed port sub interface. •source—Specifies the source MP ID or mac-address. |
Step 13 |
frequency seconds |
Configures the frequency of the burst cycles. The range is 1 to 900 seconds. |
Step 14 |
aggregate {interval} burst-cycles value |
Configures the Y.1731 aggregation parameters. •interval—Specifies the number of intervals. The aggregation period ranges between 1 and 65535 seconds. •burst-cycles—Specifies the number of burst cycles which to aggregate. The range is from 1 to 900 seconds. Note The burst-cycles parameter appears only if you configure the burst value in Step 12. |
Step 15 |
frame consecutive value |
Specifies the number of consecutive measurements used to determine availability or unavailability status. |
Step 16 |
ip sla reaction-configuration operation-number {react {unavailableDS|unavailableSD} {loss-ratioDS|loss-ratioSD}[threshold-type{average[number-of-measurements]|consecutive[occurrences] | immediate}][threshold-value upper-thresholdlower-threshold] |
Configures proactive threshold monitoring for frame loss measurements. |
Step 17 |
ip sla schedule n {life | ageout | recurring | start-time} value start-time start time |
Schedules the single ended frame loss measurement on •Life—Specifies the period time to execute in seconds. •Ageout—Specifies the period time to keep the entry when inactive. •Recurring—Specifies the probe to be scheduled automatically every day. •Start-time—Specifies the time to start the entry. The options available are: –after –hh:mm –hh:mm:ss –now –pending |
Step 18 |
exit |
Exits the Y.1731 submode and enters the global configuration mode. |
Step 19 |
exit |
Exits the global configuration mode. |
Configuring SLM on the Responder
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Step 1 |
enable |
Enables privileged EXEC mode. Enter your password if prompted. |
Step 2 |
configure terminal |
Enters global configuration mode. |
Step 3 |
ethernet cfm slm max number_of_slm_sessions |
Specifies the maximum number of SLM sessions that a responder maintains. Range is 100 through 32000. |
Step 4 |
ethernet cfm slm timeout timeout_minutes |
Specifies the timeout value for idle SLM sessions. Range is 5 to 2400 minutes. |
Step 5 |
exit |
Exits the global configuration mode. |
Configuration Example
This example shows the configuration of single ended frame loss measurement:
Switch# configure terminal
Switch(config-ip-sla)# ethernet y1731 loss SLM domain r3 vlan 10 mpid 3 cos 1 source
mpid
Switch(config-sla-y1731-loss)# aggregate interval 35
Switch(config-sla-y1731-loss)# frame consecutive 4
Switch(config-sla-y1731-loss)# frame consecutive loss-ratio 7
Switch(config-sla-y1731-loss)# exit
Switch(config-ip-sla)# exit
Switch(config-ip-sla)# ethernet y1731 loss SLM burst domain r3 vlan 10 mpid 3 cos 2
source
Switch(config-sla-y1731-loss)# frequency 20
Switch(config-sla-y1731-loss)# aggregate interval burst-cycles 6
Switch(config-sla-y1731-loss)# frame consecutive 4
Switch(config-sla-y1731-loss)# exit
Switch(config-ip-sla)# exit
Switch(config-ip-sla)# exit
Switch(config-ip-sla)# ip sla reaction-configuration 1 react loss-ratioSD
threshold-type
immediate threshold-value 55 50
Switch(config-ip-sla)# ip sla reaction-configuration 2 react loss-ratioDS
threshold-type
immediate threshold-value 55 50
Switch(config-ip-sla)# exit
Switch(config)# ip sla schedule 1 life forever start-time now
Switch(config)# ip sla schedule 2 life forever start-time now
Verifying the Frame Delay Configurations
To verify and monitor the frame delay and frame delay variation measurement configuration, use this command in privileged EXEC mode:
Switch# show ip sla statistics n
Delay Statistics for Operation n
Type of operation: Y1731 Delay Measurement
Latest operation start time: *21:37:08.895 PST Thu Aug 20 2009
Latest operation return code:
Number of measurements initiated: <x>
Number of measurements completed: <x>
Max/Avg/Min forward: x/y/z -> Min is only shown if clocks are in sync
Max/Avg/Min backward: x/y/z -> Only for two-way
Max/Avg/Min: x/y/z -> Only for two-way
Timestamps forward: Max - 21:37:08.895 PST Thu Aug 20 2009/Min - 21:37:08.995 PST
Thu Aug 20 2009
Timestamps backward: Max - xxx/Min - yyy
Timestamps: Max - xxx/Min - yyy
Max/Avg/Min forward: x/y/z -> Min is only shown if clocks are in sync
Max/Avg/Min backward: x/y/z -> Only for two-way
Max/Avg/Min: x/y/z -> Only for two-way
Operation time to live: Forever
To display all details of frame delay and frame delay variation measurements, use the show ip sla statistics detail command.
Switch# show ip sla statistics detail
IPSLAs Latest Operation Statistics
Delay Statistics for Y1731 Operation 3
Type of operation: Y1731 Delay Measurement
Latest operation start time: *00:00:00.000 PST Mon Jan 1 1900
Latest operation return code: OK
Start time: *00:00:00.000 PST Mon Jan 1 1900
Elapsed/End time: *00:00:00.000 PST Mon Jan 1 1900
Number of measurements initiated: 0
Number of measurements completed: 0
Max/Avg/Min TwoWay: 140116936/140116944/140116952
Timestamps TwoWay: Max - *00:00:00.000 PST Mon Jan 1 1900/Min - *00:00:00.000 PST Mon
Jan 1 1900
Bucket Range: 0-4999 microsecond
Bucket Range: 5000-9999 microsecond
Bucket Range: 10000-14999 microsecond
Bucket Range: 15000-19999 microsecond
Bucket Range: 20000-24999 microsecond
Bucket Range: 25000-29999 microsecond
Bucket Range: 30000-34999 microsecond
Bucket Range: 35000-39999 microsecond
Bucket Range: 40000-44999 microsecond
Bucket Range: 45000--2 microsecond
Bucket Range: 0-4999 microsecond
Bucket Range: 5000-9999 microsecond
Bucket Range: 10000-14999 microsecond
Bucket Range: 15000-19999 microsecond
Bucket Range: 20000-24999 microsecond
Bucket Range: 25000-29999 microsecond
Bucket Range: 30000-34999 microsecond
Bucket Range: 35000-39999 microsecond
Bucket Range: 40000-44999 microsecond
Bucket Range: 45000--2 microsecond
Bucket Range: 0-0 microsecond
Bucket Range: 1-1 microsecond
Bucket Range: 2-2 microsecond
Bucket Range: 3-3 microsecond
Bucket Range: 4--2 microsecond
Max/Avg backward positive: 140116936/140116944
Timestamp backward positive: Max - *00:00:00.000 PST Mon Jan 1 1900
Max/Avg backward negative: 140116936/140116944
Timestamp backward negative: Max - *00:00:00.000 PST Mon Jan 1 1900
Max/Avg TwoWay positive: 140116936/140116944
Timestamp TwoWay positive: Max - *00:00:00.000 PST Mon Jan 1 1900
Max/Avg TwoWay negative: 140116936/140116944
Timestamp TwoWay negative: Max - *00:00:00.000 PST Mon Jan 1 1900
Bucket Range: 0-4999 microsecond
Bucket Range: 5000-9999 microsecond
Bucket Range: 10000-14999 microsecond
Bucket Range: 15000-19999 microsecond
Bucket Range: 20000-24999 microsecond
Bucket Range: 25000-29999 microsecond
Bucket Range: 30000-34999 microsecond
Bucket Range: 35000-39999 microsecond
Bucket Range: 40000-44999 microsecond
Bucket Range: 45000--2 microsecond
Bucket Range: 0-4999 microsecond
Bucket Range: 5000-9999 microsecond
Bucket Range: 10000-14999 microsecond
Bucket Range: 15000-19999 microsecond
Bucket Range: 20000-24999 microsecond
Bucket Range: 25000-29999 microsecond
Bucket Range: 30000-34999 microsecond
Bucket Range: 35000-39999 microsecond
Bucket Range: 40000-44999 microsecond
Bucket Range: 45000--2 microsecond
Bucket backward positive:
Bucket Range: 0-4999 microsecond
Bucket Range: 5000-9999 microsecond
Bucket Range: 10000-14999 microsecond
Bucket Range: 15000-19999 microsecond
Bucket Range: 20000-24999 microsecond
Bucket Range: 25000-29999 microsecond
Bucket Range: 30000-34999 microsecond
Bucket Range: 35000-39999 microsecond
Bucket Range: 40000-44999 microsecond
Bucket Range: 45000--2 microsecond
Bucket backward negative:
Bucket Range: 0-4999 microsecond
Bucket Range: 5000-9999 microsecond
Bucket Range: 10000-14999 microsecond
Bucket Range: 15000-19999 microsecond
Bucket Range: 20000-24999 microsecond
Bucket Range: 25000-29999 microsecond
Bucket Range: 30000-34999 microsecond
Bucket Range: 35000-39999 microsecond
Bucket Range: 40000-44999 microsecond
Bucket Range: 45000--2 microsecond
Bucket Range: 0-4999 microsecond
Bucket Range: 5000-9999 microsecond
Bucket Range: 10000-14999 microsecond
Bucket Range: 15000-19999 microsecond
Bucket Range: 20000-24999 microsecond
Bucket Range: 25000-29999 microsecond
Bucket Range: 30000-34999 microsecond
Bucket Range: 35000-39999 microsecond
Bucket Range: 40000-44999 microsecond
Bucket Range: 45000--2 microsecond
Verifying Synthetic Loss Measurement Configurations
To verify the SLM configurations, use the following commands in privileged EXEC mode:
Switch# show ip sla statistics 2 details
IPSLAs Latest Operation Statistics
Loss Statistics for Y1731 Operation 2
Type of operation: Y1731 Loss Measurement
Latest operation start time: 14:47:36.954 IST Wed Nov 21 2012
Latest operation return code: OK
Start time: 14:47:36.954 IST Wed Nov 21 2012
Number of measurements initiated: 20
Number of measurements completed: 20
Unavailable indicators: 0
Min/Avg/Max - (FLR % ): 0:9/000.00%/0:9
Cumulative - (FLR % ): 000.00%
Min - 14:47:50.574 IST Wed Nov 21 2012
Max - 14:47:50.574 IST Wed Nov 21 2012
Unavailable indicators: 0
Min/Avg/Max - (FLR % ): 0:9/000.00%/0:9
Cumulative - (FLR % ): 000.00%
Min - 14:47:50.574 IST Wed Nov 21 2012
Max - 14:47:50.574 IST Wed Nov 21 2012
Switch# show ip sla history 100 interval-statistics
Loss Statistics for Y1731 Operation 100
Type of operation: Y1731 Loss Measurement
Latest operation start time: 10:36:28.610 UTC Mon May 14 2012
Latest operation return code: OK
Start time: 10:36:28.610 UTC Mon May 14 2012
End time: 10:37:28.610 UTC Mon May 14 2012
Number of measurements initiated: 594
Number of measurements completed: 594
Number of Observations 118
Available indicators: 118
Unavailable indicators: 0
Min/Avg/Max - (FLR % ): 0:4/000.00%/0:4
Cumulative - (FLR % ): 000.00%
Min - 10:37:28.246 UTC Mon May 14 2012
Max - 10:37:28.246 UTC Mon May 14 2012
Number of Observations 118
Available indicators: 118
Unavailable indicators: 0
Min/Avg/Max - (FLR % ): 0:4/000.00%/0:4
Cumulative - (FLR % ): 000.00%
Min - 10:37:28.246 UTC Mon May 14 2012
Max - 10:37:28.246 UTC Mon May 14 2012
To display the same outputs as the latest statistics detail command, use the show ip sla history interval n command. The number displayed is the number of intervals configured.
•Output for Loss Measurement:
Switch# show ip sla history 1 interval-statistics
Loss Statistics for Y1731 Operation 1
Type of operation: Y1731 Loss Measurement
Latest operation start time: *09:46:16.225 UTC Fri Nov 26 2010
Latest operation return code: OK
Start time: *09:46:16.225 UTC Fri Nov 26 2010
End time: *09:48:16.221 UTC Fri Nov 26 2010
Number of measurements initiated: 12006
Number of measurements completed: 12000
Number of Observations 11999
Max - *09:47:20.252 UTC Fri Nov 26 2010/ Min - *09:48:16.221 UTC Fri Nov 26 2010
Available indicators: 11999
Unavailable indicators: 0
Max/Avg/Min - (FLR % ): 1:3/2.78%/0:0
Number of Observations 11999
Max - *09:48:16.221 UTC Fri Nov 26 2010/ Min - *09:48:16.221 UTC Fri Nov 26 2010
Available indicators: 11999
Unavailable indicators: 0
Max/Avg/Min - (FLR % ): 0:0/0.0%/0:0
•Output for Delay Measurement:
Switch# show ip sla history 10 interval-statistics
Delay Statistics for Y1731 Operation 10
Type of operation: Y1731 Delay Measurement
Latest operation start time: 10:58:30.144 PDT Tue Jan 4 2011
Latest operation return code: Timeout
Start time: 10:58:30.144 PDT Tue Jan 4 2011
End time: 10:59:05.140 PDT Tue Jan 4 2011
Number of measurements initiated: 33
Number of measurements completed: 34
Number of TwoWay observations: 34
Max/Avg/Min TwoWay: 113364/100499/100099 (microsec)
Time of occurrence TwoWay:
Max - 10:59:05.140 PDT Tue Jan 4 2011
Min - 10:58:40.076 PDT Tue Jan 4 2011
Bin Range (microsec) Total observations
Number of TwoWay positive observations: 19
Max/Avg TwoWay positive: 13256/706 (microsec)
Time of occurrence TwoWay positive:
Max - 10:59:05.140 PDT Tue Jan 4 2011
Number of TwoWay negative observations: 14
Max/Avg TwoWay negative: 86/11 (microsec)
Time of occurrence TwoWay negative:
Max - 10:58:40.076 PDT Tue Jan 4 2011
Bin Range (microsec) Total observations
Bin Range (microsec) Total observations
To display the performance monitoring session summary, use the show ethernet cfm pm session summary command.
Switch# show ethernet cfm pm session summary
Number of Configured Session : 1
Number of Active Session: 1
Number of Inactive Session: 0
To display the SLM configurations, use the show run | b ip sla command in privileged EXEC mode.
Switch# show run | b ip sla
ethernet y1731 loss SLM domain PROVIDER_DOMAIN_VLAN evc domain_vlan101@101 mpid 101
cos 2
ethernet y1731 loss SLM burst domain PROVIDER_DOMAIN_VLAN evc domain_vlan101@101 mpid
101
availability algorithm static-window
ip sla schedule 103 start-time now
ip sla enable reaction-alerts
Switch# show ip sla configuration
IP SLAs Infrastructure Engine-III
Operation timeout (milliseconds): 0
Ethernet Y1731 Loss Operation
Domain: PROVIDER_DOMAIN_VLAN
Request size (Padding portion): 64
Operation frequency (seconds): 20 (not considered if randomly scheduled)
Next Scheduled Start Time: Pending trigger
Randomly Scheduled : FALSE
Entry Ageout (seconds): never
Recurring (Starting Everyday): FALSE
Status of entry (SNMP RowStatus): Active
Threshold (milliseconds): 0
Frame consecutive loss-ratio: 10
Availability algorithm: sliding-window
Operation timeout (milliseconds): 0
Ethernet Y1731 Loss Operation
Domain: PROVIDER_DOMAIN_VLAN
Request size (Padding portion): 64
Operation frequency (seconds): 20 (not considered if randomly scheduled)
Next Scheduled Start Time: Start Time already passed
Randomly Scheduled : FALSE
Entry Ageout (seconds): never
Recurring (Starting Everyday): FALSE
Status of entry (SNMP RowStatus): Active
Threshold (milliseconds): 0
Aggregate interval burst-cycles: 1
Frame consecutive loss-ratio: 10
Availability algorithm: static-window
Troubleshooting
These troubleshooting scenarios apply to the Y.1731 performance monitoring configurations:
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When the IP SLA sessions do not come up. |
Use the debug commands: •debug ethernet cfm pm events [session <session id>] •debug ethernet cfm pm error [session <session id>] •debug ethernet cfm pm diagnostic •debug ethernet cfm pm ipc [session <session id>] •debug ethernet cfm pm packet [session <session id>] |