- Preface
- Cisco ONS Documentation Roadmap for Release 9.2.1
- Chapter 1, CE-Series Ethernet Cards
- Chapter 2, E-Series and G-Series Ethernet Cards
-
- Chapter 3, ML-Series Cards Overview
- Chapter 4, CTC Operations
- Chapter 5, Initial Configuration
- Chapter 6, Configuring Interfaces
- Chapter 7, Configuring CDP
- Chapter 8, Configuring POS
- Chapter 9, Configuring Bridges
- Chapter 10, Configuring IEEE 802.1Q Tunneling and Layer 2 Protocol Tunneling
- Chapter 11, Configuring STP and RSTP
- Chapter 12, Configuring Link Aggregation
- Chapter 13, Configuring Security for the ML-Series Card
- Chapter 14, Configuring RMON
- Chapter 15, Configuring SNMP
- Chapter 16, Configuring VLAN
- Chapter 17, Configuring Networking Protocols
- Chapter 18, Configuring IRB
- Chapter 19, Configuring IEEE 802.17b Resilient Packet Ring
- Chapter 20, Configuring VRF Lite
- Chapter 21, Configuring Quality of Service
- Chapter 22, Configuring Ethernet over MPLS
- Chapter 23, Configuring the Switching Database Manager
- Chapter 24, Configuring Access Control Lists
- Chapter 25, Configuring Cisco Proprietary Resilient Packet Ring
-
- Chapter 26, ML-MR-10 Card Overview
- Chapter 27, IP Host Functionality on the ML-MR-10 Card
- Chapter 29: Configuring Security for the ML-MR-10 Card
- Chapter 30: Configuring IEEE 802.17b Resilient Packet Ring on the ML-MR-10 Card
- Chapter 31, Configuring POS on the ML-MR-10 Card
- Chapter 32, Configuring Card Port Protection on the ML-MR-10 Card
- Chapter 32, Configuring Ethernet Virtual Circuits and QoS on the ML-MR-10 Card
- Chapter 34: Configuring Link Agrregation on ML-MR-10 card
- Chapter 35, Configuring Ethernet OAM (IEEE 802.3ah), CFM (IEEE 802.1ag), and E-LMI on the ML-MR-10 Card
- Appendix A: CPU and Memory Utilization on the ML-MR-10 Card
- Appendix A, POS on ONS Ethernet Cards
- Appendix B, Command Reference
- Appendix C, Unsupported CLI Commands
- Appendix D, Using Technical Support
- [no] bridge bridge-group-number protocol {drpri-rstp | ieee | rstp}
- clear counters
- [no] clock auto
- interface spr 1
- [no] ip radius nas-ip-address {hostname | ip-address}
- microcode fail system-reload
- [no] pos pdi holdoff time
- [no] pos report alarm
- [no] pos trigger defects condition
- [no] pos scramble-spe
- [no] protection group group_num
- [no] protection group enable
- [no] protection-group group_num
- [no] protection peer slot slot_num
- [no] protection fail-action group-switch
- [no] protection-group <group_num> standby-on
- rpr-ieee atd-timer value
- rpr-ieee fairness weight value
- [no] rpr-ieee ri foreign
- rpr-ieee keepalive-timer interval [east | west]
- [no] rpr-ieee protection pref jumbo
- [no] rpr-ieee protection request forced-switch {east | west}
- [no] rpr-ieee protection request manual-switch {east | west}
- rpr-ieee protection sonet holdoff-timer interval {east | west}
- rpr-ieee protection timer fast rate {east | west}
- rpr-ieee protection timer slow rate {east | west}
- rpr-ieee protection wtr-timer {interval | never}
- rpr-ieee flag c2 value
- rpr-ieee pdi holdoff time interval
- [no] rpr-ieee report alarm
- [no] rpr-ieee ri {primary | secondary} peer peer-MAC-address
- [no] rpr-ieee ri {primary | secondary} delay interval
- [no] rpr-ieee shutdown {east | west}
- rpr-ieee tx-traffic rate-limit high rate [east | west]
- rpr-ieee tx-traffic rate-limit medium rate [east | west]
- rpr-ieee tx-traffic rate-limit reserved rate [east | west]
- [no] rpr-ieee tx-traffic strict
- [no] rpr-ieee tx-traffic preferred-span {RPR Dest Station mac} {east|west}
- show controller pos interface-number [detail]
- show controller rpr-ieee interface-number [detail]
- show interface pos interface-number
- show interface rpr-ieee interface-number
- show ons alarm
- show ons alarm defect eqpt
- show ons alarm defect port
- show ons alarm defect pos interface-number
- show ons alarm defect rpr [interface-number]
- show ons alarm failure eqpt
- show ons alarm failure port
- show ons alarm failure pos [interface-number]
- show ons alarm failure rpr interface-number
- show ethernet service instance platform
- sh ons metroethernet vlanDrops interface interface-number
- show ons qos output interface interface-number
- show ons queue counters drop interface interface-number
- show ons queue counters per_q_cntr int interface-number
- show policy-map interface interface-number
- show protection interface interface-name
- show protection <detail | group> group_num
- show rpr-ieee counters
- show rpr-ieee failure rpr-ieee interface-number
- show rpr-ieee fairness detail
- show rpr-ieee fairness history
- show rpr-ieee protection
- show rpr-ieee rate detail
- show rpr-ieee topology detail
- [no] shutdown
- spr-intf-id shared-packet-ring-number
- [no] spr load-balance {auto | port-based}
- spr station-id station-id-number
- spr wrap {immediate | delayed}
- [no] xconnect [destination] [vc-id] [encapsulation mpls]
Command Reference
Note The terms "Unidirectional Path Switched Ring" and "UPSR" may appear in Cisco literature. These terms do not refer to using Cisco ONS 15xxx products in a unidirectional path switched ring configuration. Rather, these terms, as well as "Path Protected Mesh Network" and "PPMN," refer generally to Cisco's path protection feature, which may be used in any topological network configuration. Cisco does not recommend using its path protection feature in any particular topological network configuration.
This appendix provides a command reference for those Cisco IOS commands or those aspects of Cisco IOS commands that are unique to ML-Series cards. For information about the standard Cisco IOS Release 12.2 (29a) SV commands, refer to the Cisco IOS documentation set available at http://www.cisco.com/en/US/products/ps6350/tsd_products_support_series_home.html.
[no] bridge bridge-group-number protocol {drpri-rstp | ieee | rstp}
To define the protocol employed by a bridge group, use the bridge protocol global configuration command. If no protocol will be employed by the bridge group, this command is not needed. To remove a protocol from the bridge group, use the no form of this command with the appropriate keywords and arguments.
Syntax Description
Defaults
N/A
Command Modes
Global configuration
Usage Guidelines
The Rapid Spanning Tree Protocol (RSTP) or Spanning Tree Protocol (STP) can be implemented.
Examples
The following example assigns the protocol to the bridge group with the bridge group number of 100.
Router(config)#
bridge 100 protocol rstp
Related Commands
bridge-group
clear counters
Use this command to simultaneously clear Ethernet interface performance monitoring (PM) counters in Cisco Transport Controller (CTC), Transaction Language One (TL1), and the Cisco IOS CLI. Using Cisco IOS, you can clear counters on a per-interface basis for any interface, except the 802.13 IEEE RPR interface; in that instance, you can only clear all counters for both spans.
The clear counters command can also be executed from CTC by using the Clear button, or from TL1 using a command on the interface. The CTC clearing function allows you to choose between clearing front-end or back-end interfaces. Cisco IOS and TL1 interface clear commands do not have this ability.
Syntax Description
This command has no arguments or keywords.
Defaults
The default is for PM counters not to be cleared.
Command Modes
Privileged exec
Usage Guidelines
This command is applicable to the ML100T-12, ML1000-2, and ML-MR-10 cards on the ONS 15454.
Examples
Router#clear counters
Clear "show interface" counters on all interfaces [confirm]
Router#
Related Commands
show interface
[no] clock auto
Use the clock auto command to determine whether the system clock parameters are configured automatically from the TCC2/TCC2P card. When enabled, both daylight savings time and time zone are automatically configured, and the system clock is periodically synchronized to the TCC2/TCC2P card. Use the no form of the command to disable this feature.
Syntax Description
This command has no arguments or keywords.
Defaults
The default setting is clock auto.
Command Modes
Global configuration
Usage Guidelines
The no form of the command is required before any manual configuration of summertime, timezone, or clock. The no form of the command is required if Network Time Protocol (NTP) is configured in Cisco IOS. The ONS 15454 SONET/SDH is also configured through Cisco Transport Controller (CTC) to use a NTP or Simple Network Time Protocol (SNTP) server to set the date and time of the node.
Examples
Router(config)# no clock auto
Related Commands
clock timezone
clock set
interface spr 1
Use this command to create a shared packet ring (SPR) interface on an ML-Series card for a resilient packet ring (RPR) in Cisco proprietary RPR mode. If the interface has already been created, this command enters spr interface configuration mode. The only valid spr interface number is 1.
Defaults
N/A
Command Modes
Global configuration
Usage Guidelines
The command allows the user to create a virtual interface for the Cisco proprietary RPR/SPR. Commands such as spr wrap or spr station-id can then be applied to the proprietary RPR through SPR configuration command mode.
In this command, interface can be shortened to int.
Examples
The following example creates the shared packet ring interface:
Router(config)#
interface spr 1
Related Commands
spr-intf-id
spr station-id
spr wrap
[no] ip radius nas-ip-address {hostname | ip-address}
The ML-Series card allows the user to configure a separate nas-ip-address for each ML-Series card. This allows the Remote Authentication Dial In User Services (RADIUS) server to distinguish among individual ML-Series card in the same ONS node. If there is only one ML-Series card in the ONS node, this command does not provide any advantage. The public IP address of the ONS node serves as the nas-ip-address in the RADIUS packet sent to the server.
Identifying the specific ML-Series card that sent the request to the server can be useful in debugging from the server. The nas-ip-address is primarily used for validation of the RADIUS authorization and accounting requests.
If this value is not configured, the nas-ip-address is filled in by the normal Cisco IOS mechanism using the value configured by the ip radius-source command. If no value is specified, then the best IP address that routes to the server is used. If no address routing to the server is available, the IP address of the server is used.
Syntax Description
Defaults
N/A
Command Modes
Global configuration
Usage Guidelines
This command allows the user to specify the IP address or hostname of attribute 4 (nas-ip-address) in the radius packet.
Examples
The following example creates an IP address for attribute 4 of the RADIUS packet:
Router# configure terminal
Router(config)# [no] ip radius nas-ip-address 10.92.92.92
Related Commands
aaa new-model
aaa authentication login
microcode fail system-reload
In the event of a microcode failure, use this command to configure the ML-Series card to save information to the flash memory and then reboot. The information is saved for use by the Cisco Technical Assistance Center (Cisco TAC). To contact TAC, see the "Obtaining Documentation and Submitting a Service Request" section.
Defaults
N/A
Command Modes
Global configuration
Usage Guidelines
This command and feature is specific to ML-Series card.
Examples
router(config)# microcode fail system-reload
Related Commands
N/A
[no] pos pdi holdoff time
Use this command to specify the time, in milliseconds, to hold off sending the path defect indication (PDI) to the far end when a virtual concatenation (VCAT) member circuit is added to the virtual concatenation group (VCG). Use the no form of the command to use the default value.
Syntax Description
|
|
time |
Delay time in milliseconds, 100 to 1,000 |
Defaults
The default value is 100 milliseconds.
Command Modes
Interface configuration mode (packet-over-SONET/SDH [POS] only)
Usage Guidelines
This value is normally configured to match the setting on the peer terminal equipment (PTE). The time granularity for this command is 1 millisecond.
Examples
In this example, interface is shortened to int.
Gateway(config)# int pos0
Gateway(config-if)# pos pdi holdoff 500
Related Commands
pos trigger defects
[no] pos report alarm
Use this command to specify which alarms/signals are logged to the console. This command has no effect on whether alarms are reported to the TCC2/TCC2P and CTC. These conditions are soaked and cleared per Telcordia GR-253. Use the no form of the command to disable reporting of a specific alarm/signal.
Syntax Description
Defaults
The default is to report all alarms.
Command Modes
Interface configuration mode (POS only)
Usage Guidelines
This value is normally configured to match the setting on the peer PTE.
Examples
In this example, interface is shortened to int.
Gateway(config)# int pos0
Gateway(config-if)# pos report all
Related Commands
pos trigger defects
[no] pos trigger defects condition
Use this command to specify which conditions cause the associated POS link state to change. Use the no form of the command to disable triggering on a specific condition.
Syntax Description
Defaults
The default is to report all conditions. For a list of all conditions, see the list in the Syntax Description.
Command Modes
Interface configuration mode (POS only)
Usage Guidelines
This value is normally configured to match the setting on the peer PTE.
Note In previous Cisco IOS releases, the pos trigger delay command was used to modify the triggering interval. In Release 7.2, this command is not supported.
Examples
In this example, interface is shortened to int.
Gateway(config)# int pos0
Gateway(config-if)# pos trigger defects all
Related Commands
None
[no] pos scramble-spe
Use this command to enable scrambling.
Syntax Description
This command has no arguments or keywords.
Defaults
The default value depends on the encapsulation.
|
|
---|---|
LEX |
pos scramble-spe |
PPP/HDLC |
no pos scramble-spe |
Command Modes
Interface configuration mode (POS only)
Usage Guidelines
This value is normally configured to match the setting on the peer PTE. This command might change the pos flag c2 configuration.
Examples
In this example, interface is shortened to int.
Gateway(config)# int pos0
Gateway(config-if)# pos scramble-spe
Related CommandsRelated Commnads
None
[no] protection group group_num
Use this command to create or delete a protection group entity. After you execute this command, the card goes to the config-prot mode. The config-prot mode can be used to configure other parameters for a protection group.
Syntax Description
|
|
group_num |
Numerical value ranging between 1 and 11. |
Defaults
N/A
Command Modes
Global config
Usage Guidelines
•This command is applicable to ML-MR-10 cards.
•Only one protection group can be created at a time.
•To change the group number, the existing group has to be deleted before creating a new one.
Examples
Router(config)# protection group 1
Router(config-prot)#
Router(config-prot)# no protection group 1
Related CommandsRelated Commnads
protection-group
protection peer slot
[no] protection group enable
Use this command to enable or disable a protection group for troubleshooting or maintenance purposes. When a protection group is disabled, the card and port protection (CPP) for the group is not operational. By default, the protection group is enabled if a group is already created and the peer slot number is configured.
Syntax Description
This command has no arguments or keywords.
Defaults
Enabled
Command Modes
Protection config
Usage Guidelines
This command is applicable to ML-MR-10 cards.
Examples
Router(config)# protection group 1
Router(config-prot)# protection group enable
Router(config-prot)# no protection group enable
Related CommandsRelated Commnads
protection group
[no] protection-group group_num
Use this command to add or remove a Gigabit Ethernet interface, port channel interface, POS interface, or an IEEE 802.17b-based resilient packet ring (RPR-IEEE) interface from the group. By default, all ports are unprotected.
Syntax Description
|
|
group_num |
Numerical value ranging between 1 and 11. |
Defaults
N/A
Command Modes
Interface config
Usage Guidelines
•This command is applicable to ML-MR-10 cards.
•The protection group has to be created before using this command.
Examples
Router(config-if)#protection-group 1
To remove the interfaces from the protection group execute the following command:
Router(config-if)# no protection-group 1
Related CommandsRelated Commnads
protection group
[no] protection peer slot slot_num
Use this command to configure the slot number of a CPP peer card. You can also use the command to disable a configured slot number.
Syntax Description
|
|
slot_num |
Enter values from 1 to 6 and 12 to 17. Values between 7 to 11 are considered invalid because they are assigned to controller, cross-connect, and alarm interface cards. |
Defaults
N/A
Command Modes
Protection config
Usage Guidelines
•This command is applicable to ML-MR-10 cards.
•Slot numbers 7-11 cannot be configured as they correspond to TCC/XC/AIC slots.
•If the slot number is changed dynamically to configure a new peer, the protection state machine will restart.
Examples
Router(config)# protection group 1
Router(config-prot)# protection peer slot 12
To remove the configuration of a peer slot number, execute the following command:
Router(config-prot)# no protection peer slot <slot_num>
Related CommandsRelated Commnads
None
[no] protection fail-action group-switch
Use this command to activate or deactivate the switching behavior of the protection group to switch the whole group even when a single member interface fails. This command is available in the protection configuration mode.
Syntax Description
|
|
group_switch |
Upon failure of a member interface, switches all the member interfaces in the group to the peer card. |
Defaults
The switching behavior is disabled by default.
Command Modes
Protection configuration (config-prot)
Usage Guidelines
•This command is applicable to ML-MR-10 cards.
•By default this command will not appear in the running configuration file when a protection group is created.
•The protection group has to be created before using this command.
•This command will invoke nonvolatile generation (NVGEN) queries if it is user-defined.
•This command will not be allowed if an RPR interface is already added in to the protection group. This command will have to be removed if an RPR interface has to be added to the protection group.
•This command will not be allowed if more than one front port is configured in the protection group. This command will have to be removed if more than one front port has to be added to the protection group.
Examples
Router(config)# protection group 1
Router(config-prot)# protection fail-action group-switch
To return to the default state, execute the following command:
Router(config)# no protection fail-action group-switch
Related CommandsRelated Commnads
protection-group
[no] protection-group <group_num> standby-on
Use this command to turn the standby interfaces ON or OFF. By default, STANDBY interfaces are turned OFF. This command is availabe in the interface configuration mode.
Syntax Description
|
|
group_num |
Numerical value ranging between 1 and 11. |
Defaults
Standby interfaces are disabled by default.
Command Modes
Interface configuration (config-if)
Usage Guidelines
•This command is applicable to ML-MR-10 cards.
•By default this command will not appear in the running configuration file when a protection group is created.
•This command is applicable only to Gigabit Ethernet and port-channel interfaces.
•The interface has to be added to the protection group before using this command.
•This command will invoke nonvolatile generation (NVGEN) queries if it is user-configured.
•This command will not be allowed on link aggregation group (LAG) member interfaces.
•This command will not be allowed if if link aggregation control protocol (LACP) is already configured on the interface.
Examples
Router(config-if)# protection-group 1 standby-on
Router(config-if)#
To change the state of standby interface from ON to OFF, execute the following command:
Router(config-if)# no protection-group 1 standby-on
Related CommandsRelated Commnads
protection-group
rpr-ieee atd-timer value
Use this command to configure the attribute discovery (ATD) timer, which controls the frequency of ATD packet transmissions on the IEEE 802.17b based RPR interface.
Syntax Description
|
|
value |
Value expressed in seconds. Range is 1 through 10. |
Defaults
Default is 1 second.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
The ATD timer value is very rarely changed. This is usually done only if other equipment uses a different ATD value or has processor limitations and cannot handle frames at one per second.
Examples
In this example, interface is shortened to int.
router(config)# int rpr-ieee 0
router(config-if)# rpr-ieee atd-timer 1
Related Commands
None
rpr-ieee fairness weight value
Use this command to configure the fairness weight of an IEEE 802.17b based RPR station.
Syntax Description
|
|
value |
Number, expressed as an exponent of two. Range is 0 through 7. |
Defaults
The default is 0.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
Weighted fairness is used to allow one card greater access (that is, transmission rate) to the ring than other cards have. This command sets the fairness weight of the particular IEEE 702.17b based RPR interface. By default when a ring is congested, fairness controls ring traffic to allow each station the same amount of added traffic (or transmission rate). A higher fairness weight value on one interface allows the station to add traffic at a higher rate during periods of congestion.
Examples
In this example, interface is shortened to int.
router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee fairness weight 3
Related Commands
rpr-ieee fairness active weights detect
rpr-ieee fairness mode
[no] rpr-ieee ri foreign
Use this command to control the secondary card laser states and the interface wait to restore (WTR) timer when changing from secondary mode to primary.
Foreign mode indicates that the secondary card's transmit laser(s) are turned off while in standby mode. In turn, the secondary card's partner card does not send traffic through the ring redundant interconnect (RI) interface. The time used to turn the lasers back up causes longer WTR during switchover to primary mode.
If foreign mode is turned off as in the default setting or by using the no form of this command, the secondary card's transmit laser(s) remain turned on while in standby mode, and the RI interface ucode is set to standby. In this case, the secondary card's partner card continues to send traffic through the ring RI interface, and the WTR time during switchover to primary mode is faster.
Syntax Description
This command has no arguments or keywords.
Defaults
The default form is no rpr-ieee ri foreign.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
This command should be used if the ring is connected to a switch.
The no form of the command reduces a traffic outage if there is a switch from a secondary card to a primary. The secondary card stays in active mode during the WTR interval; the primary card is in active mode with the ucode set to standby during the WTR.
Examples
In this example, interface is shortened to int.
router(config)# int rpr-ieee 0
Router(config-if)# no rpr-ieee ri foreign
Related Commands
None
rpr-ieee keepalive-timer interval [east | west]
Use this command to configure the keepalive timer configuration on a specific IEEE 802.17b based RPR span (east or west).
Syntax Description
Defaults
The default is 1 second.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
If a station does not receive fairness frames from its neighboring stations in the ring, the keepalive timer value determines how much time will elapse before a protection event is triggered. The keepalive timer works in tandem with the SONET holdoff timer. You would lengthen both of these timer intervals to avoid double hits when IEEE 802.17b based RPR is running over a SONET-protected network.
Examples
In this example, interface is shortened to int.
router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee keepalive-timer 100 east
Related Commands
rpr-ieee protection sonet holdoff-timer
[no] rpr-ieee protection pref jumbo
Use this command to set the IEEE 802.17b based RPR station MTU preference to jumbo Ethernet frames. If all stations on the ring select jumbo preference, the ring MTU is 9,000 bytes; otherwise, it is 1,500 bytes. Use the no form of this command to select normal MTU preference.
Syntax Description
This command has no arguments or keywords.
Defaults
The default is jumbo preference: not set (that is, the ring does not support jumbo frames).
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
Jumbo frame support would be enabled to support frames larger than the standard Ethernet MTU of 1518 bytes across the IEEE 802.17b based RPR ring. In this command, protection can be shortened to prot.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee prot pref jumbo
Related Commands
None
[no] rpr-ieee protection request forced-switch {east | west}
Use this command to trigger a forced-switch protection event on the specified IEEE 802.17b-based RPR span. Use the no form of this command to clear the switch.
Syntax Description
|
|
east |
Pertains to configuration for eastbound span traffic. |
west |
Pertains to configuration for westbound span traffic. |
Defaults
N/A
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
If the IEEE 802.17b based RPR forced switch is initiated with this command at the command-line interface (CLI), traffic steers away from this span. To clear the force, use the no form of thecommand.
Note The command is not cleared if you change the port service state in CTC from OOS,DSBLD (Locked,disabled) to IS/IS,AINS, or OOS,MT (Unlocked,enabled,automaticInService or outofservice Maintenance).
IEEE 802.17b based RPR switching options are similar to the path protection and bidirectional line switched ring (BLSR) protection switching options, but RPR-IEEE switching functions are only available at the CLI and not in CTC.
In this command, protection can be shortened to prot and request can be shortened to req.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee
Router(config-if)# rpr-ieee prot req forced-switch east
Related Commands
rpr-ieee protection request manual-switch
[no] rpr-ieee protection request manual-switch {east | west}
Use this command to trigger a manual-switch protection event on the specified IEEE 802.17b based RPR span. Use the no form of this command to deactivate the switch.
Syntax Description
|
|
east |
Pertains to configuration for eastbound span traffic. |
west |
Pertains to configuration for westbound span traffic. |
Defaults
N/A
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
IEEE 802.17b based RPR switching options are similar to the path protection and BLSR protection switching options, but RPR-IEEE switching is only available at the CLI and not in CTC.
In this command, protection can be shortened to prot and request can be shortened to req.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee prot req manual-switch east
Related Commands
rpr-ieee protection request forced-switch
rpr-ieee protection sonet holdoff-timer interval {east | west}
Use this command to configure the SONET hold-off timer for a protection event on the specified IEEE 802.17b based RPR span. Use the no form of this command to turn off the SONET holdoff timer.
Note This command replaces the pos vcat defect {delayed | immediate} command.
Syntax Description
Defaults
The default value is 0 milliseconds.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
This command is used to allow the slower SONET protection mechanisms to take effect ahead of IEEE 802.17b based RPR protection. The SONET holdoff timer works in tandem with the keepalive timer. You could lengthen both of these interval values to avoid double hits when RPR-IEEE is running over a SONET-protected network.
In this command, protection can be shortenened to prot.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee prot sonet holdoff-timer 2
Related Commands
rpr-ieee keepalive-timer
rpr-ieee protection timer fast rate {east | west}
Use this command to configure the fast protection timer value for the specified IEEE 802.17b based RPR span.
Syntax Description
Defaults
N/A
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
This rate determines how quickly the fast protection timer sends a protection message after a protection event occurs.
In this command, protection can be shortened to prot.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee prot timer fast 5 east
Related Commands
rpr-ieee protection timer slow
rpr-ieee protection timer slow rate {east | west}
Use this command to configure the slow protection timer value on the specified IEEE 802.17b based RPR span.
Syntax Description
Defaults
N/A
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
This value determines the sending rate of protection messages between protection events.
In this command, protection can be shortened to prot.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee prot timer slow 2 east
Related Commands
rpr-ieee protection timer fast
rpr-ieee protection wtr-timer {interval | never}
Use this command to configure the amount of time that an IEEE 802.17b based RPR span stays in wait-to-restore (WTR) state before normal service is restored on a span. The never argument configures an RPR-IEEE span WTR timer to disallow the WTR function.
Syntax Description
Defaults
The default value is enabled, and the default interval is 10 seconds.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
This command can be used to moderate an IEEE 802.17 RPR span that repeatedly changes into and out of a protected state. It is provisioned similarly to the WTR timer used in SONET protection schemes. Use the no argument to configure a span not to go through a WTR period before restoring service during a protection event.
In this command, protection can be shortened to prot.b based
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee prot wtr-timer 50
Related Commands
None
rpr-ieee flag c2 value
Use this command to specify the SONET C2 byte path overhead values for both IEEE 802.17b based RPR spans.
Syntax Description
Defaults
The default is 0x1B, which indicates GFP encapsulation.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
This value would only be changed if you do not want to specify GFP encapsulation for the span. In practical terms, ths term would almost never be changed.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee flag c2 0
Related Commands
None
rpr-ieee pdi holdoff time interval
Use this command to configure the interval that occurs before a path defect indication (PDI) is raised on an IEEE 802.17b based RPR span.
Syntax Description
|
|
interval |
The period, expressed in milliseconds. The range is 100 to 1,000 milliseconds. |
Defaults
The default is 100 milliseconds.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
This command can be used to prevent holdoff timer switching if a PDI is raised on an IEEE 802.17b based RPR span. The PDI is an infrequent occurrence in this kind of span configuration.
Examples
In this example, interface is shortened to int.
Router(config)# int prp-ieee 0
Router(config-if)# rpr-ieee pdi holdoff time 100
Related Commands
None
[no] rpr-ieee report alarm
Use this command to specify which IEEE 802.17b based RPR alarms or signals are logged to the console. Use the no form of the command to disable a particular type of notification.
Syntax Description
Defaults
N/A
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
This command does not determine whether alarms are reported to the TCC2P or whether they are shown in CTC. Conditions that are reported to the CLI console as a result of this command are soaked and cleared per Telcordia GR-253-CORE. Use the no form of the command to disable reporting of a specific alarm/signal.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee report all
Related Commands
None
[no] rpr-ieee ri {primary | secondary} peer peer-MAC-address
Use this command to set the mode for the IEEE 802.17b based RPR interface and the peer address, or disables the feature. Use the no form to disable the feature.
Syntax Description
Command Default
The default is disabled.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
The peer MAC address is in hexadecimal format. If you change the MAC address, you must repeat this command with the new address.
In this command, interface can be shortened to int. It is not necessary to use the RI term if you are specifically indicating a primary or secondary peer, as in the following example.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee ri mode primary peer 00.24.A4.0E.9A.68
Related Commands
rpr-ieee ri {primary | secondary} delay interval
[no] rpr-ieee ri {primary | secondary} delay interval
Use this command to change the soak time for a primary card in active mode. Use the no form of this command to set the timer to default.
Syntax Description
Command Default
The default is 3,000 milliseconds.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
None.
Examples
In this example, interface is shortened to int.
router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee ri primary delay 1000
Related Commands
rpr-ieee ri mode {primary | secondary}
[no] rpr-ieee shutdown {east | west}
This command is similar to a rpr-ieee protection request forced-switch {east | west} command on the span. This command is essentially no different in function; it is an easier way to do the same thing.
Syntax Description
|
|
east |
Specifies a shutdown on the east span of the interface. |
west |
Specifies a shutdown on the west span of the interface. |
Defaults
Default is no shutdown.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
Functionally, there is no difference between this command and the protection request commands.
In this command, shutdown can be shortened to shut.
Note This command cannot be cleared by transitioning the span state from OOS,DSBLD (Locked,disabled) to IS/IS,AINS/OOS,MT (Unlocked,enabled,automaticInService or Locked,maintenance).
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee shut east
Related Commands
None
rpr-ieee tx-traffic rate-limit high rate [east | west]
Use this command to limit the rate at which Class A1 traffic is transmitted only on a specific (east or west) span.
Syntax Description
Defaults
The default is 5 Mbps.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
Class A1 traffic is used for latency-sensitive traffic, such as voice traffic, that should run at a low rate. This command allows you to control the traffic on a specific span. It applies to only one span. Specifying the span might not be necessary in all cases.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee tx-traffic rate-limit high 10 east
Related Commands
rpr-ieee tx-traffic strict
rpr-ieee tx-traffic rate-limit medium [east | west]
rpr-ieee tx-traffic rate-limit low [east | west]
rpr-ieee tx-traffic rate-limit medium rate [east | west]
Use this command to limit the rate that Class B-CIR traffic is transmitted on a specific (east or west) span.
Syntax Description
Defaults
The default is 5 Mbps.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
This command is used for adding Class B traffic to a specific span. Traffic added at or below the configured rate (for example, at or below 5 Mbps) is Class B-CIR traffic and is not fairness-eligible. Traffic added above the configured rate (for example, above 5 Mbps) is set as class B-EIR traffic and is fairness-eligible. This command is specific to one span and would only be used if necessary to make this distinction.
Examples
In this example, interface is shortened to int.
router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee tx-traffic rate-limit medium 2 east
Related Commands
rpr-ieee tx-traffic rate-limit low [rate] {east | west}
rpr-ieee tx-traffic rate-limit high [rate] {east | west}
rpr-ieee tx-traffic rate-limit reserved
rpr-ieee tx-traffic rate-limit reserved rate [east | west]
Use this command to limit the transmission rate of Class A0 reserved traffic on a specific (east or west) span.
Syntax Description
Defaults
The default is 0 Mbps.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
A0 bandwidth is dedicated and cannot be reused for any other traffic, and thus should be assigned cautiously. This command is specific to one span and would only be used if necessary to make a distinction.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee tx-traffic rate-limit reserved 5 east
Related Commands
rpr-ieee tx-traffic rate-limit low [rate] {east | west}
rpr-ieee tx-traffic rate-limit medium [rate] {east | west}
rpr-ieee tx-traffic rate-limit high [rate] {east | west}
rpr-ieee tx-traffic rate-limit reserved [rate]
[no] rpr-ieee tx-traffic strict
Use this command to configure either all or none of the traffic added by the node to have the strict order (SO) bit set on or off in the IEEE 802.17b-based RPR header.
Syntax Description
This command has no arguments or keywords.
Defaults
The default is off.
Command Modes
IEEE 802.17b based RPR interface configuration
Usage Guidelines
By default, the SO bit is turned off. You can turn it on in the IEEE 802.17b based RPR interface with this command if you need to accommodate an application with high sensitivity to out-of-order packets, originating at this node. This command is seldom utilized.
Examples
In this example, interface is shortened to int.
Router(config)# int rpr-ieee 0
Router(config-if)# rpr-ieee tx-traffic strict
Related Commands
None
[no] rpr-ieee tx-traffic preferred-span {RPR Dest Station mac} {east|west}
Use this command to bypass the shortest-path algorithm for a ringlet selection.
You can specify the preferred span for sending data to a specific RPR destination. The destination is identified by its 48-bit RPR MAC address and the preference is specified as 'east' or 'west,' indicating the respective span.
You can use this command only when the destination is reachable via both the East and West spans (in a closed ring).
Syntax Description
|
|
RPR Dest Station mac |
H.H.H 48-bit MAC-address of RPR destination station. |
east/west |
The preferred span to reach the RPR station mentioned in RPR desination station MAC. |
Defaults
None.
Command Modes
IEEE 802.17b-based RPR interface configuration.
Usage Guidelines
None.
Examples
The following command enables you to use east span to reach the RPR Station, 0019.076c.7e22, when West span is the shortest path:
Ml-13-61(config-if)# rpr-ieee tx-traffic preferred-span 0019.076c.7e22 east
show controller pos interface-number [detail]
Use this command to display the status of the POS controller. Use the detail argument to obtain additional SONET and POS information for the interface.
Syntax Description
|
|
interface-number |
Number of the POS interface (0-1) |
Defaults
N/A
Command Modes
Privileged execxecutive
Usage Guidelines
This command can be used to help diagnose and isolate POS or SONET problems.
Examples
The following example is an example of POS continuous concatenation circuit (CCAT) show controller output.
Router(config)# show controller pos 0
Router# show controller pos 0
Interface POS0
Hardware is Packet/Ethernet over Sonet
Concatenation: CCAT
Circuit state: IS
PATH
PAIS = 0 PLOP = 0 PRDI = 0 PTIM = 0
PPLM = 0 PUNEQ = 0 PPDI = 0 PTIU = 0
BER_SF_B3 = 0 BER_SD_B3 = 0 BIP(B3) = 20 REI = 2
NEWPTR = 0 PSE = 0 NSE = 0
Active Alarms : None
Demoted Alarms: None
Active Defects: None
Alarms reportable to CLI: PAIS PLOP PUNEQ PTIM PPLM PRDI PPDI BER_SF_B3 BER_SD_B3 VCAT_OOU_TPT LOM SQM
Link state change defects: PAIS PLOP PUNEQ PTIM PPLM PRDI PPDI BER_SF_B3
Link state change time : 200 (msec)
DOS FPGA channel number : 0
Starting STS (0 based) : 0
VT ID (if any) (0 based) : 255
Circuit size : VC4
RDI Mode : 1 bit
C2 (tx / rx) : 0x01 / 0x01
Framing : SDH
Path Trace
Mode : off
Transmit String :
Expected String :
Received String :
Buffer : Stable
Remote hostname :
Remote interface:
Remote IP addr :
B3 BER thresholds:
SFBER = 1e-4, SDBER = 1e-7
5 total input packets, 73842 post-HDLC bytes
0 input short packets, 73842 pre-HDLC bytes
0 input long packets , 0 input runt packets
67 input CRCerror packets , 0 input drop packets
0 input abort packets
0 input packets dropped by ucode
0 total output packets, 0 output pre-HDLC bytes
0 output post-HDLC bytes
Carrier delay is 200 msec
The following is an example of POS virtual concatenation (VCAT) show controller output.
Router# show controller pos 1
Interface POS1
Hardware is Packet/Ethernet over Sonet
Concatenation: VCAT
VCG State: VCG_NORMAL
LCAS Type:NO LCAS
Defect Processing Mode: IMMEDIATE
PDI Holdoff Time: 100 (msec)
Active Alarms : None
Demoted Alarms: None
*************** Member 1 ***************
ESM State: IS
VCG Member State: VCG_MEMBER_NORMAL
PAIS = 0 PLOP = 0 PRDI = 0 PTIM = 0
PPLM = 0 PUNEQ = 0 PPDI = 0 PTIU = 0
BER_SF_B3 = 0 BER_SD_B3 = 0 BIP(B3) = 16 REI = 17
NEWPTR = 0 PSE = 0 NSE = 0
Active Alarms : None
Demoted Alarms: None
Active Defects: None
Alarms reportable to CLI: PAIS PLOP PUNEQ PTIM PPLM PRDI PPDI BER_SF_B3 BER_SD_B3 VCAT_OOU_TPT LOM SQM
Link state change defects: PAIS PLOP PUNEQ PTIM PPLM PRDI PPDI BER_SF_B3
Link state change time : 200 (msec)
DOS FPGA channel number : 2
Starting STS (0 based) : 3
VT ID (if any) (0 based) : 255
Circuit size : VC4
RDI Mode : 1 bit
C2 (tx / rx) : 0x01 / 0x01
Framing : SDH
Path Trace
Mode : off
Transmit String :
Expected String :
Received String :
Buffer : Stable
Remote hostname :
Remote interface:
Remote IP addr :
B3 BER thresholds:
SFBER = 1e-4, SDBER = 1e-7
*************** Member 2 ***************
ESM State: IS
VCG Member State: VCG_MEMBER_NORMAL
PAIS = 0 PLOP = 0 PRDI = 0 PTIM = 0
PPLM = 0 PUNEQ = 0 PPDI = 0 PTIU = 0
BER_SF_B3 = 0 BER_SD_B3 = 0 BIP(B3) = 15 REI = 35
NEWPTR = 0 PSE = 0 NSE = 0
Active Alarms : None
Demoted Alarms: None
Active Defects: None
Alarms reportable to CLI: PAIS PLOP PUNEQ PTIM PPLM PRDI PPDI BER_SF_B3 BER_SD_B3 VCAT_OOU_TPT LOM SQM
Link state change defects: PAIS PLOP PUNEQ PTIM PPLM PRDI PPDI BER_SF_B3
Link state change time : 200 (msec)
DOS FPGA channel number : 3
Starting STS (0 based) : 24
VT ID (if any) (0 based) : 255
Circuit size : VC4
RDI Mode : 1 bit
C2 (tx / rx) : 0x01 / 0x01
Framing : SDH
Path Trace
Mode : off
Transmit String :
Expected String :
Received String :
Buffer : Stable
Remote hostname :
Remote interface:
Remote IP addr :
B3 BER thresholds:
SFBER = 1e-4, SDBER = 1e-7
13 total input packets, 5031 post-HDLC bytes
0 input short packets, 5031 pre-HDLC bytes
0 input long packets , 0 input runt packets
0 input CRCerror packets , 0 input drop packets
0 input abort packets
0 input packets dropped by ucode
13 total output packets, 5031 output pre-HDLC bytes
5031 output post-HDLC bytes
Carrier delay is 200 msec
Related Commands
show interface pos
clear counters
show controller rpr-ieee interface-number [detail]
Use this command to display the status of the IEEE 802.17b based RPR controller. Use the detail argument to obtain additional SONET and RPR-IEEE information for the interface.
Syntax Description
|
|
interface-number |
Number of the IEEE 802.17b based RPR interface (0-1) |
detail |
Greater detail per interface. |
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command can be used to help diagnose and isolate IEEE 802.17b based RPR or SONET problems.
Examples
router# show controller rpr-ieee 0 detail
Interface RPR-IEEE0
Hardware is RPR-IEEE channelized SONET
RPR Interface Defects:
PROT ACTIVE = 0 MAX STATION = 0 MIS-CONF = 0 PASSTHRU = 1
EXCEED A0 RESERVED RATE: RINGLET 0 = 0 RINGLET 1 = 0
Active Alarms : None
Demoted Alarms: None
East Span (Ringlet0 TX Ringlet1 RX)
Framing Mode: GFP
Concatenation: VCAT
East Span Defects:
FS = 0 SF = 0 SD = 0 MS = 0
WTR = 0 MATCH = 0 KEEPALIVE = 0
LFD = 0 CSF = 0 UPI = 0
Active Alarms : None
Demoted Alarms: None
Alarms reportable to CLI: PAIS PLOP PUNEQ PTIM PPLM ENCAP PRDI PPDI BER_SF_B3 BER_SD_B3 VCAT_OOU_TPT LOM SQM
*************** VCG ***************
VCG State: VCG_NORMAL
LCAS Type: SW-LCAS
Defect Processing Mode: IMMEDIATE
PDI Holdoff Time: 100 (msec)
Active Alarms : None
Demoted Alarms: None
DEGRADED = 1 DOWN = 1 LOA = 1
*************** Member 0 ***************
ESM State: IS
VCG Member State: VCG_MEMBER_NORMAL
PAIS = 0 PLOP = 0 PRDI = 0 PTIM = 0
PPLM = 0 PUNEQ = 1 PPDI = 0 PTIU = 0
BER_SF_B3 = 0 BER_SD_B3 = 0 BIP(B3) = 30 REI = 0
NEWPTR = 3 PSE = 0 NSE = 0 ENCAP = 0
OOU-TPT = 1 LOM = 1 SQM = 1 OOG = 0
Active Alarms : None
Demoted Alarms: None
Active Defects: None
DOS FPGA channel number : 0
Starting STS (0 based) : 0
VT ID (if any) (0 based) : 255
Circuit size : STS1
RDI Mode : 1 bit
C2 (tx / rx) : 0x1B / 0x1B
Framing : SONET
Path Trace
Mode : off
Transmit String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Expected String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Received String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Buffer : Stable
Remote hostname :
Remote interface:
Remote IP addr :
B3 BER thresholds:
SFBER:1e-4, SDBER:1e-7, berMap:0x00, SFBER:0, SDBER:0
BER 1e-3:
BIP Sum:0, setTh:2455, clrTh:1003, BurstMap:0x0003, BurstTh:1188
Counts:0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-4:
BIP Sum:0, setTh:870, clrTh:201, BurstMap:0x0003, BurstTh:405
Counts:0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-5:
BIP Sum:0, setTh:358, clrTh:81, BurstMap:0x000F, BurstTh:71
Counts:0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-6:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x07FF, BurstTh:22
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-7:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-8:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-9:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-10:
BIP Sum:0, setTh:0, clrTh:0, BurstMap:0x0000, BurstTh:0
Counts:
Over threshold:TRUE, Bursty:FALSE, Clear higher:FALSE, Set level:TRUE
*************** Member 1 ***************
ESM State: IS
VCG Member State: VCG_MEMBER_NORMAL
PAIS = 0 PLOP = 0 PRDI = 0 PTIM = 0
PPLM = 0 PUNEQ = 1 PPDI = 0 PTIU = 0
BER_SF_B3 = 0 BER_SD_B3 = 0 BIP(B3) = 22 REI = 0
NEWPTR = 3 PSE = 0 NSE = 0 ENCAP = 0
OOU-TPT = 1 LOM = 1 SQM = 1 OOG = 0
Active Alarms : None
Demoted Alarms: None
Active Defects: None
DOS FPGA channel number : 1
Starting STS (0 based) : 1
VT ID (if any) (0 based) : 255
Circuit size : STS1
RDI Mode : 1 bit
C2 (tx / rx) : 0x1B / 0x1B
Framing : SONET
Path Trace
Mode : off
Transmit String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Expected String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Received String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Buffer : Stable
Remote hostname :
Remote interface:
Remote IP addr :
B3 BER thresholds:
SFBER:1e-4, SDBER:1e-7, berMap:0x00, SFBER:0, SDBER:0
BER 1e-3:
BIP Sum:0, setTh:2455, clrTh:1003, BurstMap:0x0003, BurstTh:1188
Counts:0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-4:
BIP Sum:0, setTh:870, clrTh:201, BurstMap:0x0003, BurstTh:405
Counts:0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-5:
BIP Sum:0, setTh:358, clrTh:81, BurstMap:0x000F, BurstTh:71
Counts:0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-6:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x07FF, BurstTh:22
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-7:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-8:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-9:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-10:
BIP Sum:0, setTh:0, clrTh:0, BurstMap:0x0000, BurstTh:0
Counts:
Over threshold:TRUE, Bursty:FALSE, Clear higher:FALSE, Set level:TRUE
Input CMF Packets 0
Single bit errors cHec: 0 tHec: 0 eHec: 0
Multiple bit errors cHec: 0 tHec: 0 eHec: 0
Out of sync counts: 0
1398002919 input packets dropped by ucode
West Span (Ringlet0 RX Ringlet1 TX)
Framing Mode: GFP
Concatenation: VCAT
West Span Defects:
FS = 0 SF = 0 SD = 0 MS = 0
WTR = 0 MATCH = 0 KEEPALIVE = 0
LFD = 0 CSF = 0 UPI = 0
Active Alarms : None
Demoted Alarms: None
Alarms reportable to CLI: PAIS PLOP PUNEQ PTIM PPLM ENCAP PRDI PPDI BER_SF_B3 BER_SD_B3 VCAT_OOU_TPT LOM SQM
*************** VCG ***************
VCG State: VCG_NORMAL
LCAS Type: SW-LCAS
Defect Processing Mode: IMMEDIATE
PDI Holdoff Time: 100 (msec)
Active Alarms : None
Demoted Alarms: None
DEGRADED = 0 DOWN = 1 LOA = 0
*************** Member 0 ***************
ESM State: IS
VCG Member State: VCG_MEMBER_NORMAL
PAIS = 0 PLOP = 0 PRDI = 0 PTIM = 0
PPLM = 0 PUNEQ = 1 PPDI = 0 PTIU = 0
BER_SF_B3 = 0 BER_SD_B3 = 0 BIP(B3) = 24 REI = 0
NEWPTR = 3 PSE = 0 NSE = 0 ENCAP = 0
OOU-TPT = 1 LOM = 1 SQM = 1 OOG = 0
Active Alarms : None
Demoted Alarms: None
Active Defects: None
DOS FPGA channel number : 2
Starting STS (0 based) : 24
VT ID (if any) (0 based) : 255
Circuit size : STS1
RDI Mode : 1 bit
C2 (tx / rx) : 0x1B / 0x1B
Framing : SONET
Path Trace
Mode : off
Transmit String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Expected String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Received String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Buffer : Stable
Remote hostname :
Remote interface:
Remote IP addr :
B3 BER thresholds:
SFBER:1e-4, SDBER:1e-7, berMap:0x00, SFBER:0, SDBER:0
BER 1e-3:
BIP Sum:0, setTh:2455, clrTh:1003, BurstMap:0x0003, BurstTh:1188
Counts:0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-4:
BIP Sum:0, setTh:870, clrTh:201, BurstMap:0x0003, BurstTh:405
Counts:0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-5:
BIP Sum:0, setTh:358, clrTh:81, BurstMap:0x000F, BurstTh:71
Counts:0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-6:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x07FF, BurstTh:22
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-7:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-8:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-9:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-10:
BIP Sum:0, setTh:0, clrTh:0, BurstMap:0x0000, BurstTh:0
Counts:
Over threshold:TRUE, Bursty:FALSE, Clear higher:FALSE, Set level:TRUE
*************** Member 1 ***************
ESM State: IS
VCG Member State: VCG_MEMBER_NORMAL
PAIS = 0 PLOP = 0 PRDI = 0 PTIM = 0
PPLM = 0 PUNEQ = 1 PPDI = 0 PTIU = 0
BER_SF_B3 = 0 BER_SD_B3 = 0 BIP(B3) = 24 REI = 0
NEWPTR = 3 PSE = 0 NSE = 0 ENCAP = 0
OOU-TPT = 1 LOM = 1 SQM = 1 OOG = 0
Active Alarms : None
Demoted Alarms: None
Active Defects: None
DOS FPGA channel number : 3
Starting STS (0 based) : 25
VT ID (if any) (0 based) : 255
Circuit size : STS1
RDI Mode : 1 bit
C2 (tx / rx) : 0x1B / 0x1B
Framing : SONET
Path Trace
Mode : off
Transmit String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Expected String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Received String :
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
Buffer : Stable
Remote hostname :
Remote interface:
Remote IP addr :
B3 BER thresholds:
SFBER:1e-4, SDBER:1e-7, berMap:0x00, SFBER:0, SDBER:0
BER 1e-3:
BIP Sum:0, setTh:2455, clrTh:1003, BurstMap:0x0003, BurstTh:1188
Counts:0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-4:
BIP Sum:0, setTh:870, clrTh:201, BurstMap:0x0003, BurstTh:405
Counts:0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-5:
BIP Sum:0, setTh:358, clrTh:81, BurstMap:0x000F, BurstTh:71
Counts:0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-6:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x07FF, BurstTh:22
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-7:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-8:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-9:
BIP Sum:0, setTh:399, clrTh:89, BurstMap:0x03FF, BurstTh:25
Counts:0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
Over threshold:FALSE, Bursty:TRUE, Clear higher:TRUE, Set level:FALSE
BER 1e-10:
BIP Sum:0, setTh:0, clrTh:0, BurstMap:0x0000, BurstTh:0
Counts:
Over threshold:TRUE, Bursty:FALSE, Clear higher:FALSE, Set level:TRUE
Input CMF Packets 0
Single bit errors cHec: 0 tHec: 0 eHec: 0
Multiple bit errors cHec: 2 tHec: 0 eHec: 0
Out of sync counts: 22
88086836 input packets dropped by ucode
Related Commands
show interface rpr-ieee
show interface pos interface-number
Use this command to display the status of the POS.
Syntax Description
|
|
interface-number |
Number of the POS interface (0-1) |
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command can be used to help diagnose and isolate POS or SONET/SDH problems.
In this command, interface can be shortened to int.
Examples
Gateway# show interface pos 0
POS0 is up, line protocol is up
Hardware is Packet/Ethernet over Sonet
Description: foo bar
MTU 4470 bytes, BW 155520 Kbit, DLY 100 usec,
reliability 255/255, txload 1/255, rxload 1/255
Encapsulation HDLC, crc 32, loopback not set
Keepalive set (10 sec)
Scramble enabled
Last input 00:00:09, output never, output hang never
Last clearing of "show interface" counters 05:17:30
Input queue: 0/75/0/0 (size/max/drops/flushes); Total output drops: 0
Queueing strategy: fifo
Output queue :0/40 (size/max)
5 minute input rate 0 bits/sec, 0 packets/sec
5 minute output rate 0 bits/sec, 0 packets/sec
2215 total input packets, 223743 post-HDLC bytes
0 input short packets, 223951 pre-HDLC bytes
0 input long packets , 0 input runt packets
0 input CRCerror packets , 0 input drop packets
0 input abort packets
0 input packets dropped by ucode
0 packets input, 0 bytes
Received 0 broadcasts, 0 runts, 0 giants, 0 throttles
0 parity
0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort
2216 total output packets, 223807 output pre-HDLC bytes
224003 output post-HDLC bytes
0 packets output, 0 bytes, 0 underruns
0 output errors, 0 applique, 8 interface resets
0 output buffer failures, 0 output buffers swapped out
0 carrier transitions
Related Commands
show controller pos
clear counters
show interface rpr-ieee interface-number
Use this command to display the status of chosen IEEE 802.17b based RPR interface.
Syntax Description
|
|
interface-number |
Number of the IEEE 802.17b based RPR interface (0-1) |
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command can be used to help diagnose and isolate IEEE 802.17b based RPR interface or SONET/SDH problems.
In this command, interface can be shortened to int.
The rpr-ieee tx-traffic rate-limit high command shows the Class A1 rate range as 0 to 1161 Mbps
Note If the Class A1transmit rate is set to 5 Mbps , this command does not provide full interface information as it does for other typical values (3, 4, 6, 8, and 10 Mbps).
Examples
router# show interface rpr-ieee 0
RPR-IEEE0 is up, line protocol is up
Hardware is RPR-IEEE Channelized SONET, address is 0005.9a3c.59c0 (bia 0005.9a3c.59c0)
MTU 1500 bytes, BW 96768 Kbit, DLY 100 usec,
reliability 255/255, txload 128/255, rxload 128/255
Encapsulation: RPR-IEEE,
West Span: loopback not set
East Span: loopback not set
MAC passthrough not set
ARP type: ARPA, ARP Timeout 04:00:00
Last input 00:00:00, output never, output hang never
Last clearing of "show interface" counters never
Input queue: 0/75/0/0 (size/max/drops/flushes); Total output drops: 0
Queueing strategy: fifo
Output queue: 0/40 (size/max)
West Span:5 minutes output rate 96361986 bits/sec, 76243 packets/sec
5 minutes input rate 89824634 bits/sec, 71241 packets/sec
East Span: 5 minutes output rate 71872254 bits/sec, 56867 packets/sec
5 minutes input rate 95391157 bits/sec, 75475 packets/sec
3402516571 packets input, 4038397818 bytes
Received 0 broadcasts (0 IP multicast)
0 runts, 0 giants, 0 throttles
3 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored
0 watchdog, 0 multicast
0 input packets with dribble condition detected
1355393210 packets output, 4104587724 bytes, 0 underruns
0 output errors, 0 collisions, 1 interface resets
0 babbles, 0 late collision, 0 deferred
0 lost carrier, 0 no carrier
0 output buffer failures, 0 output buffers swapped out
Related Commands
show int pos
show int spr
show ons alarm
Use this command to display all the active alarms on the ML-Series card running the Cisco IOS CLI session.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command can be used to help diagnose and isolate card problems.
Examples
router# show ons alarm
Equipment Alarms
Active: CONTBUS-IO-A CTNEQPT-PBWORK
Port Alarms
POS0 Active: None
POS1 Active: None
FastEthernet0 Active: None
FastEthernet1 Active: None
FastEthernet2 Active: None
FastEthernet3 Active: None
FastEthernet4 Active: None
FastEthernet5 Active: None
FastEthernet6 Active: None
FastEthernet7 Active: None
FastEthernet8 Active: None
FastEthernet9 Active: None
FastEthernet10 Active: None
FastEthernet11 Active: None
POS0
Active Alarms : None
Demoted Alarms: None
POS1 VCG State: VCG_NORMAL
VCAT Group
Active Alarms : None
Demoted Alarms: None
Member 0
Active Alarms : None
Demoted Alarms: None
Member 1
Active Alarms : None
Demoted Alarms: None
Related Commands
show controller pos
show ons alarm defect
show ons alarm failure
show ons alarm defect eqpt
Use this command to display the equipment-layer defects.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command displays the set of active defects for the equipment layer and the possible set of defects that can be set.
Examples
router# show ons alarm defect eqpt
Equipment Defects
Active: CONTBUS-IO-B
Reportable to TCC/CLI: CONTBUS-IO-A CONTBUS-IO-B CTNEQPT-PBWORK CTNEQPT-PBPROT EQPT RUNCFG-SAVENEED ERROR-CONFIG
Related Commands
show ons alarm failure
show ons alarm defect port
Use this command to display the port-layer defects.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command displays the set of active defects for the link layer and the possible set of defects that can be set. Note that the TPTFAIL defect can only occur on the POS ports and the CARLOSS defect can only occur on the Ethernet ports.
Examples
router# show ons alarm defect port
Port Defects
POS0
Active: TPTFAIL
Reportable to TCC: CARLOSS TPTFAIL
POS1
Active: TPTFAIL
Reportable to TCC: CARLOSS TPTFAIL
GigabitEthernet0
Active: None
Reportable to TCC: CARLOSS TPTFAIL
GigabitEthernet1
Active: None
Reportable to TCC: CARLOSS TPTFAIL
Related Commands
show interface
show ons alarm failure
show ons alarm defect pos interface-number
Use this command to display the link-layer defects.
Syntax Description
|
|
interface-number |
Number of the interface (0-1) |
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command displays the set of active defects for the POS layer and the possible set of defects that can be set.
Examples
router# show ons alarm defect pos 0
POS0
Active Defects: None
Alarms reportable to TCC/CLI: PAIS PRDI PLOP PUNEQ PPLM PTIM PPDI BER_SF_B3 BER_SD_B3
Related Commands
show controller pos
show ons alarm failure
show ons alarm defect rpr [interface-number]
Use this command to display the interface defects on the layer.
Syntax Description
|
|
interface-number |
Number of the interface (0-1) |
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command displays the set of active defects for the IEEE 802.17b based RPR and the possible set of defects that can be set.
Examples
router# show ons alarm defect rpr
RPR-IEEE0
Active: None
Reportable to SC: RPR-PASSTHRU RPR-PROT_ACTIVE RPR-MAX_STATION RPR-MIS_CONF RPR-RINGLET0_A0_EXCEED_BANDWIDTH RPR-RINGLET1_A0_EXCEED_BANDWIDTH RPR-RI_PEER_MISSING RPR-RI_FAULT
Related Commands
show ons alarm
show ons alarm failure eqpt
Use this command to display the equipment-layer failures.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command displays the active failures for the equipment layer. If an EQPT alarm is present, the board fail defect that was the source of the alarm is displayed.
Examples
router# show ons alarm failure eqpt
Equipment
Active Alarms: None
Related Commands
show ons alarm defect
show ons alarm failure port
Use this command to display the port-layer failures.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command displays the set of active failures for the link layer.
Examples
router# show ons alarm failure port
Port Alarms
POS0 Active: TPTFAIL
POS1 Active: TPTFAIL
GigabitEthernet0 Active: None
GigabitEthernet1 Active: None
Related Commands
show interface
show ons alarm defect
show ons alarm failure pos [interface-number]
Use this command to display the link-layer failures.
Syntax Description
|
|
interface-number |
Number of the interface (0-1) |
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command displays the set of active failures for a specific interface at the POS layer. The display also specifies if an alarm has been demoted, as defined in Telcordia GR-253.
Examples
router# show ons alarm failure pos 0
POS0
Active Alarms : None
Demoted Alarms: None
Related Commands
show controller pos
show ons alarm defect
show ons alarm failure rpr interface-number
Use this command to display failures on a specific IEEE 802.17b based RPR interface.
Syntax Description
|
|
interface-number |
Number of the interface (0-1) |
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command displays the set of active failures for a specific IEEE 802.17b based RPR interface. The display also specifies if an alarm has been demoted, as defined in Telcordia GR-253-CORE.
Examples
router# show ons alarm failure rpr
RPR-IEEE0
Active: None
Related Commands
show ons alarm
show ethernet service instance platform
Use this command to display ethernet flow point (EFP) information such as the EFP status and RPR destination of the card.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged EXEC
Usage Guidelines
This command is applicable to ML-MR-10 cards.
Examples
Router# show ethernet service instance platform
NOTE: EFP status UP/DOWN is determined based on both ingress and egress interface states and RPR destination resolving status. EFP status FLAPPING means more than one RPR station is advertising this specific P2P service and need to check the network level config.
(*) RPR-destination field is valid only for EFPs configured on RPR interfaces
EFP-ID Intf EFP-Status RPR-Destination
1 Gi0 DOWN Not applicable
1 Gi8 DOWN Not applicable
30 Gi8 DOWN Not applicable
30 RP0 DOWN aabb.bbbb.cccc (static)
Related Commands
None
sh ons metroethernet vlanDrops interface interface-number
Use this command to see the drops when:
•No out-going efp is configured in the interface.
•Traffic with VLAN Tag X is coming into the interface, and the interface has no efp configured for VLAN X.
Syntax Description
Defaults
N/A
Command Modes
Privileged EXEC
Usage Guidelines
None.
Examples
Assume the following:
Traffic is coming into GigabitEthernet0 interface, with vlan 20. However no efp is configured in GigabitEthernet0 for Vlan 20. You will see the VLAN drop counters incrementing as follows:
interface GigabitEthernet0
no ip address
speed auto
duplex auto
negotiation auto
no keepalive
service instance 10 ethernet
encapsulation dot1q 10
bridge-domain 10
!
sh ons metroethernet vlanDrops interface g0
INTERFACE VLAN PKT DROPS VLAN BYTES DROP
Gi0 6345700 57111300000
Related Commands
show interface interface-number stats
show ethernet service instance platform
show bridge-domain
show ons qos output interface interface-number
Use this command to display the hardware queue association of various traffic classes. This command also displays the operating mode of the associated queue. If "service-policy" is not installed on the interface, all the traffic goes through the default queues.
Syntax Description
|
|
interface-number |
The interface numbers can be assigned as follows: •Gigabit Ethernet: Gn (where n = 0-9) •RPR-IEEE: rpr0 •port-channel: portn (where n = 1-10) |
Defaults
N/A
Command Modes
Privileged EXEC
Usage Guidelines
This command is applicable to ML-MR-10 cards on ONS 15454.
Examples
Example of a Gigabit Ethernet interface is as follows:
router# show ons qos output interface G0
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Example of a port-channel interface is as follows:
router# show ons qos output interface port5
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Example of an RPR interface is as follows:
router# show ons qos output interface rpr0
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Related CommandsRelated Commnads
show ons queue counters drop interface
show ons queue counters drop interface interface-number
This command is used to display drops in queues associated with the interface.
Syntax Description
|
|
interface-number |
The interface numbers can be assigned as follows: •Gigabit Ethernet: Gn (where n = 0-9) •RPR-IEEE: rpr0 •port-channel: portn (where n = 1-10) |
Defaults
N/A
Command Modes
Privileged EXEC
Usage Guidelines
This command is applicable to ML-MR-10 cards.
Examples
Example of Gigabit Ethernet interface is as follows:
router# show ons queue counters drop interface G9
Example of an RPR interface is as follows:
Router# show ons queue counter drop interface RPR-IEEE 0
RPR-IEEE0
Queues 0-7 are for rpr east span, Queues 8-15 are for rpr west span
Related Commands
show ons queue counters per_q_cntr int
show ons queue counters per_q_cntr int interface-number
Use this command to display per queue packet counters, byte counts, and queue buildup for the specified interface.
Syntax Description
|
|
interface-number |
The interface numbers can be assigned as follows: •Gigabit Ethernet: Gn (where n = 0-9) •RPR-IEEE: rpr0 •port-channel: portn (where n = 1-10) |
Defaults
N/A
Command Modes
Privileged EXEC
Usage Guidelines
This command is applicable to ML-MR-10 cards.
Examples
Example for a Gigabit Ethernet interface is as follows:
router# show ons queue counters per_q_cntr int GigabitEthernet9
Q# |
PACKETS TRANSMITTED |
BYTES TRANSMITTED |
QUEUE BUILDUP/SEC |
---|---|---|---|
0 |
27 |
9126 |
0 |
1 |
0 |
0 |
0 |
2 |
0 |
0 |
0 |
3 |
61156102 |
4654988836 |
110 |
Note Queue Buildup is accumulated for five minutes.
Example for an RPR interface is as follows:
router# show ons queue counters per_q_cntr interface RPR-IEEE 0
RPR-IEEE0
Queues 0-7 are for rpr east span, Queues 8-15 are for rpr west span
Note Queue buildup is accumulated for five minutes.
Related Commands
show ons queue counters drop interface
show policy-map interface interface-number
Use this command to display Quality of Service (QOS) statistics.
Syntax Description
|
|
interface-number |
The interface numbers can be assigned as follows: •GigabitEthernet—0-9 •RPR-IEEE—0 •port-channel—1-10 |
Defaults
N/A
Command Modes
Privileged EXEC
Usage Guidelines
This command is applicable to ML-MR-10 cards.
Note When this command is executed, the class maps that are configured under a policy-map applied to an interface are displayed. This command also displays the number of packets dropped from an output queue, determines if the QOS policy is active on the interface, and determines if the traffic meets the requirements to become a member of the class.
Examples
Example of output service policy:
Router# show policy-map interface gigabitEthernet 9
Service-policy output: out
Class-map: qos1 (match-all)
0 packets, 0 bytes
5 minute offered rate 0 bps, drop rate 0 bps
Match: qos-group 1
Weighted Fair Queueing
Bandwidth 30 (%) Max Threshold 5314 (packets)
(depth/total drops/bytes drops) 0/0/0
Class-map: qos0 (match-all)
0 packets, 0 bytes
5 minute offered rate 0 bps, drop rate 0 bps
Match: qos-group 0
Weighted Fair Queueing
Strict Priority Max Threshold 5314 (packets)
(depth/total drops/bytes drops) 0/0/0
Class-map: class-default (match-any)
0 packets, 0 bytes
5 minute offered rate 0 bps, drop rate 0 bps
Match: any
Weighted Fair Queueing
Bandwidth 20 (%) Max Threshold 5314 (packets)
(depth/total drops/bytes drops) 0/0/0
Example of input service policy:
Router# show policy-map interface gigabitEthernet 8
Service-policy input: in
Class-map: cos1 (match-all)
0 packets, 0 bytes
5 minute offered rate 0 bps, drop rate 0 bps
Match: cos 1
police:
5000000 bps, 125000 limit, 20000000 bps, 500000 extended limit
conformed 0 packets, 0 bytes; actions:
transmit
exceeded 0 packets, 0 bytes; actions:
set-cos-transmit 4
violated 0 packets, 0 bytes; actions:
drop
Class-map: cos2 (match-all)
0 packets, 0 bytes
5 minute offered rate 0 bps, drop rate 0 bps
Match: cos 2
Class-map: cos3 (match-all)
0 packets, 0 bytes
5 minute offered rate 0 bps, drop rate 0 bps
Match: cos 3
Class-map: class-default (match-any)
0 packets, 0 bytes
5 minute offered rate 0 bps, drop rate 0 bps
Match: any
Related CommandsRelated Commnads
None
show protection interface interface-name
Use this command to display the protection configuration and the status of an interface.
Syntax Description
|
|
interface_name |
Name of the Gigabit Ethernet, portchannel, RPR, or POS interface. |
Command Modes
Privileged EXEC
Usage Guidelines
This command is applicable to ML-MR-10 cards.
Examples
Router# show protection interface GigabitEthernet 0
Interface GigabitEthernet0:
===========================
Group : 1
Port State : Active
Port FSM State : Active (Port is Active)
Link not forced down, Link status: UP
Related CommandsRelated Commnads
None
show protection <detail | group> group_num
Use this command to display the configuration and status of a protection group.
Syntax Description
|
|
detail |
Displays all the protection groups. |
group |
Displays the specified protection group (1 to 11). |
group_num |
Numerical value ranging between 1-11. |
Command Modes
Privileged EXEC
Usage Guidelines
This command is applicable to ML-MR-10 cards.
Examples
Router# show protection group 1
Protection Group: 1
====================
Peer Slot Number : 12
Group State : Active
Group FSM State : Active (Group is Active)
Peer : Present
RPR0 interface : UP
Interface State
--------- -------
GigabitEthernet0 Active
Router#
Related CommandsRelated Commnads
None
show rpr-ieee counters
Use this command to display the various packet/byte counters for each span of the IEEE 802.17b based RPR interface. For definitions of ML-Series card statistics, refer to the "Performance Monitoring" chapter in the Cisco ONS 15454 SONET and DWDM Troubleshooting Guide or the Cisco ONS 15454 SDH Troubleshooting Guide.
Syntax Description
This command has no arguments or keywords.
Defaults
Defaults can vary by each counter.
Command Modes
Privileged exec
Usage Guidelines
This command is primarily a troubleshooting tool. The same counter data is also available through Simple Network Management Protocol (SNMP) data, the Transaction Language 1 (TL1) interface, and CTC.
Examples
router# show rpr-ieee counters
Data Traffic Counters for Interface RPR-IEEE0
WEST Span:
Transit Packets Bytes
Total Low Priority 1162649477 183697386417
Total Med EIR Priority 8936750 1412005236
Total Med CIR+EIR Priority 48436675 7653001286
Total High Priority 17567660 2775677008
Total Multicast 66039554 10435555023
Total Unicast 1162614609 183690629992
Host Receive Packets Bytes
Unicast Low Priority 16147390254 2550939336924
Unicast Med EIR Priority 0 0
Unicast Med CIR Priority 0 0
Unicast High Priority 0 0
Multicast Low Priority 1389170314 219486727447
Multicast Med EIR Priority 0 0
Multicast Med CIR Priority 0 0
Multicast High Priority 0 0
Broadcast 0 N/A
Total Receive Packets Bytes
Unicast Low Priority 17319366142 2736075078618
Unicast Med EIR Priority 0 0
Unicast Med CIR Priority 0 0
Unicast High Priority 0 0
Multicast Low Priority 1389170314 219488627991
Multicast Med EIR Priority 0 0
Multicast Med CIR Priority 0 0
Multicast High Priority 0 0
Host Transmit Packets Bytes
Unicast Low Priority 18701060600 2954767575274
Unicast Med EIR Priority 0 0
Unicast Med CIR Priority 0 0
Unicast High Priority 0 0
Multicast Low Priority 233345 38183383
Multicast Med EIR Priority 456173838 72075466404
Multicast Med CIR Priority 48446005 7654468790
Multicast High Priority 192647108 30438243064
Broadcast 0 N/A
Total Transmit Packets Bytes
Unicast Low Priority 19863597488 3138448403894
Unicast Med EIR Priority 0 0
Unicast Med CIR Priority 0 0
Unicast High Priority 0 0
Multicast Low Priority 268795 45108717
Multicast Med EIR Priority 495672023 78316179634
Multicast Med CIR Priority 57382139 9066377962
Multicast High Priority 210212898 33213637884
Traffic Rate (5 Minutes) packets/sec bits/sec
Transit Low Priority 0 0
Transit Med EIR Priority 0 0
Transit Med CIR+EIR Priority 0 0
Transit High Priority 0 0
Transit Multicast 0 0
Transit Unicast 0 0
Host Receive 71269 90075869
Total Receive 71269 90076596
Host Transmit 76333 96478080
Total Transmit 76332 96478112
Control Frames: Received Transmitted
Control 26155194 8462107
OAM Echo 0 0
OAM Flush 0 0
OAM Org 0 0
OAM SAS Notify 0 0
Topology ATD 1946003 392352
Topology Checksum 4034923 4034891
Topology Protection 20174268 4034864
LRTT 0 0
FDD 0 0
Received Errors:
0 input errors, 0 CRC, 0 ignored,
0 framer runts, 0 framer giants, 0 framer aborts,
0 mac runts, 0 mac giants, 0 mac ttl strips,
0 non_we drop, 0 ltb_strict drop, 0 htb_strict drop
0 scff errors, 0 bad addr frames, 0 self sourced frames
EAST Span:
Transit Packets Bytes
Total Low Priority 2561406909 404771885533
Total Med EIR Priority 19279 3064252
Total Med CIR+EIR Priority 35591 5614688
Total High Priority 32164 5113038
Total Multicast 1389153110 219542479597
Total Unicast 1172313263 185238866568
Host Receive Packets Bytes
Unicast Low Priority 6599528894 1042960369924
Unicast Med EIR Priority 11972905593 1891155540262
Unicast Med CIR Priority 1826846617 288560828526
Unicast High Priority 3693986118 583445203252
Multicast Low Priority 42456 9288351
Multicast Med EIR Priority 39498185 6240713230
Multicast Med CIR Priority 8936134 1411909172
Multicast High Priority 17565790 2775394820
Broadcast 0 N/A
Total Receive Packets Bytes
Unicast Low Priority 7761607024 1226426632416
Unicast Med EIR Priority 11972905600 1891010247740
Unicast Med CIR Priority 1826846617 288584487022
Unicast High Priority 3693986118 583547505106
Multicast Low Priority 42456 9288351
Multicast Med EIR Priority 39498185 6235011598
Multicast Med CIR Priority 8936134 1411909172
Multicast High Priority 17565790 2775394820
Host Transmit Packets Bytes
nicast Low Priority 6356990298 1004807678284
Unicast Med EIR Priority 7701766350 1216879083616
Unicast Med CIR Priority 1830175717 289167763286
Unicast High Priority 3695903572 583952764376
Multicast Low Priority 233345 38183383
Multicast Med EIR Priority 407714881 64418951198
Multicast Med CIR Priority 96890130 15308640540
Multicast High Priority 192646933 30438215414
Broadcast 0 N/A
Total Transmit Packets Bytes
Unicast Low Priority 7529228323 1190034710362
Unicast Med EIR Priority 7701766354 1216879084248
Unicast Med CIR Priority 1830175717 289167763286
Unicast High Priority 3695903572 583952764376
Multicast Low Priority 1389383752 219580264474
Multicast Med EIR Priority 407714881 64418951198
Multicast Med CIR Priority 96890130 15308640540
Multicast High Priority 192646933 30438215414
Traffic Rate (5 Minutes) packets/sec bits/sec
Transit Low Priority 6062 7654634
Transit Med EIR Priority 0 0
Transit Med CIR+EIR Priority 0 0
Transit High Priority 0 0
Transit Multicast 6062 7654634
Transit Unicast 0 0
Host Receive 75568 95494249
Total Receive 75568 95512522
Host Transmit 56933 71958410
Total Transmit 62992 79613030
Control Frames: Received Transmitted
Control 26155236 8462109
OAM Echo 0 0
OAM Flush 0 0
OAM Org 0 0
OAM SAS Notify 0 0
Topology ATD 1946019 392355
Topology Checksum 4034954 4034891
Topology Protection 20174268 4034864
LRTT 0 0
FDD 0 0
Received Errors:
3 input errors, 0 CRC, 0 ignored,
0 framer runts, 0 framer giants, 0 framer aborts,
0 mac runts, 0 mac giants, 3 mac ttl strips,
0 non_we drop, 0 ltb_strict drop, 0 htb_strict drop 0 scff errors, 0 bad addr frames, 0 self sourced frames
Related Commands
show int rpr-ieee interface-number
show rpr-ieee failure rpr-ieee interface-number
Use this command to display all inputs used to determine the failure state of each span on the IEEE 802.17b-based RPR interface.
Syntax Description
Parameter |
Description |
interface-number |
IEEE 802.17b based RPR interface number. No space is included between rpr-iee and the interface number (for example, rpr-ieee0). |
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command is primarily used for troubleshooting. Some of its information overlaps that obtained with show rpr-ieee topology and show rpr-ieee protection commands.
Examples
router# show rpr-ieee failure rpr-ieee0
Self Detected Failures Information for Interface RPR-IEEE0
Span WEST:
Reported Debounced Current Stable Debounce
state state state for(sec) delay(sec)
HW missing IDLE IDLE IDLE 403628 0
Layer 1 IDLE IDLE IDLE 403628 0
MAC Keepalive IDLE IDLE IDLE 403628 0
Link quality IDLE IDLE IDLE 403628 0
Mate interface IDLE IDLE IDLE 403628 0
Span mismatch IDLE IDLE IDLE 403628 0
Result Self Detect = IDLE
Span EAST:
Reported Debounced Current Stable Debounce
state state state for(sec) delay(sec)
HW missing IDLE IDLE IDLE 403628 0
Layer 1 IDLE IDLE IDLE 403628 0
MAC Keepalive IDLE IDLE IDLE 403628 0
Link quality IDLE IDLE IDLE 403628 0
Mate interface IDLE IDLE IDLE 403628 0
Span mismatch IDLE IDLE IDLE 403628 0
Result Self Detect = IDLE
Related Commands
show int rpr-ieee
show rpr-ieee fairness detail
Use this command to display the state information of the fairness state machine for each span of the IEEE 802.17b based RPR interface.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
This command can be used for troubleshooting traffic issues related to fairness weighting or bandwidth usage. It provides deep detail for the fairness state of all IEEE 802.17b based RPR traffic on the interface.
Examples
router# show rpr-ieee fairness detail
IEEE 802.17 Fairness on RPR-IEEE0:
Bandwidth: 96768 kilobits per second
Station using aggressive rate adjustment.
Westbound Tx (Ringlet 1)
Weighted Fairness:
Local Weight: 0 (1)
Single-Choke Fairness Status:
Local Congestion:
Congested? No
Head? No
Local Fair Rate:
Approximate Bandwidth: 64892 Kbps
25957 normalized bytes per aging interval
51914 bytes per ageCoef aging interval
Downstream Congestion:
Congested? No
Tail? No
Received Source Address: 0000.0000.0000
Received Fair Rate:
Approximate Bandwidth: FULL RATE
65535 normalized bytes per aging interval
Reserved Rate:
0 Kbps
0 bytes per aging interval
Unreserved Rate:
96768 Kbps
4838 bytes per aging interval
Allowed Rate:
Approximate Bandwidth: 96000 Kbps
4800 bytes per aging interval
Allowed Rate Congested:
Approximate Bandwidth: 96000 Kbps
4800 bytes per aging interval
TTL to Congestion: 255
Total Hops Tx: 4
Advertised Fair Rate:
Approximate Bandwidth: FULL RATE
65535 normalized bytes per aging interval
8191 bytes per aging interval
Eastbound Tx (Ringlet 0)
Weighted Fairness:
Local Weight: 0 (1)
Single-Choke Fairness Status:
Local Congestion:
Congested? No
Head? No
Local Fair Rate:
Approximate Bandwidth: 0 Kbps
0 normalized bytes per aging interval
0 bytes per ageCoef aging interval
Downstream Congestion:
Congested? No
Tail? No
Received Source Address: 0000.0000.0000
Received Fair Rate:
Approximate Bandwidth: FULL RATE
65535 normalized bytes per aging interval
Reserved Rate:
0 Kbps
0 bytes per aging interval
Unreserved Rate:
96768 Kbps
4838 bytes per aging interval
Allowed Rate:
Approximate Bandwidth: 96000 Kbps
4800 bytes per aging interval
Allowed Rate Congested:
Approximate Bandwidth: 96000 Kbps
4800 bytes per aging interval
TTL to Congestion: 255
Total Hops Tx: 4
Advertised Fair Rate:
Approximate Bandwidth: FULL RATE
65535 normalized bytes per aging interval
8191 bytes per aging interval
Related Commands
show rpr-ieee fairness history
show rpr-ieee fairness history
Use this command to retrievs performance monitoring information about local and downstream IEEE 802.17b based RPR congestion history over a period of up to 24 hours.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
Use this command to determine whether the local IEEE 802.17b based RPR station has been congested within the past 24 hr and, if so, what the time frame and degree of congestion is. Fairness history aids in managing traffic by allowing you to monitor or diagnose the ring.
Examples
router# show rpr-ieee fairness history
IEEE 802.17 Fairness History on RPR-IEEE0 for last 24 hours:
Congestion information gathered every 900 second(s)
Westbound Tx (Ringlet 1)
Local Congestion:
No. Time: Aging Intervals Seconds Percent
Congested / Total Congested / Total Congested
Instantaneous: 0 / 30 0 (ms) / 12 (ms) 0%
65 08:01:45: 0 / 2250000 0 / 900 0%
64 07:46:45: 0 / 2250000 0 / 900 0%
63 07:31:45: 0 / 2250000 0 / 900 0%
62 07:16:45: 0 / 2250000 0 / 900 0%
61 07:01:45: 0 / 2250000 0 / 900 0%
60 06:46:45: 0 / 2250000 0 / 900 0%
59 06:31:45: 0 / 2250010 0 / 900 0%
58 06:16:45: 0 / 2250000 0 / 900 0%
57 06:01:45: 0 / 2250000 0 / 900 0%
56 05:46:45: 0 / 2250020 0 / 900 0%
55 05:31:45: 0 / 2250000 0 / 900 0%
54 05:16:45: 0 / 2250000 0 / 900 0%
53 05:01:45: 0 / 2250000 0 / 900 0%
52 04:46:45: 0 / 2250000 0 / 900 0%
51 04:31:45: 0 / 2250000 0 / 900 0%
50 04:16:45: 0 / 2250000 0 / 900 0%
49 04:01:45: 0 / 2250000 0 / 900 0%
48 03:46:45: 0 / 2250000 0 / 900 0%
47 03:31:45: 0 / 2250000 0 / 900 0%
46 03:16:45: 0 / 2250000 0 / 900 0%
45 03:01:45: 0 / 2250000 0 / 900 0%
44 02:46:45: 0 / 2250000 0 / 900 0%
43 02:31:45: 0 / 2250000 0 / 900 0%
42 02:16:45: 0 / 2250010 0 / 900 0%
41 02:01:45: 0 / 2250000 0 / 900 0%
40 01:46:45: 0 / 2250000 0 / 900 0%
39 01:31:45: 0 / 2250000 0 / 900 0%
38 01:16:45: 0 / 2250000 0 / 900 0%
37 01:01:45: 0 / 2250000 0 / 900 0%
36 00:46:45: 0 / 2250000 0 / 900 0%
35 00:31:45: 0 / 2250000 0 / 900 0%
34 00:16:45: 0 / 2250000 0 / 900 0%
33 00:01:45: 0 / 2250000 0 / 900 0%
32 23:46:45: 0 / 2250030 0 / 900 0%
31 23:31:45: 0 / 2250000 0 / 900 0%
30 23:16:45: 0 / 2250000 0 / 900 0%
29 23:01:45: 0 / 2250090 0 / 900 0%
28 22:46:45: 0 / 2250000 0 / 900 0%
27 22:31:45: 0 / 2250000 0 / 900 0%
26 22:16:45: 0 / 2250000 0 / 900 0%
25 22:01:45: 0 / 2250000 0 / 900 0%
24 21:46:45: 0 / 2250000 0 / 900 0%
23 21:31:45: 0 / 2250000 0 / 900 0%
22 21:16:45: 0 / 2250050 0 / 900 0%
21 21:01:45: 0 / 2250000 0 / 900 0%
20 20:46:45: 0 / 2250000 0 / 900 0%
19 20:31:45: 0 / 2250000 0 / 900 0%
18 20:16:45: 0 / 2250060 0 / 900 0%
17 20:01:45: 0 / 2250000 0 / 900 0%
16 19:46:45: 0 / 2250000 0 / 900 0%
15 19:31:45: 0 / 2250000 0 / 900 0%
14 19:16:45: 0 / 2250000 0 / 900 0%
13 19:01:45: 0 / 2250000 0 / 900 0%
12 18:46:45: 0 / 2250090 0 / 900 0%
11 18:31:45: 0 / 2250000 0 / 900 0%
10 18:16:45: 0 / 2250000 0 / 900 0%
9 18:01:45: 0 / 2250000 0 / 900 0%
8 17:46:45: 0 / 2250000 0 / 900 0%
7 17:31:45: 0 / 2250000 0 / 900 0%
6 17:16:45: 0 / 2250000 0 / 900 0%
5 17:01:45: 0 / 2250000 0 / 900 0%
4 16:46:45: 0 / 2250000 0 / 900 0%
3 16:31:45: 0 / 2250000 0 / 900 0%
2 16:16:45: 0 / 2250000 0 / 900 0%
1 16:01:45; 0 / 2250000 0 / 900 0%
96 15:46:45: 0 / 2250000 0 / 900 0%
95 15:31:45: 0 / 2250000 0 / 900 0%
94 15:16:45: 0 / 2250000 0 / 900 0%
93 15:01:45: 0 / 2250000 0 / 900 0%
92 14:46:45: 0 / 2250000 0 / 900 0%
91 14:31:45: 0 / 2250000 0 / 900 0%
90 14:16:45: 0 / 2250000 0 / 900 0%
89 14:01:45: 0 / 2250000 0 / 900 0%
88 13:46:45: 0 / 2250000 0 / 900 0%
87 13:31:45: 0 / 2250000 0 / 900 0%
86 13:16:45: 0 / 2250000 0 / 900 0%
85 13:01:45: 0 / 2250000 0 / 900 0%
84 12:46:45: 0 / 2250000 0 / 900 0%
83 12:31:45: 0 / 2250100 0 / 900 0%
82 12:16:45: 0 / 2250000 0 / 900 0%
81 12:01:45: 0 / 2250000 0 / 900 0%
80 11:46:45: 0 / 2250030 0 / 900 0%
79 11:31:45: 0 / 2250000 0 / 900 0%
78 11:16:45: 0 / 2250010 0 / 900 0%
77 11:01:45: 0 / 2250000 0 / 900 0%
76 10:46:45: 0 / 2250000 0 / 900 0%
75 10:31:45: 0 / 2250000 0 / 900 0%
74 10:16:45: 0 / 2250000 0 / 900 0%
73 10:01:45: 0 / 2250000 0 / 900 0%
72 09:46:45: 0 / 2250070 0 / 900 0%
71 09:31:45: 0 / 2250000 0 / 900 0%
70 09:16:45: 0 / 2250000 0 / 900 0%
69 09:01:45: 0 / 2250000 0 / 900 0%
68 08:46:45: 0 / 2250000 0 / 900 0%
67 08:31:45: 0 / 2250000 0 / 900 0%
Downstream Congestion:
No. Time : Aging Intervals Seconds Percent
Congested / Total Congested / Total Congested
Instantaneous : 0 / 30 0 (ms) / 12 (ms) 0%
65 08:01:45 : 0 / 2250000 0 / 900 0%
64 07:46:45 : 0 / 2250000 0 / 900 0%
63 07:31:45 : 0 / 2250000 0 / 900 0%
62 07:16:45 : 0 / 2250000 0 / 900 0
61 07:01:45 : 0 / 2250000 0 / 900 0%
60 06:46:45 : 0 / 2250000 0 / 900 0%
59 06:31:45 : 0 / 2250010 0 / 900 0%
58 06:16:45 : 0 / 2250000 0 / 900 0%
57 06:01:45 : 0 / 2250000 0 / 900 0%
56 05:46:45 : 0 / 2250020 0 / 900 0%
55 05:31:45 : 0 / 2250000 0 / 900 0%
54 05:16:45 : 0 / 2250000 0 / 900 0%
53 05:01:45 : 0 / 2250000 0 / 900 0%
52 04:46:45 : 0 / 2250000 0 / 900 0%
51 04:31:45 : 0 / 2250000 0 / 900 0%
50 04:16:45 : 0 / 2250000 0 / 900 0%
49 04:01:45 : 0 / 2250000 0 / 900 0%
48 03:46:45 : 0 / 2250000 0 / 900 0%
47 03:31:45 : 0 / 2250000 0 / 900 0%
46 03:16:45 : 0 / 2250000 0 / 900 0%
45 03:01:45 : 0 / 2250000 0 / 900 0%
44 02:46:45 : 0 / 2250000 0 / 900 0%
43 02:31:45 : 0 / 2250000 0 / 900 0%
42 02:16:45 : 0 / 2250010 0 / 900 0%
41 02:01:45 : 0 / 2250000 0 / 900 0%
40 01:46:45 : 0 / 2250000 0 / 900 0%
39 01:31:45 : 0 / 2250000 0 / 900 0%
38 01:16:45 : 0 / 2250000 0 / 900 0%
37 01:01:45 : 0 / 2250000 0 / 900 0%
36 00:46:45 : 0 / 2250000 0 / 900 0%
35 00:31:45 : 0 / 2250000 0 / 900 0%
34 00:16:45 : 0 / 2250000 0 / 900 0%
33 00:01:45 : 0 / 2250000 0 / 900 0%
32 23:46:45 : 0 / 2250030 0 / 900 0%
31 23:31:45 : 0 / 2250000 0 / 900 0%
30 23:16:45 : 0 / 2250000 0 / 900 0%
29 23:01:45 : 0 / 2250090 0 / 900 0%
28 22:46:45 : 0 / 2250000 0 / 900 0%
27 22:31:45 : 0 / 2250000 0 / 900 0%
26 22:16:45 : 0 / 2250000 0 / 900 0%
25 22:01:45 : 0 / 2250000 0 / 900 0%
24 21:46:45 : 0 / 2250000 0 / 900 0%
23 21:31:45 : 0 / 2250000 0 / 900 0%
22 21:16:45 : 0 / 2250050 0 / 900 0%
21 21:01:45 : 0 / 2250000 0 / 900 0%
20 20:46:45 : 0 / 2250000 0 / 900 0%
19 20:31:45 : 0 / 2250000 0 / 900 0%
18 20:16:45 : 0 / 2250060 0 / 900 0%
17 20:01:45 : 0 / 2250000 0 / 900 0%
16 19:46:45 : 0 / 2250000 0 / 900 0%
15 19:31:45 : 0 / 2250000 0 / 900 0%
14 19:16:45 : 0 / 2250000 0 / 900 0%
13 19:01:45 : 0 / 2250000 0 / 900 0%
12 18:46:45 : 0 / 2250090 0 / 900 0%
11 18:31:45 : 0 / 2250000 0 / 900 0%
10 18:16:45 : 0 / 2250000 0 / 900 0%
9 18:01:45 : 0 / 2250000 0 / 900 0%
8 17:46:45 : 0 / 2250000 0 / 900 0%
7 17:31:45 : 0 / 2250000 0 / 900 0%
6 17:16:45 : 0 / 2250000 0 / 900 0%
5 17:01:45 : 0 / 2250000 0 / 900 0%
4 16:46:45 : 0 / 2250000 0 / 900 0%
3 16:31:45 : 0 / 2250000 0 / 900 0%
2 16:16:45 : 0 / 2250000 0 / 900 0%
1 16:01:45 : 0 / 2250000 0 / 900 0%
96 15:46:45 : 0 / 2250000 0 / 900 0%
95 15:31:45 : 0 / 2250000 0 / 900 0%
94 15:16:45 : 0 / 2250000 0 / 900 0%
93 15:01:45 : 0 / 2250000 0 / 900 0%
92 14:46:45 : 0 / 2250000 0 / 900 0%
91 14:31:45 : 0 / 2250000 0 / 900 0%
90 14:16:45 : 0 / 2250000 0 / 900 0%
89 14:01:45 : 0 / 2250000 0 / 900 0%
88 13:46:45 : 0 / 2250000 0 / 900 0%
87 13:31:45 : 0 / 2250000 0 / 900 0%
86 13:16:45 : 0 / 2250000 0 / 900 0%
85 13:01:45 : 0 / 2250000 0 / 900 0%
84 12:46:45 : 0 / 2250000 0 / 900 0%
83 12:31:45 : 0 / 2250100 0 / 900 0%
82 12:16:45 : 0 / 2250000 0 / 900 0%
81 12:01:45 : 0 / 2250000 0 / 900 0%
80 11:46:45 : 0 / 2250030 0 / 900 0%
79 11:31:45 : 0 / 2250000 0 / 900 0%
78 11:16:45 : 0 / 2250010 0 / 900 0%
77 11:01:45 : 0 / 2250000 0 / 900 0%
76 10:46:45 : 0 / 2250000 0 / 900 0%
75 10:31:45 : 0 / 2250000 0 / 900 0%
74 10:16:45 : 0 / 2250000 0 / 900 0%
73 10:01:45 : 0 / 2250000 0 / 900 0%
72 09:46:45 : 0 / 2250070 0 / 900 0%
71 09:31:45 : 0 / 2250000 0 / 900 0%
70 09:16:45 : 0 / 2250000 0 / 900 0%
69 09:01:45 : 0 / 2250000 0 / 900 0%
68 08:46:45 : 0 / 2250000 0 / 900 0%
67 08:31:45 : 0 / 2250000 0 / 900 0%
Eastbound Tx (Ringlet 0)
Local Congestion:
No. Time : Aging Intervals Seconds Percent
Congested / Total Congested / Total Congested
Instantaneous: 0 / 30 0 (ms) / 12 (ms) 0%
65 08:01:45 : 0 / 2250000 0 / 900 0%
64 07:46:45 : 0 / 2250000 0 / 900 0%
63 07:31:45 : 0 / 2250000 0 / 900 0%
62 07:16:45 : 0 / 2250000 0 / 900 0%
61 07:01:45 : 0 / 2250000 0 / 900 0%
60 06:46:45 : 0 / 2250000 0 / 900 0%
59 06:31:45 : 0 / 2250010 0 / 900 0%
58 06:16:45 : 0 / 2250000 0 / 900 0%
57 06:01:45 : 0 / 2250000 0 / 900 0%
56 05:46:45 : 0 / 2250020 0 / 900 0%
55 05:31:45 : 0 / 2250000 0 / 900 0%
54 05:16:45 : 0 / 2250000 0 / 900 0%
53 05:01:45 : 0 / 2250000 0 / 900 0%
52 04:46:45 : 0 / 2250000 0 / 900 0%
51 04:31:45 : 0 / 2250000 0 / 900 0%
50 04:16:45 : 0 / 2250000 0 / 900 0%
49 04:01:45 : 0 / 2250000 0 / 900 0%
48 03:46:45 : 0 / 2250000 0 / 900 0%
47 03:31:45 : 0 / 2250000 0 / 900 0%
46 03:16:45 : 0 / 2250000 0 / 900 0%
45 03:01:45 : 0 / 2250000 0 / 900 0%
44 02:46:45 : 0 / 2250000 0 / 900 0%
43 02:31:45 : 0 / 2250000 0 / 900 0%
42 02:16:45 : 0 / 2250010 0 / 900 0%
41 02:01:45 : 0 / 2250000 0 / 900 0%
40 01:46:45 : 0 / 2250000 0 / 900 0%
39 01:31:45 : 0 / 2250000 0 / 900 0%
38 01:16:45 : 0 / 2250000 0 / 900 0%
37 01:01:45 : 0 / 2250000 0 / 900 0%
36 00:46:45 : 0 / 2250000 0 / 900 0%
35 00:31:45 : 0 / 2250000 0 / 900 0%
34 00:16:45 : 0 / 2250000 0 / 900 0%
33 00:01:45 : 0 / 2250000 0 / 900 0%
32 23:46:45 : 0 / 2250030 0 / 900 0%
31 23:31:45 : 0 / 2250000 0 / 900 0%
30 23:16:45 : 0 / 2250000 0 / 900 0%
29 23:01:45 : 0 / 2250090 0 / 900 0%
28 22:46:45 : 0 / 2250000 0 / 900 0%
27 22:31:45 : 0 / 2250000 0 / 900 0%
26 22:16:45 : 0 / 2250000 0 / 900 0%
25 22:01:45 : 0 / 2250000 0 / 900 0%
24 21:46:45 : 0 / 2250000 0 / 900 0%
23 21:31:45 : 0 / 2250000 0 / 900 0%
22 21:16:45 : 0 / 2250050 0 / 900 0%
21 21:01:45 : 0 / 2250000 0 / 900 0%
20 20:46:45 : 0 / 2250000 0 / 900 0%
19 20:31:45 : 0 / 2250000 0 / 900 0%
18 20:16:45 : 0 / 2250060 0 / 900 0%
17 20:01:45 : 0 / 2250000 0 / 900 0%
16 19:46:45 : 0 / 2250000 0 / 900 0%
15 19:31:45 : 0 / 2250000 0 / 900 0%
14 19:16:45 : 0 / 2250000 0 / 900 0%
13 19:01:45 : 0 / 2250000 0 / 900 0%
12 18:46:45 : 0 / 2250090 0 / 900 0%
11 18:31:45 : 0 / 2250000 0 / 900 0%
10 18:16:45 : 0 / 2250000 0 / 900 0%
9 18:01:45 : 0 / 2250000 0 / 900 0%
8 17:46:45 : 0 / 2250000 0 / 900 0%
7 17:31:45 : 0 / 2250000 0 / 900 0%
6 17:16:45 : 0 / 2250000 0 / 900 0%
5 17:01:45 : 0 / 2250000 0 / 900 0%
4 16:46:45 : 0 / 2250000 0 / 900 0%
3 16:31:45 : 0 / 2250000 0 / 900 0%
2 16:16:45 : 0 / 2250000 0 / 900 0%
1 16:01:45 : 0 / 2250000 0 / 900 0%
96 15:46:45 : 0 / 2250000 0 / 900 0%
95 15:31:45 : 0 / 2250000 0 / 900 0%
94 15:16:45 : 0 / 2250000 0 / 900 0%
93 15:01:45 : 0 / 2250000 0 / 900 0%
92 14:46:45 : 0 / 2250000 0 / 900 0%
91 14:31:45 : 0 / 2250000 0 / 900 0%
90 14:16:45 : 0 / 2250000 0 / 900 0%
89 14:01:45 : 0 / 2250000 0 / 900 0%
88 13:46:45 : 0 / 2250000 0 / 900 0%
87 13:31:45 : 0 / 2250000 0 / 900 0%
86 13:16:45 : 0 / 2250000 0 / 900 0%
85 13:01:45 : 0 / 2250000 0 / 900 0%
84 12:46:45 : 0 / 2250000 0 / 900 0%
83 12:31:45 : 0 / 2250100 0 / 900 0%
82 12:16:45 : 0 / 2250000 0 / 900 0%
81 12:01:45 : 0 / 2250000 0 / 900 0%
80 11:46:45 : 0 / 2250030 0 / 900 0%
79 11:31:45 : 0 / 2250000 0 / 900 0%
78 11:16:45 : 0 / 2250010 0 / 900 0%
77 11:01:45 : 0 / 2250000 0 / 900 0%
76 10:46:45 : 0 / 2250000 0 / 900 0%
75 10:31:45 : 0 / 2250000 0 / 900 0%
74 10:16:45 : 0 / 2250000 0 / 900 0%
73 10:01:45 : 0 / 2250000 0 / 900 0%
72 09:46:45 : 0 / 2250070 0 / 900 0%
71 09:31:45 : 0 / 2250000 0 / 900 0%
70 09:16:45 : 0 / 2250000 0 / 900 0%
69 09:01:45 : 0 / 2250000 0 / 900 0%
68 08:46:45 : 0 / 2250000 0 / 900 0%
67 08:31:45 : 0 / 2250000 0 / 900 0%
Downstream Congestion:
No. Time : Aging Intervals Seconds Percent
Congested / Total Congested / Total Congested
Instantaneous : 0 / 30 0 (ms) / 12 (ms) 0%
65 08:01:45 : 0 / 2250000 0 / 900 0%
64 07:46:45 : 0 / 2250000 0 / 900 0%
63 07:31:45 : 0 / 2250000 0 / 900 0%
62 07:16:45 : 0 / 2250000 0 / 900 0%
61 07:01:45 : 0 / 2250000 0 / 900 0%
60 06:46:45 : 0 / 2250000 0 / 900 0%
59 06:31:45 : 0 / 2250010 0 / 900 0%
58 06:16:45 : 0 / 2250000 0 / 900 0%
57 06:01:45 : 0 / 2250000 0 / 900 0%
56 05:46:45 : 0 / 2250020 0 / 900 0%
55 05:31:45 : 0 / 2250000 0 / 900 0%
54 05:16:45 : 0 / 2250000 0 / 900 0%
53 05:01:45 : 0 / 2250000 0 / 900 0%
52 04:46:45 : 0 / 2250000 0 / 900 0%
51 04:31:45 : 0 / 2250000 0 / 900 0%
50 04:16:45 : 0 / 2250000 0 / 900 0%
49 04:01:45 : 0 / 2250000 0 / 900 0%
48 03:46:45 : 0 / 2250000 0 / 900 0%
47 03:31:45 : 0 / 2250000 0 / 900 0%
46 03:16:45 : 0 / 2250000 0 / 900 0%
45 03:01:45 : 0 / 2250000 0 / 900 0%
44 02:46:45 : 0 / 2250000 0 / 900 0%
43 02:31:45 : 0 / 2250000 0 / 900 0%
42 02:16:45 : 0 / 2250010 0 / 900 0%
41 02:01:45 : 0 / 2250000 0 / 900 0%
40 01:46:45 : 0 / 2250000 0 / 900 0%
39 01:31:45 : 0 / 2250000 0 / 900 0%
38 01:16:45 : 0 / 2250000 0 / 900 0%
37 01:01:45 : 0 / 2250000 0 / 900 0%
36 00:46:45 : 0 / 2250000 0 / 900 0%
35 00:31:45 : 0 / 2250000 0 / 900 0%
34 00:16:45 : 0 / 2250000 0 / 900 0%
33 00:01:45 : 0 / 2250000 0 / 900 0%
32 23:46:45 : 0 / 2250030 0 / 900 0%
31 23:31:45 : 0 / 2250000 0 / 900 0%
30 23:16:45 : 0 / 2250000 0 / 900 0%
29 23:01:45 : 0 / 2250090 0 / 900 0%
28 22:46:45 : 0 / 2250000 0 / 900 0%
27 22:31:45 : 0 / 2250000 0 / 900 0%
26 22:16:45 : 0 / 2250000 0 / 900 0%
25 22:01:45 : 0 / 2250000 0 / 900 0%
24 21:46:45 : 0 / 2250000 0 / 900 0%
23 21:31:45 : 0 / 2250000 0 / 900 0%
22 21:16:45 : 0 / 2250050 0 / 900 0%
21 21:01:45 : 0 / 2250000 0 / 900 0%
20 20:46:45 : 0 / 2250000 0 / 900 0%
19 20:31:45 : 0 / 2250000 0 / 900 0%
18 20:16:45 : 0 / 2250060 0 / 900 0%
17 20:01:45 : 0 / 2250000 0 / 900 0%
16 19:46:45 : 0 / 2250000 0 / 900 0%
15 19:31:45 : 0 / 2250000 0 / 900 0%
14 19:16:45 : 0 / 2250000 0 / 900 0%
13 19:01:45 : 0 / 2250000 0 / 900 0%
12 18:46:45 : 0 / 2250090 0 / 900 0%
11 18:31:45 : 0 / 2250000 0 / 900 0%
10 18:16:45 : 0 / 2250000 0 / 900 0%
9 18:01:45 : 0 / 2250000 0 / 900 0%
8 17:46:45 : 0 / 2250000 0 / 900 0%
7 17:31:45 : 0 / 2250000 0 / 900 0%
6 17:16:45 : 0 / 2250000 0 / 900 0%
5 17:01:45 : 0 / 2250000 0 / 900 0%
4 16:46:45 : 0 / 2250000 0 / 900 0%
3 16:31:45 : 0 / 2250000 0 / 900 0%
2 16:16:45 : 0 / 2250000 0 / 900 0%
1 16:01:45 : 0 / 2250000 0 / 900 0%
96 15:46:45 : 0 / 2250000 0 / 900 0%
95 15:31:45 : 0 / 2250000 0 / 900 0%
94 15:16:45 : 0 / 2250000 0 / 900 0%
93 15:01:45 : 0 / 2250000 0 / 900 0%
92 14:46:45 : 0 / 2250000 0 / 900 0%
91 14:31:45 : 0 / 2250000 0 / 900 0%
90 14:16:45 : 0 / 2250000 0 / 900 0%
89 14:01:45 : 0 / 2250000 0 / 900 0%
88 13:46:45 : 0 / 2250000 0 / 900 0%
87 13:31:45 : 0 / 2250000 0 / 900 0%
86 13:16:45 : 0 / 2250000 0 / 900 0%
85 13:01:45 : 0 / 2250000 0 / 900 0%
84 12:46:45 : 0 / 2250000 0 / 900 0%
83 12:31:45 : 0 / 2250100 0 / 900 0%
82 12:16:45 : 0 / 2250000 0 / 900 0%
81 12:01:45 : 0 / 2250000 0 / 900 0%
80 11:46:45 : 0 / 2250030 0 / 900 0%
79 11:31:45 : 0 / 2250000 0 / 900 0%
78 11:16:45 : 0 / 2250010 0 / 900 0%
77 11:01:45 : 0 / 2250000 0 / 900 0%
76 10:46:45 : 0 / 2250000 0 / 900 0%
75 10:31:45 : 0 / 2250000 0 / 900 0%
74 10:16:45 : 0 / 2250000 0 / 900 0%
73 10:01:45 : 0 / 2250000 0 / 900 0%
72 09:46:45 : 0 / 2250070 0 / 900 0%
71 09:31:45 : 0 / 2250000 0 / 900 0%
70 09:16:45 : 0 / 2250000 0 / 900 0%
69 09:01:45 : 0 / 2250000 0 / 900 0%
68 08:46:45 : 0 / 2250000 0 / 900 0%
67 08:31:45 : 0 / 2250000 0 / 900 0%
Related Commands
show rpr-ieee fairness
show rpr-ieee protection
Use this command to display the protection state of the local station, along with brief overview of the station's neighbors, timer configuration, and self-detected failures that might contribute to the current state.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
Use this command to show the current protection status on the ring.
In this command, protection can be shortened to prot.
Examples
router# show rpr-ieee protection
Protection Information for Interface RPR-IEEE0
MAC Addresses
West Span (Ringlet 0 RX) neighbor 000b.fcff.9d34
East Span (Ringlet 1 RX) neighbor 0013.1991.1fc0
Station MAC address 0005.9a3c.59c0
TP frame sending timers:
fast timer: 10 msec
slow timer: 1x100 msec (100 msec)
Protection holdoff timers:
L1 Holdoff Keepalive Detection
West Span 0x10 msec ( 0 msec) West Span 5 msec
East Span 0x10 msec ( 0 msec) East Span 5 msec
Configured protection mode: STEERING
Protection Status
Ring is IDLE
Protection WTR period is 10 sec. (timer is inactive)
Self Detected Requests Remote Requests
West Span IDLE West Span IDLE
East Span IDLE East Span IDLE
Distant Requests
East Span IDLE West Span IDLE
West Span Failures: none
East Span Failures: none
Related Commands
None
show rpr-ieee rate detail
Use this command to display the configured rate limits for each service class of traffic.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
Use this command to show the configured rates for Class A1, B-EIR, B-CIR, and reserved traffic.
Examples
router# show rpr-ieee rate detail
Rate Limit Information for Interface RPR-IEEE0
West Span:
Reserved Bandwidth (Class A0): 0 Mbps
Rate Limiter High (Class A1): 20 Mbps
Rate Limiter Medium (Class B-CIR): 10 Mbps
Rate Limiter Low (Class B-EIR, C): full
East Span:
Reserved Bandwidth (Class A0): 0 Mbps
Rate Limiter High (Class A1): 20 Mbps
Rate Limiter Medium (Class B-CIR): 10 Mbps
Rate Limiter Low (Class B-EIR, C): full
Service Type: Relaxed
Idle Shaper is Enabled
Transmit at 500 packets per million when PTQ vacancy above 18432 bytes
Transmit at 250 packets per million when PTQ vacancy below 18432 bytes
Related Commands
None
show rpr-ieee topology detail
Use this command to display topology information gathered by the station from the protection and ATD messages received on either span of an IEEE 802.17b based RPR ring.
Syntax Description
This command has no arguments or keywords.
Defaults
N/A
Command Modes
Privileged exec
Usage Guidelines
Use this command to obtain an extremely detailed status of the ring, including details about each station's configuration.
Examples
router# show rpr-ieee topology detail
802.17 Topology Display
RX ringlet0->West span RX ringlet1->East span
Number of nodes on
ringlet0: 5 ringlet1: 5
=======================================================================
Local Station Topology Info
=======================================================================
Topology entry:
Station MAC address: 0005.9a3c.59c0
West Span (Outer ringlet RX) neighbor 000b.fcff.9d34
East Span (Inner ringlet RX) neighbor 0013.1991.1fc0
Ring Topology: CLOSED (STABLE)
Containment Active: NO
A0 class reserved rate:
ringlet0: 0 (mbps) ringlet1: 0 (mbps)
Ringlet reserved rate:
ringlet0: 0 (mbps) ringlet1: 0 (mbps)
Ringlet unreserved rate:
ringlet0: 96 (mbps) ringlet1: 96 (mbps)
Ringlet effective unreserved rate:
ringlet0: 95.9 (mbps) ringlet1: 95.9 (mbps)
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Configured protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't support JUMBOS)
Is revertive: YES
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
ATD timer: 1 sec
Station Name: ML100T-481
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
=======================================================================
Topology Map for Outer ringlet
=======================================================================
=======================================================================
Topology entry at Index 1 on ringlet 0:
Station MAC address: 000b.fcff.9d34
Valid on ringlet0: YES
Entry reachable: YES
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Preferred protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't supports JUMBOS)
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
Station Name: ML100X-491
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
=======================================================================
Topology entry at Index 2 on ringlet 0:
Station MAC address: 0011.2130.b568
Valid on ringlet0: YES
Entry reachable: YES
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Preferred protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't supports JUMBOS)
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
Station Name: ML1000-491
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
=======================================================================
Topology entry at Index 3 on ringlet 0:
Station MAC address: 0005.9a39.7630
Valid on ringlet0: YES
Entry reachable: YES
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Preferred protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't supports JUMBOS)
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
Station Name: ML1000-492
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
=======================================================================
Topology entry at Index 4 on ringlet 0:
Station MAC address: 0013.1991.1fc0
Valid on ringlet0: YES
Entry reachable: YES
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Preferred protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't supports JUMBOS)
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
Station Name: ML100T-482
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
=======================================================================
Topology entry at Index 5 on ringlet 0:
Station MAC address: 0005.9a3c.59c0
Valid on ringlet0: YES
Entry reachable: YES
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Preferred protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't supports JUMBOS)
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
Station Name: ML100T-481
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
=======================================================================
Topology Map for Inner ringlet
=======================================================================
=======================================================================
Topology entry at Index 1 on ringlet 1:
Station MAC address: 0013.1991.1fc0
Valid on ringlet1: YES
Entry reachable: YES
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Preferred protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't supports JUMBOS)
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
Station Name: ML100T-482
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
=======================================================================
Topology entry at Index 2 on ringlet 1:
Station MAC address: 0005.9a39.7630
Valid on ringlet1: YES
Entry reachable: YES
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Preferred protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't supports JUMBOS)
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
Station Name: ML1000-492
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
=======================================================================
Topology entry at Index 3 on ringlet 1:
Station MAC address: 0011.2130.b568
Valid on ringlet1: YES
Entry reachable: YES
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Preferred protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't supports JUMBOS)
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
Station Name: ML1000-491
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
=======================================================================
Topology entry at Index 4 on ringlet 1:
Station MAC address: 000b.fcff.9d34
Valid on ringlet1: YES
Entry reachable: YES
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Preferred protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't supports JUMBOS)
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
Station Name: ML100X-491
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
=======================================================================
Topology entry at Index 5 on ringlet 1:
Station MAC address: 0005.9a3c.59c0
Valid on ringlet1: YES
Entry reachable: YES
Advertised Protection requests:
ringlet0: IDLE ringlet1: IDLE
Active Edges:
ringlet0: NO ringlet1: NO
Preferred protection mode: STEERING
Jumbo preference: NOT SET (ring doesn't supports JUMBOS)
Measured LRTT: 0
Sequence Number: 3
ATD INFO:
Station Name: ML100T-481
A0 reserved Bandwidth:
ringlet0: 0 mbps ringlet1: 0 mbps
SAS enabled: YES
Weight:
ringlet0: 1 ringlet1: 1
Secondary Mac Addresses:
MAC 1: 0000.0000.0000 (UNUSED)
MAC 2: 0000.0000.0000 (UNUSED)
Related Commands
None
[no] shutdown
Use this command to place a POS or IEEE 802.17b based RPR interface in pass-through mode. This command has no arguments or keywords. Use the no form of this command to reverse the shutdown.
Defaults
The default is not shut down.
Command Modes
POS or IEEE 802.17b based RPR interface configuration
Usage Guidelines
For GFP and high-level data link control (HDLC) modes, the POS shutdown causes a path alarm indication signal (AIS-P) to be sent to the peer. In RPR-IEEE mode, AIS-P is not inserted toward the peer.
In this command, shutdown can be shortened to shut.
Examples
In this example, interface is shortened to int.
Router(config)# int pos 0
Router(config-if)# shut
Related Commands
None
spr-intf-id shared-packet-ring-number
Use this command to assign the POS interface to the SPR interface.
Syntax Description
|
|
shared-packet-ring-number |
The only valid shared-packet-ring-number (SPR number) is 1. |
Defaults
N/A
Command Modes
POS interface configuration
Usage Guidelines
•The SPR number must be 1, which is the same SPR number assigned to the SPR interface.
•The members of the SPR interface must be POS interfaces.
•An SPR interface is configured similarly to a EtherChannel (port-channel) interface. Instead of using the channel-group command to define the members, you use the spr-intf-ID command. Like port-channel, you then configure the SPR interfaces instead of the POS interface.
Note A similar command, the spr drpri-id [0 | 1] command, is not supported in R7.2.
Examples
In this example, interface is shortened to int. An ML-Series card POS interface is being assigned to an SPR interface with a shared-packet-ring-number of 1:
Router(config)# interface pos 0
Router(config-if)# spr-intf-id 1
Related Commands
interface spr 1
spr station-id
spr wrap
[no] spr load-balance {auto | port-based}
Use this command to specify the Cisco proprietary RPR load-balancing scheme for unicast packets.
Syntax Description
Defaults
The default setting is auto.
Command Modes
SPR interface configuration
Examples
The following example configures an SPR interface to use port-based load balancing:
Router(config)# interface spr 1
Router(config-if)# spr load-balance port-based
Related Commands
interface spr 1
spr station-id station-id-number
Use this command to configure a station ID.
Syntax Description
|
|
station-id-number |
The user must configure a different number for each SPR interface that attaches to the Cisco proprietary RPR. Valid station ID numbers range from 1 to 254. |
Defaults
N/A
Command Modes
SPR interface configuration
Usage Guidelines
The different ML-Series cards attached to the RPR all have the same interface type and number, spr1. The station ID helps to differentiate the SPR interfaces.
Examples
The following example sets an ML-Series card SPR station ID to 100:
Router(config)# interface spr 1
Router(config-if)# spr station-id 100
Related Commands
interface spr 1
spr-intf-id
spr wrap
spr wrap {immediate | delayed}
Use this command to set the Cisco proprietary RPR wrap mode to either wrap traffic the instant it detects a link state change or to wrap traffic after the carrier delay, which gives the SONET protection time to register the defect and declare the link down.
Syntax Description
|
|
---|---|
immediate |
Wraps Cisco proprietary RPR traffic the instant it detects a link state change. |
delayed |
Wraps Cisco proprietary RPR traffic after the carrier delay time expires. |
Defaults
The default setting is immediate.
Command Modes
SPR interface configuration
Usage Guidelines
Immediate should be used if Cisco proprietary RPR is running over unprotected SONET/SDH circuits. Delayed should be run for SONET protected circuits, such as BLSR or path protection, or SDH protected circuits, such as subnetwork connection protection (SNCP) or multiplex section-shared protection ring (MS-SPRing).
Examples
The following example sets an ML-Series card to delayed:
Router(config)# interface spr 1
Router(config-if)# spr wrap delayed
Related Commands
interface spr 1
spr-intf-id
spr station-id
[no] xconnect [destination] [vc-id] [encapsulation mpls]
Use this command at customer-edge (CE) or service provider-edge customer-located equipment (PE-CLE) ingress and egress Ethernet ports, or at dot1Q VLAN subinterfaces with a destination and virtual connection identifier (VC ID) to route Layer 2 packets over a specified point-to-point VC by using Ethernet over multiprotocol label switching (EoMPLS). Use the no form of this command on both edge devices to delete the VC.
Note This command replaces the mpls l2transport route command.
Syntax Description
Note Though visible in the command-line help strings, the pw-class keyword is not supported.
Defaults
No point-to-point connections are configured by default.
Command Modes
Interface configuration
Usage Guidelines
An MPLS VC runs across an MPLS cloud to connect Ethernet interfaces on two PE-CLE devices at each edge of the service provider network. You must enter the command at the PE device at each edge of the service provider network to establish a bidirectional virtual connection, which consists of two unidirectional label-switched paths (LSPs). A VC is not established if it is not properly defined from both ends.
For the destination parameter, specify the LDP IP address of the other PE-CLE device; do not specify the IP address of the device on which you are entering the command.
The vc-id must be unique for each pair of provider edge devices. Therefore, in large networks, you should keep track of the VC ID assignments to ensure that a VC ID is not assigned more than once.
Examples
This example shows how to establish an EoMPLS tunnel between the PE1 VLAN 3 interfaces and the PE2 VLAN 4 interface. PE1 has IP address 10.0.0.1/32 that PE2 discovers through routing and PE2 has IP address 20.0.0.1/32 that PE1 discovers through routing.
At the PE1 interface:
Switch(config)# interface vlan 3
Switch(config-if)# xconnect 20.0.0.1 123 encapsulation mpls
At the PE2 interface:
Switch(config)# interface vlan 4
Switch(config-if)# xconnect 10.0.0.1 123 encapsulation mpls
Related Commands
show mpls l2transport route