Cisco IOS XR Modular Quality of Service Configuration Guide for the Cisco CRS Router, Release 4.3.x
Configuring Modular QoS Congestion Avoidance
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Configuring Modular QoS Congestion Avoidance

Configuring Modular QoS Congestion Avoidance

Congestion avoidance techniques monitor traffic flow in an effort to anticipate and avoid congestion at common network bottlenecks. Avoidance techniques are implemented before congestion occurs as compared with congestion management techniques that control congestion after it has occurred.

Congestion avoidance is achieved through packet dropping. Cisco IOS XR software supports the following quality of service (QoS) congestion avoidance techniques that drop packets:

  • Random early detection (RED )
  • Weighted random early detection (WRED)
  • Tail drop

The module describes the concepts and tasks related to these congestion avoidance techniques.

Feature History for Configuring Modular QoS Congestion Avoidance on Cisco IOS XR Software

Release

Modification

Release 2.0

The Congestion Avoidance feature was introduced.

Release 3.6.0

The default queue limit and WRED thresholds was based on the guaranteed service rate of the queue.

Release 3.9.0

Removed the restriction about configuring either the shape average, bandwidth, or bandwidth remaining percent commands in the user defined policy map class for the random-detect command to take effect (CSCsl69571).

Release 4.0.0

In calculations for the average queue size, indicated that the exponential weight factor is not configurable (CSCeg75763).

Prerequisites for Configuring Modular QoS Congestion Avoidance

The following prerequisite is required for configuring QoS congestion avoidance on your network:

You must be in a user group associated with a task group that includes the proper task IDs. The command reference guides include the task IDs required for each command. If you suspect user group assignment is preventing you from using a command, contact your AAA administrator for assistance.

Information About Configuring Modular QoS Congestion Avoidance

To configure QoS congestion avoidance techniques in this document you must understand the following concepts:

Random Early Detection and TCP

The RED congestion avoidance technique takes advantage of the congestion control mechanism of TCP. By randomly dropping packets prior to periods of high congestion, RED tells the packet source to decrease its transmission rate. Assuming the packet source is using TCP, it decreases its transmission rate until all packets reach their destination, indicating that the congestion is cleared. You can use RED as a way to cause TCP to slow transmission of packets. TCP not only pauses, but it also restarts quickly and adapts its transmission rate to the rate that the network can support.

RED distributes losses in time and maintains normally low queue depth while absorbing traffic bursts. When enabled on an interface, RED begins dropping packets when congestion occurs at a rate you select during configuration.

Average Queue Size for WRED

The router automatically determines the parameters to use in the WRED calculations. The average queue size is based on the previous average and current size of the queue. The formula is:

average = (old_average * (1-2 -x)) + (current_queue_size * 2 -x)

where x is the exponential weight factor.

For high values of x, the previous average becomes more important. A large factor smooths out the peaks and lows in queue length. The average queue size is unlikely to change very quickly, avoiding a drastic change in size. The WRED process is slow to start dropping packets, but it may continue dropping packets for a time after the actual queue size has fallen below the minimum threshold. The slow-moving average accommodates temporary bursts in traffic.


Note


The exponential weight factor, x, is fixed and is not user configurable.



Note


If the value of x gets too high, WRED does not react to congestion. Packets are sent or dropped as if WRED were not in effect.


For low values of x, the average queue size closely tracks the current queue size. The resulting average may fluctuate with changes in the traffic levels. In this case, the WRED process responds quickly to long queues. Once the queue falls below the minimum threshold, the process stops dropping packets.

If the value of x gets too low, WRED overreacts to temporary traffic bursts and drops traffic unnecessarily.

Tail Drop and the FIFO Queue

Tail drop is a congestion avoidance technique that drops packets when an output queue is full until congestion is eliminated. Tail drop treats all traffic flow equally and does not differentiate between classes of service. It manages the packets that are unclassified, placed into a first-in, first-out (FIFO) queue, and forwarded at a rate determined by the available underlying link bandwidth.

See the “Default Traffic Class” section of the “Configuring Modular Quality of Service Packet Classification on Cisco IOS XR Software” module.

Random Detect and Clear Channel ATM SPAs

On Clear Channel ATM SPAs, random detect uses 1024 hardware profiles in the SPA. The profiles maintain configuration details about the thresholds, so that they can be shared across multiple random-detect statements in the same class with matching threshold values (and units). The SPA maintains WRED and tail drop statistics for each threshold in a class.

Configuring Random Early Detection

This configuration task is similar to that used for WRED except that the random-detect precedence command is not configured and the random-detect command with the default keyword must be used to enable RED.

SUMMARY STEPS

    1.    configure

    2.    policy-map policy-map-name

    3.    class class-name

    4.    random-detect { cos value | default | discard-class value | dscp value | exp value | precedence value | min-threshold [ units] max-threshold [ units] }

    5.    bandwidth { bandwidth [ units] | percent value} or bandwidth remaining [ percent value | ratio ratio-value

    6.    shape average { percent percentage | value [ units]}

    7.    exit

    8.    exit

    9.    interface type interface-path-id

    10.    service-policy { input | output} policy-map

    11.    Use one of these commands:

    • end
    • commit


DETAILED STEPS
      Command or Action Purpose
    Step 1 configure


    Example:
    RP/0/RP0/CPU0:router# configure
     

    Enters global configuration mode.

     
    Step 2 policy-map policy-map-name


    Example:
    
                 
                 
    RP/0/RP0/CPU0:router(config)# policy-map policy1
    
     

    Enters policy map configuration mode.

    • Creates or modifies a policy map that can be attached to one or more interfaces to specify a service policy.
     
    Step 3 class class-name


    Example:
    
                 
                 
    RP/0/RP0/CPU0:router(config-pmap)# class class1
    
     

    Enters policy map class configuration mode.

    • Specifies the name of the class whose policy you want to create or change.
     
    Step 4 random-detect { cos value | default | discard-class value | dscp value | exp value | precedence value | min-threshold [ units] max-threshold [ units] }


    Example:
    
                 
                 
    RP/0/RP0/CPU0:router(config-pmap-c)# random-detect default
    
     

    Enables RED with default minimum and maximum thresholds.

     
    Step 5 bandwidth { bandwidth [ units] | percent value} or bandwidth remaining [ percent value | ratio ratio-value

    Example:
    
                 
                 
    RP/0/RP0/CPU0:router(config-pmap-c)# bandwidth percent 30
    

    or

    
                 
                 
    RP/0/RP0/CPU0:router(config-pmap-c)# bandwidth remaining percent 20
    
     

    (Optional) Specifies the bandwidth allocated for a class belonging to a policy map.

    or

    (Optional) Specifies how to allocate leftover bandwidth to various classes.

    Note   
    • One of these configurations is required for a non-default class.
     
    Step 6 shape average { percent percentage | value [ units]}


    Example:
    
                 
                 
    RP/0/RP0/CPU0:router(config-pmap-c)# shape average percent 50
    
     

    (Optional) Shapes traffic to the specified bit rate or a percentage of the available bandwidth.

     
    Step 7 exit


    Example:
    
                 
                 
    RP/0/RP0/CPU0:router(config-pmap-c)# exit
    
     

    Returns the router to policy map configuration mode.

     
    Step 8 exit


    Example:
    
                 
                 
    RP/0/RP0/CPU0:router(config-pmap)# exit
    
     

    Returns the router to global configuration mode.

     
    Step 9 interface type interface-path-id


    Example:
    
                 
                 
    RP/0/RP0/CPU0:router(config)# interface TenGigE 0/2/0/0
    
     

    Enters configuration mode and configures an interface.

     
    Step 10 service-policy { input | output} policy-map


    Example:
    
                 
                 
    RP/0/RP0/CPU0:router(config-if)# service-policy output policy1
    
     

    Attaches a policy map to an input or output interface to be used as the service policy for that interface.

    • In this example, the traffic policy evaluates all traffic leaving that interface.
     
    Step 11 Use one of these commands:
    • end
    • commit


    Example:
    RP/0/RP0/CPU0:router(config-if)# end

    or

    RP/0/RP0/CPU0:router(config-if)# commit
     

    Saves configuration changes.

    • When you issue the end command, the system prompts you to commit changes:
      Uncommitted changes found, commit them
      before exiting(yes/no/cancel)? [cancel]:
      
      • Entering yes saves configuration changes to the running configuration file, exits the configuration session, and returns the router to EXEC mode.
      • Entering no exits the configuration session and returns the router to EXEC mode without committing the configuration changes.
      • Entering cancel leaves the router in the current configuration session without exiting or committing the configuration changes.
    • Use the commit command to save the configuration changes to the running configuration file, and remain within the configuration session.
     

    Configuring Random Early Detection

    SUMMARY STEPS

      1.    configure

      2.    policy-map policy-name

      3.    class class-name

      4.    random-detect { cos value | default | discard-class value | dscp value | exp value | precedence value | min-threshold [ units] max-threshold [ units] }

      5.    random-detect { discard-class value | dscp value | exp value | precedence value | min-threshold [ units] max-threshold [ units] }

      6.    bandwidth { bandwidth [ units] | percent value}

      7.    bandwidth remaining percent value

      8.    shape average { percent percentage | value [ units]}

      9.    exit

      10.    exit

      11.    interface type interface-path-id

      12.    end or commit


    DETAILED STEPS
        Command or Action Purpose
      Step 1 configure


      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router# configure
      
       

      Enters global configuration mode.

       
      Step 2 policy-map policy-name


      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config)# policy-map policy1
      
       

      Enters policy map configuration mode.

      • Creates or modifies a policy map that can be attached to one or more interfaces to specify a service policy.
       
      Step 3 class class-name


      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config-pmap)# class class1
      
       

      Enters policy map class configuration mode.

      • Specifies the name of the class whose policy you want to create or change.
       
      Step 4 random-detect { cos value | default | discard-class value | dscp value | exp value | precedence value | min-threshold [ units] max-threshold [ units] }


      Example:
      
                    
                    
      RP/0/RP0/CPU0:router(config-pmap-c)# random-detect default
      
       

      Enables RED with minimum and maximum thresholds.

       
      Step 5 random-detect { discard-class value | dscp value | exp value | precedence value | min-threshold [ units] max-threshold [ units] }


      Example:
      
                    
                    
      RP/0/0/CPU0:router(config-pmap-c)# random-detect 1000000 2000000
      
       

      Enables RED with default minimum and maximum thresholds.

       
      Step 6 bandwidth { bandwidth [ units] | percent value}


      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config-pmap-c)# bandwidth percent 30
      
       

      (Optional) Specifies the bandwidth allocated for a class belonging to a policy map.

       
      Step 7 bandwidth remaining percent value


      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config-pmap-c)# bandwidth remaining percent 20
      
       

      (Optional) Specifies how to allocate leftover bandwidth to various classes.

       
      Step 8 shape average { percent percentage | value [ units]}


      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config-pmap-c)# shape average percent 50
      
       

      (Optional) Shapes traffic to the specified bit rate or a percentage of the available bandwidth.

       
      Step 9 exit


      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config-pmap-c)# exit
      
       

      Returns the router to policy map configuration mode.

       
      Step 10 exit


      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config-pmap)# exit
      
       

      Returns the router to global configuration mode.

       
      Step 11 interface type interface-path-id


      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config)# interface pos 0/2/0/0
      


      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config-if)# service-policy output policy1
      
       

      Enters configuration mode and configures an interface.

      service-policy { input | output} policy-map

      Attaches a policy map to an input or output interface to be used as the service policy for that interface.

      • In this example, the traffic policy evaluates all traffic leaving that interface.
       
      Step 12 end or commit

      Example:
      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config-cmap)# end
      

      or

      
                    
                    
      RP/0/ 
                     RP0/CPU0:router(config-cmap)# commit
      
       

      Saves configuration changes.

      • When you issue the end command, the system prompts you to commit changes: Uncommitted changes found, commit them before exiting(yes/no/cancel)?
[cancel]: Entering yes saves configuration changes to the running configuration file, exits the configuration session, and returns the router to EXEC mode. Entering no exits the configuration session and returns the router to EXEC mode without committing the configuration changes. Entering cancel leaves the router in the current configuration session without exiting or committing the configuration changes.
      • Use the commit command to save the configuration changes to the running configuration file and remain within the configuration session.
       

      Configuring Weighted Random Early Detection

      WRED drops packets selectively based on IP precedence. Edge routers assign IP precedences to packets as they enter the network. WRED uses these precedences to determine how to treat different types of traffic.

      When a packet arrives, the following actions occur:

      • The average queue size is calculated.
      • If the average queue size is less than the minimum queue threshold, the arriving packet is queued.
      • If the average queue size is between the minimum queue threshold for that type of traffic and the maximum threshold for the interface, the packet is either dropped or queued, depending on the packet drop probability for that type of traffic.
      • If the average queue size is greater than the maximum threshold, the packet is dropped.

      Restrictions

      You cannot configure WRED in a class that has been set for priority queueing (PQ).

      You cannot use the random-detect command in a class configured with the priority command.

      SUMMARY STEPS

        1.    configure

        2.    policy-map policy-name

        3.    class class-name

        4.    random-detect dscp dscp-value min-threshold [ units] max-threshold [ units]

        5.    bandwidth { bandwidth [ units] | percent value} or bandwidth remaining [ percent value | ratio ratio-value ]

        6.    bandwidth { bandwidth [ units] | percent value}

        7.    bandwidth remaining percent value

        8.    shape average { percent percentage | value [ units]}

        9.    queue-limit value [ units] RP/0/RSP0/CPU0:router(config-pmap-c)# queue-limit 50 ms

        10.    exit

        11.    interface type inteface-path-id

        12.    service-policy { input | output} policy-map

        13.    end or commit


      DETAILED STEPS
          Command or Action Purpose
        Step 1 configure


        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router# configure
        
         

        Enters global configuration mode.

         
        Step 2 policy-map policy-name


        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config)# policy-map policy1
        
         

        Enters policy map configuration mode.

        • Creates or modifies a policy map that can be attached to one or more interfaces to specify a service policy.
         
        Step 3 class class-name


        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config-pmap)# class class1
        
         

        Enters policy map class configuration mode.

        • Specifies the name of the class whose policy you want to create or change.
         
        Step 4 random-detect dscp dscp-value min-threshold [ units] max-threshold [ units]


        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config-pmap-c)# random-detect dscp af11 1000000 bytes 2000000 bytes
        
         

        Changes the minimum and maximum packet thresholds for the DSCP value.

        • Enables RED.
        • dscp-value—Number from 0 to 63 that sets the DSCP value. Reserved keywords can be specified instead of numeric values.
        • min-threshold—Minimum threshold in the specified units. The value range of this argument is from 512 to 1073741823. When the average queue length reaches the minimum threshold, WRED randomly drops some packets with the specified DSCP value.
        • max-threshold—Maximum threshold in the specified units. The value range of this argument is from the value of the min-threshold argument to 1073741823. When the average queue length exceeds the maximum threshold, WRED drops all packets with the specified DSCP value.
        • units—Units of the threshold value. This can be bytes, gbytes, kbytes, mbytes, ms (milliseconds), packets, or us (microseconds). The default is packets.
        • This example shows that for packets with DSCP AF11, the WRED minimum threshold is 1,000,000 bytes and maximum threshold is 2,000,000 bytes.
         
        Step 5 bandwidth { bandwidth [ units] | percent value} or bandwidth remaining [ percent value | ratio ratio-value ]

        Example:
        
                     
                     
        RP/0/RSP0/CPU0:router(config-pmap-c)# bandwidth percent 30
        

        or

        
                     
                     
        RP/0//CPU0:router(config-pmap-c)# bandwidth remaining percent 20
        
         

        (Optional) Specifies the bandwidth allocated for a class belonging to a policy map.

        or

        (Optional) Specifies how to allocate leftover bandwidth to various classes.

        Note   
        • One of these configurations is required for a non-default class.
         
        Step 6 bandwidth { bandwidth [ units] | percent value}


        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config-pmap-c)# bandwidth percent 30
        
         

        (Optional) Specifies the bandwidth allocated for a class belonging to a policy map.

        • This example guarantees 30 percent of the interface bandwidth to class class1.
         
        Step 7 bandwidth remaining percent value


        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config-pmap-c)# bandwidth remaining percent 20
        
         

        (Optional) Specifies how to allocate leftover bandwidth to various classes.

        • The remaining bandwidth of 70 percent is shared by all configured classes.
        • In this example, class class1 receives 20 percent of the 70 percent.
         
        Step 8 shape average { percent percentage | value [ units]}


        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config-pmap-c)# shape average percent 50
        
         

        (Optional) Shapes traffic to the specified bit rate or a percentage of the available bandwidth.

         
        Step 9 queue-limit value [ units] RP/0/RSP0/CPU0:router(config-pmap-c)# queue-limit 50 ms 

        (Optional) Changes queue-limit to fine-tune the amount of buffers available for each queue. The default queue-limit is 100 ms of the service rate for a given queue class.

         
        Step 10 exit


        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config-pmap)# exit
        
         

        Returns the router to global configuration mode.

         
        Step 11 interface type inteface-path-id


        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config)# interface  
                      pos 0/2/0/0
        
         

        Enters configuration mode and configures an interface.

         
        Step 12 service-policy { input | output} policy-map


        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config-if)# service-policy output policy1
        
         

        Attaches a policy map to an input or output interface to be used as the service policy for that interface.

        • In this example, the traffic policy evaluates all traffic leaving that interface.
        • Ingress policies are not valid; the bandwidth and bandwidth remaining commands cannot be applied to ingress policies.
         
        Step 13 end or commit

        Example:
        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config-cmap)# end
        

        or

        
                     
                     
        RP/0/ 
                      RP0/CPU0:router(config-cmap)# commit
        
         

        Saves configuration changes.

        • When you issue the end command, the system prompts you to commit changes: Uncommitted changes found, commit them before exiting(yes/no/cancel)?
[cancel]: Entering yes saves configuration changes to the running configuration file, exits the configuration session, and returns the router to EXEC mode. Entering no exits the configuration session and returns the router to EXEC mode without committing the configuration changes. Entering cancel leaves the router in the current configuration session without exiting or committing the configuration changes.
        • Use the commit command to save the configuration changes to the running configuration file and remain within the configuration session.
         

        Configuring Tail Drop

        Packets satisfying the match criteria for a class accumulate in the queue reserved for the class until they are serviced. The queue-limit command is used to define the maximum threshold for a class. When the maximum threshold is reached, enqueued packets to the class queue result in tail drop (packet drop).

        The queue-limit value uses the guaranteed service rate (GSR) of the queue as the reference value for the queue_bandwidth. If the class has bandwidth percent associated with it, the queue-limit is set to a proportion of the bandwidth reserved for that class.

        If the GSR for a queue is zero, use the following to compute the default queue-limit:

        • 1 percent of the interface bandwidth for queues in a nonhierarchical policy.
        • 1 percent of minimum parent shape and interface rate for queues within a hierarchical policy.

        default queue limit (in packets) = (200 ms * (queue bandwidth or shaper rate) / 8) / average packet size, which is 250 bytes

        The default queue-limit is set as follows:

        default queue limit (in bytes) = (<200|100|10> ms * queue_bandwidth kbps) / 8


        Note


        You can configure tail drop in more than one priority class. Also, you can configure the queue limit in all the priority classes. From Release 3.8.0 on, the highest queue-limit (among all the high-priority classes) is programmed in the high priority queue.


        Restrictions

        • When configuring the queue-limit command in a class, you must configure one of the following commands: priority, shape average, bandwidth, or bandwidth remaining, except for the default class.
        • On the Cisco CRS Series Modular Services Card 140G (CRS-MSC-140G), a police action must be configured in the same class as the priority action. A class configuration that includes a priority action but no police action is not valid. Such a configuration is rejected.
        SUMMARY STEPS

          1.    configure

          2.    policy-map policy-name

          3.    class class-name

          4.    queue-limit value [ units]

          5.    class class-name

          6.    bandwidth { bandwidth [ units] | percent value}

          7.    bandwidth remaining percent value

          8.    exit

          9.    exit

          10.    interface type interface-path-id

          11.    service-policy { input | output} policy-map

          12.    Use the commit or end command.


        DETAILED STEPS
            Command or Action Purpose
          Step 1 configure


          Example:
          RP/0/RP0/CPU0:router# configure
           

          Enters global configuration mode.

           
          Step 2 policy-map policy-name


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config)# policy-map policy1
          
           

          Enters policy map configuration mode.

          • Creates or modifies a policy map that can be attached to one or more interfaces to specify a service policy.
           
          Step 3 class class-name


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config-pmap)# class class1
          
           

          Enters policy map class configuration mode.

          • Specifies the name of the class whose policy you want to create or change.
           
          Step 4 queue-limit value [ units]


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config-pmap-c)# queue-limit 1000000 bytes
          


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config-pmap-c)# priority level 1
          


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config-pmap-c)# police rate percent 30
          
           

          Specifies or modifies the maximum the queue can hold for a class policy configured in a policy map. The default value of the units argument is packets.

          • In this example, when the queue limit reaches 1,000,000 bytes, enqueued packets to the class queue are dropped. priority [ level priority-level ]

          Specifies priority to a class of traffic belonging to a policy map.

          police rate percent percentage

          Configures traffic policing.

           
          Step 5 class class-name


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config-pmap)# class class2
          
           

          Specifies the name of the class whose policy you want to create or change.

          • In this example, class2 is configured.
           
          Step 6 bandwidth { bandwidth [ units] | percent value}


          Example:
          
                       
                       
          RP/0//CPU0:router(config-pmap-c)# bandwidth percent 30
          
           

          (Optional) Specifies the bandwidth allocated for a class belonging to a policy map.

          • This example guarantees 30 percent of the interface bandwidth to class class2.
           
          Step 7 bandwidth remaining percent value


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config-pmap-c)# bandwidth remaining percent 20
          
           

          (Optional) Specifies how to allocate leftover bandwidth to various classes.

          • This example allocates 20 percent of the leftover interface bandwidth to class class2.
           
          Step 8 exit


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config-pmap-c)# exit
          
           

          Returns the router to policy map configuration mode.

           
          Step 9 exit


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config-pmap)# exit
          
           

          Returns the router to global configuration mode.

           
          Step 10 interface type interface-path-id


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config)# interface pos 0/2/0/0
          
           

          Enters configuration mode, and configures an interface.

           
          Step 11 service-policy { input | output} policy-map


          Example:
          
                       
                       
          RP/0/ 
                        RP0/CPU0:router(config-if)# service-policy output policy1
          
           

          Attaches a policy map to an input or output interface to be used as the service policy for that interface.

          • In this example, the traffic policy evaluates all traffic leaving that interface.
           
          Step 12 Use the commit or end command. 

          commit—Saves the configuration changes, and remains within the configuration session.

          end—Prompts to take one of these actions:
          • Yes— Saves configuration changes and exits the configuration session.
          • No—Exits the configuration session without committing the configuration changes.
          • Cancel—Remains in the configuration mode, without committing the configuration changes.
           

          Additional References

          The following sections provide references related to implementing QoS congestion avoidance.

          Related Documents

          Related Topic

          Document Title

          Initial system bootup and configuration

          Cisco IOS XR Getting Started Guide for the Cisco CRS Router

          Master command reference

          Cisco CRS Router Master Command Listing

          QoS commands

          Cisco IOS XR Modular Quality of Service Command Reference for the Cisco CRS Router

          User groups and task IDs

          “Configuring AAA Services on Cisco IOS XR Software” module of Cisco IOS XR System Security Configuration Guide

          Standards

          Standards

          Title

          No new or modified standards are supported by this feature, and support for existing standards has not been modified by this feature.

          MIBs

          MIBs

          MIBs Link

          To locate and download MIBs using Cisco IOS XR software, use the Cisco MIB Locator found at the following URL and choose a platform under the Cisco Access Products menu: http:/​/​cisco.com/​public/​sw-center/​netmgmt/​cmtk/​mibs.shtml

          RFCs

          RFCs

          Title

          No new or modified RFCs are supported by this feature, and support for existing RFCs has not been modified by this feature.

          Technical Assistance

          Description

          Link

          The Cisco Technical Support website contains thousands of pages of searchable technical content, including links to products, technologies, solutions, technical tips, and tools. Registered Cisco.com users can log in from this page to access even more content.

          http:/​/​www.cisco.com/​techsupport