IP Routing: OSPF Configuration Guide, Cisco IOS XE Release 3S
OSPFv3 Address Families
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OSPFv3 Address Families

OSPFv3 Address Families

The Open Shortest Path First version 3 (OSPFv3) address families feature enables both IPv4 and IPv6 unicast traffic to be supported. With this feature, users may have two processes per interface, but only one process per address family (AF).

Finding Feature Information

Your software release may not support all the features documented in this module. For the latest caveats and feature information, see Bug Search Tool and the release notes for your platform and software release. To find information about the features documented in this module, and to see a list of the releases in which each feature is supported, see the feature information table at the end of this module.

Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/​go/​cfn. An account on Cisco.com is not required.

Prerequisites for OSPFv3 Address Families

  • To use the IPv4 unicast address families (AF) in OSPFv3, you must enable IPv6 on a link, although the link may not be participating in IPv6 unicast AF.
  • With the OSPFv3 Address Families feature, users may have two processes per interface, but only one process per AF. If the AF is IPv4, an IPv4 address must first be configured on the interface, but IPv6 must be enabled on the interface.

Information About OSPFv3 Address Families

OSPFv3 Address Families

The OSPFv3 address families feature enables both IPv4 and IPv6 unicast traffic to be supported. With this feature, users may have two processes per interface, but only one process per AF. If the IPv4 AF is used, an IPv4 address must first be configured on the interface, but IPv6 must be enabled on the interface. A single IPv4 or IPv6 OSPFv3 process running multiple instances on the same interface is not supported.

Users with an IPv6 network that uses OSPFv3 as its IGP may want to use the same IGP to help carry and install IPv4 routes. All devices on this network have an IPv6 forwarding stack. Some (or all) of the links on this network may be allowed to do IPv4 forwarding and be configured with IPv4 addresses. Pockets of IPv4-only devices exist around the edges running an IPv4 static or dynamic routing protocol. In this scenario, users need the ability to forward IPv4 traffic between these pockets without tunneling overhead, which means that any IPv4 transit device has both IPv4 and IPv6 forwarding stacks (e.g., is dual stack).

This feature allows a separate (possibly incongruent) topology to be constructed for the IPv4 AF. It installs IPv4 routes in IPv4 RIB, and then the forwarding occurs natively. The OSPFv3 process fully supports an IPv4 AF topology and can redistribute routes from and into any other IPv4 routing protocol.

An OSPFv3 process can be configured to be either IPv4 or IPv6. The address-family command is used to determine which AF will run in the OSPFv3 process, and only one address family can be configured per instance. Once the AF is selected, users can enable multiple instances on a link and enable address-family-specific commands.

Different instance ID ranges are used for each AF. Each AF establishes different adjacencies, has a different link state database, and computes a different shortest path tree. The AF then installs the routes in AF-specific RIB. LSAs that carry IPv6 unicast prefixes are used without any modification in different instances to carry each AFs’ prefixes.

The IPv4 subnets configured on OSPFv3-enabled interfaces are advertised through intra-area prefix LSAs, just as any IPv6 prefixes. External LSAs are used to advertise IPv4 routes redistributed from any IPv4 routing protocol, including connected and static. The IPv4 OSPFv3 process runs the SPF calculations and finds the shortest path to those IPv4 destinations. These computed routes are then inserted in the IPv4 RIB (computed routes are inserted into an IPv6 RIB for an IPv6 AF).

Because the IPv4 OSPFv3 process allocates a unique pdbindex in the IPv4 RIB, all other IPv4 routing protocols can redistribute routes from it. The parse chain for all protocols is same, so the ospfv3 keyword added to the list of IPv4 routing protocols causes OSPFv3 to appear in the redistribute command from any IPv4 routing protocol. With the ospfv3 keyword, IPv4 OSPFv3 routes can be redistributed into any other IPv4 routing protocol as defined in the redistribute ospfv3 command.

Third-party devices will not neighbor with devices running the AF feature for the IPv4 AF because they do not set the AF bit. Therefore, those devices will not participate in the IPv4 AF SPF calculations and will not install the IPv4 OSPFv3 routes in the IPv6 RIB.

How to Configure OSPFv3 Address Families

Configuring the OSPFv3 Router Process

Once you have completed step 3 and entered OSPFv3 router configuration mode, you can perform any of the subsequent steps in this task as needed to perform OSPFv3 device configuration.

SUMMARY STEPS

    1.    enable

    2.    configure terminal

    3.    router ospfv3 [process-id]

    4.    area area-ID [default-cost | nssa | stub]

    5.    auto-cost reference-bandwidth Mbps

    6.    bfd all-interfaces

    7.    default {area area-ID[range ipv6-prefix | virtual-link router-id]} [default-information originate [always | metric | metric-type | route-map] | distance | distribute-list prefix-list prefix-list-name {in | out} [interface] | maximum-paths paths | redistribute protocol | summary-prefix ipv6-prefix]

    8.    ignore lsa mospf

    9.    interface-id snmp-if-index

    10.    log-adjacency-changes [detail]

    11.    passive-interface [default | interface-type interface-number]

    12.    queue-depth {hello | update} {queue-size | unlimited}

    13.    router-id {router-id}


DETAILED STEPS
     Command or ActionPurpose
    Step 1 enable


    Example:
    Device> enable
     

    Enables privileged EXEC mode.

    • Enter your password if prompted.
     
    Step 2 configure terminal


    Example:
    Device# configure terminal
     

    Enters global configuration mode.

     
    Step 3 router ospfv3 [process-id]


    Example:
    Device(config)# router ospfv3 1
     

    Enables OSPFv3 router configuration mode for the IPv4 or IPv6 address family.

     
    Step 4 area area-ID [default-cost | nssa | stub]


    Example:
    Device(config-router)# area 1
     

    Configures the OSPFv3 area.

     
    Step 5 auto-cost reference-bandwidth Mbps


    Example:
    Device(config-router)# auto-cost reference-bandwidth 1000 
     

    Controls the reference value OSPFv3 uses when calculating metrics for interfaces in an IPv4 OSPFv3 process.

     
    Step 6 bfd all-interfaces


    Example:
    Device(config-router)# bfd all-interfaces 
     

    Enables BFD for an OSPFv3 routing process

     
    Step 7 default {area area-ID[range ipv6-prefix | virtual-link router-id]} [default-information originate [always | metric | metric-type | route-map] | distance | distribute-list prefix-list prefix-list-name {in | out} [interface] | maximum-paths paths | redistribute protocol | summary-prefix ipv6-prefix]


    Example:
    Device(config-router)# default area 1
     

    Returns an OSPFv3 parameter to its default value.

     
    Step 8 ignore lsa mospf


    Example:
    Device(config-router)# ignore lsa mospf 
     

    Suppresses the sending of syslog messages when the device receives LSA Type 6 multicast OSPFv3 packets, which are unsupported.

     
    Step 9 interface-id snmp-if-index


    Example:
    Device(config-router)# interface-id snmp-if-index
     

    Configures OSPFv3 interfaces with Simple Network Management Protocol (SNMP) MIB-II interface Index (ifIndex) identification numbers in IPv4 and IPv6.

     
    Step 10 log-adjacency-changes [detail]


    Example:
    Device(config-router)# log-adjacency-changes 
     

    Configures the router to send a syslog message when an OSPFv3 neighbor goes up or down.

     
    Step 11 passive-interface [default | interface-type interface-number]

    Example:
    Device(config-router)# passive-interface default 
     

    Suppresses sending routing updates on an interface when using an IPv4 OSPFv3 process.

     
    Step 12 queue-depth {hello | update} {queue-size | unlimited}


    Example:
    Device(config-router)# queue-depth update 1500 
     

    Configures the number of incoming packets that the IPv4 OSPFv3 process can keep in its queue.

     
    Step 13 router-id {router-id}

    Example:
    Device(config-router)# router-id 10.1.1.1 
     

    Use a fixed device ID.

     

    Configuring the IPv6 Address Family in OSPFv3

    Perform this task to configure the IPv6 address family in OSPFv3. Once you have completed step 4 and entered IPv6 address-family configuration mode, you can perform any of the subsequent steps in this task as needed to configure the IPv6 AF.

    SUMMARY STEPS

      1.    enable

      2.    configure terminal

      3.    router ospfv3 [process-id]

      4.    address-family ipv6 unicast

      5.    area area-ID range ipv6-prefix / prefix-length

      6.    default {area area-ID[range ipv6-prefix | virtual-link router-id]} [default-information originate [always | metric | metric-type | route-map] | distance | distribute-list prefix-list prefix-list-name {in | out} [interface] | maximum-paths paths | redistribute protocol | summary-prefix ipv6-prefix]

      7.    default-information originate [always | metric metric-value | metric-type type-value| route-map map-name]

      8.    default-metric metric-value

      9.    distance distance

      10.    distribute-list prefix-list list-name {in[interface-type interface-number] | out routing-process [as-number]}

      11.    maximum-paths number-paths

      12.    summary-prefix prefix [not-advertise | tag tag-value]


    DETAILED STEPS
       Command or ActionPurpose
      Step 1 enable


      Example:
      Router> enable 
       

      Enables privileged EXEC mode.

      • Enter your password if prompted.
       
      Step 2 configure terminal


      Example:
      Router# configure terminal
       

      Enters global configuration mode.

       
      Step 3 router ospfv3 [process-id]


      Example:
      Router(config)# router ospfv3 1
       

      Enables OSPFv3 router configuration mode for the IPv4 or IPv6 address family.

       
      Step 4 address-family ipv6 unicast


      Example:
      
       
      		  


      Example:
      or 


      Example:
                  
                    address-family ipv4 
                  
                    unicast 
                


      Example:
      Router(config-router)# address-family ipv6 unicast 


      Example:
      
       
      		  


      Example:
      or 


      Example:
      Router(config-router)# address-family ipv4 unicast 
       

      Enters IPv6 address family configuration mode for OSPFv3.

      or

      Enters IPv4 address family configuration mode for OSPFv3.

       
      Step 5 area area-ID range ipv6-prefix / prefix-length


      Example:
      Router(config-router-af)# area 1 range 2001:DB8:0:0::0/128 
       

      Configures OSPFv3 area parameters.

       
      Step 6 default {area area-ID[range ipv6-prefix | virtual-link router-id]} [default-information originate [always | metric | metric-type | route-map] | distance | distribute-list prefix-list prefix-list-name {in | out} [interface] | maximum-paths paths | redistribute protocol | summary-prefix ipv6-prefix]


      Example:
      Router(config-router-af)# default area 1
       

      Returns an OSPFv3 parameter to its default value.

       
      Step 7 default-information originate [always | metric metric-value | metric-type type-value| route-map map-name]


      Example:
      Router(config-router-af)# default-information originate always metric 100 metric-type 2 
       

      Generates a default external route into an OSPFv3 for a routing domain.

       
      Step 8 default-metric metric-value

      Example:
      Router(config-router-af)# default-metric 10 
       

      Sets default metric values for IPv4 and IPv6 routes redistributed into the OSPFv3 routing protocol.

       
      Step 9 distance distance


      Example:
      Router(config-router-af)# distance 200 
       

      Configures an administrative distance for OSPFv3 routes inserted into the routing table.

       
      Step 10 distribute-list prefix-list list-name {in[interface-type interface-number] | out routing-process [as-number]}


      Example:
      Router(config-router-af)# distribute-list prefix-list PL1 in Ethernet0/0 
       

      Applies a prefix list to OSPFv3 routing updates that are received or sent on an interface.

       
      Step 11 maximum-paths number-paths


      Example:
      Router(config-router-af)# maximum-paths 4 
       

      Controls the maximum number of equal-cost routes that a process for OSPFv3 routing can support.

       
      Step 12 summary-prefix prefix [not-advertise | tag tag-value]


      Example:
      Router(config-router-af)# summary-prefix FEC0::/24 
       

      Configures an IPv6 summary prefix in OSPFv3.

       

      Configuring the IPv4 Address Family in OSPFv3

      Perform this task to configure the IPv4 address family in OSPFv3. Once you have completed step 4 and entered IPv4 address-family configuration mode, you can perform any of the subsequent steps in this task as needed to configure the IPv4 AF.

      SUMMARY STEPS

        1.    enable

        2.    configure terminal

        3.    router ospfv3 [process-id]

        4.    address-family ipv4 unicast

        5.    area area-id range ip-address ip-address-mask [advertise | not-advertise] [cost cost]

        6.    default {area area-ID[range ipv6-prefix | virtual-link router-id]} [default-information originate [always | metric | metric-type | route-map] | distance | distribute-list prefix-list prefix-list-name {in | out} [interface] | maximum-paths paths | redistribute protocol | summary-prefix ipv6-prefix]

        7.    default-information originate [always | metric metric-value | metric-type type-value| route-map map-name]

        8.    default-metric metric-value

        9.    distance distance

        10.    distribute-list prefix-list list-name {in[interface-type interface-number] | out routing-process [as-number]}

        11.    maximum-paths number-paths

        12.    summary-prefix prefix [not-advertise | tag tag-value]


      DETAILED STEPS
         Command or ActionPurpose
        Step 1 enable


        Example:
        Device> enable 
         

        Enables privileged EXEC mode.

        • Enter your password if prompted.
         
        Step 2 configure terminal


        Example:
        Device# configure terminal
         

        Enters global configuration mode.

         
        Step 3 router ospfv3 [process-id]


        Example:
        Device(config)# router ospfv3 1
         

        Enables OSPFv3 router configuration mode for the IPv4 or IPv6 address family.

         
        Step 4 address-family ipv4 unicast


        Example:
        Device(config-router)# address-family ipv4 unicast 
         

        Enters IPv4 address family configuration mode for OSPFv3.

         
        Step 5 area area-id range ip-address ip-address-mask [advertise | not-advertise] [cost cost]


        Example:
        Device(config-router-af)# area 0 range 192.168.110.0 255.255.0.0
         

        Consolidates and summarizes routes at an area boundary.

         
        Step 6 default {area area-ID[range ipv6-prefix | virtual-link router-id]} [default-information originate [always | metric | metric-type | route-map] | distance | distribute-list prefix-list prefix-list-name {in | out} [interface] | maximum-paths paths | redistribute protocol | summary-prefix ipv6-prefix]


        Example:
        Device(config-router-af)# default area 1
         

        Returns an OSPFv3 parameter to its default value.

         
        Step 7 default-information originate [always | metric metric-value | metric-type type-value| route-map map-name]


        Example:
        Device(config-router-af)# default-information originate always metric 100 metric-type 2 
         

        Generates a default external route into an OSPFv3 for a routing domain.

         
        Step 8 default-metric metric-value

        Example:
        Device(config-router-af)# default-metric 10 
         

        Sets default metric values for IPv4 and IPv6 routes redistributed into the OSPFv3 routing protocol.

         
        Step 9 distance distance


        Example:
        Device(config-router-af)# distance 200 
         

        Configures an administrative distance for OSPFv3 routes inserted into the routing table.

         
        Step 10 distribute-list prefix-list list-name {in[interface-type interface-number] | out routing-process [as-number]}


        Example:
        Device(config-router-af)# distribute-list prefix-list PL1 in Ethernet0/0 
         

        Applies a prefix list to OSPFv3 routing updates that are received or sent on an interface.

         
        Step 11 maximum-paths number-paths


        Example:
        Device(config-router-af)# maximum-paths 4 
         

        Controls the maximum number of equal-cost routes that a process for OSPFv3 routing can support.

         
        Step 12 summary-prefix prefix [not-advertise | tag tag-value]


        Example:
        Device(config-router-af)# summary-prefix FEC0::/24 
         

        Configures an IPv6 summary prefix in OSPFv3.

         

        Configuring Route Redistribution in OSPFv3

        SUMMARY STEPS

          1.    enable

          2.    configure terminal

          3.    router ospfv3 [process-id]

          4.    address-family ipv6 unicast

          5.    redistribute source-protocol [process-id] [options]


        DETAILED STEPS
           Command or ActionPurpose
          Step 1 enable


          Example:
          Router> enable
           

          Enables privileged EXEC mode.

          • Enter your password if prompted.
           
          Step 2 configure terminal


          Example:
          Router# configure terminal
           

          Enters global configuration mode.

           
          Step 3 router ospfv3 [process-id]


          Example:
          Router(config)# router ospfv3 1
           

          Enables OSPFv3 router configuration mode for the IPv4 or IPv6 address family.

           
          Step 4 address-family ipv6 unicast


          Example:
          
           
          		  


          Example:
          or 


          Example:
                      
                        address-family ipv4 
                      
                        unicast
                      
                    


          Example:
          Router(config-router)# address-family ipv6 unicast


          Example:
          
           
          		  


          Example:
          or 


          Example:
          Router(config-router)# address-family ipv4 unicast 
           

          Enters IPv6 address family configuration mode for OSPFv3.

          or

          Enters IPv4 address family configuration mode for OSPFv3.

           
          Step 5 redistribute source-protocol [process-id] [options]


          Example:

           

          Redistributes IPv6 and IPv4 routes from one routing domain into another routing domain.

           

          Enabling OSPFv3 on an Interface

          SUMMARY STEPS

            1.    enable

            2.    configure terminal

            3.    interface type number

            4.    Do one of the following:

            • ospfv3 process-id area area-ID {ipv4 | ipv6} [instance instance-id]
            • ipv6 ospf process-id area area-id [instance instance-id]


          DETAILED STEPS
             Command or ActionPurpose
            Step 1 enable


            Example:
            Device> enable
             

            Enables privileged EXEC mode.

            • Enter your password if prompted.
             
            Step 2 configure terminal


            Example:
            Device# configure terminal
             

            Enters global configuration mode.

             
            Step 3 interface type number


            Example:
            Device(config)# interface ethernet 0/0
             

            Specifies an interface type and number, and places the device in interface configuration mode.

             
            Step 4Do one of the following:
            • ospfv3 process-id area area-ID {ipv4 | ipv6} [instance instance-id]
            • ipv6 ospf process-id area area-id [instance instance-id]


            Example:
            Device(config-if)# ospfv3 1 area 1 ipv4


            Example:
            Device(config-if)# ipv6 ospf 1 area 0 
             

            Enables OSPFv3 on an interface with the IPv4 or IPv6 AF.

            or

            Enables OSPFv3 on an interface.

             

            Defining an OSPFv3 Area Range for the IPv6 or IPv4 Address Family

            The cost of the summarized routes will be the highest cost of the routes being summarized. For example, if the following routes are summarized:

            OI  2001:DB8:0:7::/64 [110/20]
                 via FE80::A8BB:CCFF:FE00:6F00, GigabitEthernet0/0/0
            OI  2001:DB8:0:8::/64 [110/100]
                 via FE80::A8BB:CCFF:FE00:6F00, GigabitEthernet0/0/0
            OI  2001:DB8:0:9::/64 [110/20]
                 via FE80::A8BB:CCFF:FE00:6F00, GigabitEthernet0/0/0
            

            They become one summarized route, as follows:

            OI  2001:DB8::/48 [110/100]
                 via FE80::A8BB:CCFF:FE00:6F00, GigabitEthernet0/0/0
            
            Before You Begin

            OSPFv3 routing must be enabled.

            SUMMARY STEPS

              1.    enable

              2.    configure terminal

              3.    router ospfv3 [process-id]

              4.    address-family ipv6 unicast

              5.    area area-ID range ipv6-prefix


            DETAILED STEPS
               Command or ActionPurpose
              Step 1 enable


              Example:
              Router> enable
               

              Enables privileged EXEC mode.

              • Enter your password if prompted.
               
              Step 2 configure terminal


              Example:
              Router# configure terminal
               

              Enters global configuration mode.

               
              Step 3 router ospfv3 [process-id]


              Example:
              Router(config)# router ospfv3 1
               

              Enables OSPFv3 router configuration mode for the IPv4 or IPv6 address family.

               
              Step 4 address-family ipv6 unicast


              Example:
              
               
              		  


              Example:
              or 


              Example:
                          
                            address-family ipv4 
                          
                            unicast 
                        


              Example:
              Router(config-router)# address-family ipv6 unicast 


              Example:
              
               
              		  


              Example:
              or 


              Example:
              Router(config-router)# address-family ipv4 unicast 
               

              Enters IPv6 address family configuration mode for OSPFv3.

              or

              Enters IPv4 address family configuration mode for OSPFv3.

               
              Step 5 area area-ID range ipv6-prefix


              Example:
              Router(config-router-af)# area 1 range 2001:DB8:0:0::0/128
               

              Configures OSPFv3 area parameters.

               

              Defining an OSPFv3 Area Range

              This task can be performed in releases prior to Cisco IOS XE Release 3.4S.

              SUMMARY STEPS

                1.    enable

                2.    configure terminal

                3.    ipv6 router ospf process-id

                4.    area area-id range ipv6-prefix / prefix-length advertise | not-advertise] [cost cost]


              DETAILED STEPS
                 Command or ActionPurpose
                Step 1 enable


                Example:
                Router> enable
                 

                Enables privileged EXEC mode.

                • Enter your password if prompted.
                 
                Step 2 configure terminal


                Example:
                Router# configure terminal
                 

                Enters global configuration mode.

                 
                Step 3 ipv6 router ospf process-id


                Example:
                Router(config)# ipv6 router ospf 1
                 

                Enables OSPFv3 router configuration mode.

                 
                Step 4 area area-id range ipv6-prefix / prefix-length advertise | not-advertise] [cost cost]


                Example:
                Router(config-rtr)# area 1 range 2001:DB8::/48
                 

                Consolidates and summarizes routes at an area boundary.

                 

                Configuration Examples for OSPFv3 Address Families

                Example: Configuring OSPFv3 Address Families

                Device# show ospfv3                 
                 Routing Process "ospfv3 1" with ID 10.0.0.1
                 Supports IPv6 Address Family
                 Event-log enabled, Maximum number of events: 1000, Mode: cyclic
                 Initial SPF schedule delay 5000 msecs
                 Minimum hold time between two consecutive SPFs 10000 msecs
                 Maximum wait time between two consecutive SPFs 10000 msecs
                 Minimum LSA interval 5 secs
                 Minimum LSA arrival 1000 msecs
                 LSA group pacing timer 240 secs
                 Interface flood pacing timer 33 msecs
                 Retransmission pacing timer 66 msecs
                 Number of external LSA 0. Checksum Sum 0x000000
                 Number of areas in this router is 0. 0 normal 0 stub 0 nssa
                 Graceful restart helper support enabled
                 Reference bandwidth unit is 100 mbps
                 Relay willingness value is 128
                 Pushback timer value is 2000 msecs
                 Relay acknowledgement timer value is 1000 msecs
                 LSA cache Disabled : current count 0, maximum 1000
                 ACK cache Disabled : current count 0, maximum 1000
                 Selective Peering is not enabled
                 Hello requests and responses will be sent multicast
                
                

                Additional References

                Related Documents

                Related Topic

                Document Title

                IPv6 addressing and connectivity

                IPv6 Configuration Guide

                Cisco IOS commands

                Cisco IOS Master Commands List, All Releases

                IPv6 commands

                Cisco IOS IPv6 Command Reference

                Cisco IOS IPv6 features

                Cisco IOS IPv6 Feature Mapping

                OSPFv3 Address Families

                OSPF Forwarding Address Suppression in Translated Type-5 LSAs ” module

                Standards and RFCs

                Standard/RFC

                Title

                RFCs for IPv6

                IPv6 RFCs

                MIBs

                MIB

                MIBs Link

                To locate and download MIBs for selected platforms, Cisco IOS releases, and feature sets, use Cisco MIB Locator found at the following URL:

                http:/​/​www.cisco.com/​go/​mibs

                Technical Assistance

                Description

                Link

                The Cisco Support and Documentation website provides online resources to download documentation, software, and tools. Use these resources to install and configure the software and to troubleshoot and resolve technical issues with Cisco products and technologies. Access to most tools on the Cisco Support and Documentation website requires a Cisco.com user ID and password.

                http:/​/​www.cisco.com/​cisco/​web/​support/​index.html

                Feature Information for OSPFv3 Address Families

                The following table provides release information about the feature or features described in this module. This table lists only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise, subsequent releases of that software release train also support that feature.

                Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/​go/​cfn. An account on Cisco.com is not required.

                Table 1 Feature Information for OSPFv3 Address Families

                Feature Name

                Releases

                Feature Information

                OSPFv3 Address Families

                Cisco IOS XE Release 3.4S

                The OSPFv3 address families feature enables IPv4 and IPv6 unicast traffic to be supported with a single network topology.

                The following commands were introduced or modified: address-family ipv4 (OSPFv3), address-family ipv6 (OSPFv3), area (OSPFv3), auto-cost (OSPFv3), bfd all-interfaces (OSPFv3), clear ospfv3 counters, clear ospfv3 force-spf, clear ospfv3 process, clear ospfv3 redistribution, clear ospfv3 traffic, debug ospfv3, debug ospfv3 database-timer rate-limit, debug ospfv3 events, debug ospfv3 lsdb, debug ospfv3 packet, debug ospfv3 spf statistic, default (OSPFv3), default-information originate (OSPFv3), default-metric (OSPFv3), distance (OSPFv3), distribute-list prefix-list (OSPFv3), event-log (OSPFv3), log-adjacency-changes (OSPFv3), maximum-paths (OSPFv3), ospfv3 area, ospfv3 authentication, ospfv3 bfd, ospfv3 cost, ospfv3 database-filter, ospfv3 dead-interval, ospfv3 demand-circuit, ospfv3 encryption, ospfv3 flood-reduction, ospfv3 hello-interval, ospfv3 mtu-ignore, ospfv3 network, ospfv3 priority, ospfv3 retransmit-interval, ospfv3 transmit-delay, passive-interface (OSPFv3), queue-depth (OSPFv3), redistribute (OSPFv3), router ospfv3, router-id (OSPFv3), show ospfv3 border-routers, show ospfv3 database, show ospfv3 events, show ospfv3 flood-list, show ospfv3 graceful-restart, show ospfv3 interface, show ospfv3 max-metric, show ospfv3 neighbor, show ospfv3 request-list, show ospfv3 retransmission-list, show ospfv3 statistics, show ospfv3 summary-prefix, show ospfv3 timers rate-limit, show ospfv3 traffic, show ospfv3 virtual-links, summary-prefix (OSPFv3), timers pacing flood (OSPFv3), timers pacing lsa-group (OSPFv3), timers pacing retransmission (OSPFv3).