.. _ospfv3: ****** OSPFv3 ****** *ospf6d* is a daemon support OSPF version 3 for IPv6 network. OSPF for IPv6 is described in :rfc:`2740`. .. _ospf6-router: OSPF6 router ============ .. clicmd:: router ospf6 [vrf NAME] .. clicmd:: ospf6 router-id A.B.C.D Set router's Router-ID. .. clicmd:: timers throttle spf (0-600000) (0-600000) (0-600000) This command sets the initial `delay`, the `initial-holdtime` and the `maximum-holdtime` between when SPF is calculated and the event which triggered the calculation. The times are specified in milliseconds and must be in the range of 0 to 600000 milliseconds. The `delay` specifies the minimum amount of time to delay SPF calculation (hence it affects how long SPF calculation is delayed after an event which occurs outside of the holdtime of any previous SPF calculation, and also serves as a minimum holdtime). Consecutive SPF calculations will always be separated by at least 'hold-time' milliseconds. The hold-time is adaptive and initially is set to the `initial-holdtime` configured with the above command. Events which occur within the holdtime of the previous SPF calculation will cause the holdtime to be increased by `initial-holdtime`, bounded by the `maximum-holdtime` configured with this command. If the adaptive hold-time elapses without any SPF-triggering event occurring then the current holdtime is reset to the `initial-holdtime`. .. code-block:: frr router ospf6 timers throttle spf 200 400 10000 In this example, the `delay` is set to 200ms, the initial holdtime is set to 400ms and the `maximum holdtime` to 10s. Hence there will always be at least 200ms between an event which requires SPF calculation and the actual SPF calculation. Further consecutive SPF calculations will always be separated by between 400ms to 10s, the hold-time increasing by 400ms each time an SPF-triggering event occurs within the hold-time of the previous SPF calculation. .. clicmd:: auto-cost reference-bandwidth COST This sets the reference bandwidth for cost calculations, where this bandwidth is considered equivalent to an OSPF cost of 1, specified in Mbits/s. The default is 100Mbit/s (i.e. a link of bandwidth 100Mbit/s or higher will have a cost of 1. Cost of lower bandwidth links will be scaled with reference to this cost). This configuration setting MUST be consistent across all routers within the OSPF domain. .. clicmd:: maximum-paths (1-64) Use this command to control the maximum number of parallel routes that OSPFv3 can support. The default is 64. .. clicmd:: write-multiplier (1-100) Use this command to tune the amount of work done in the packet read and write threads before relinquishing control. The parameter is the number of packets to process before returning. The default value of this parameter is 20. .. clicmd:: clear ipv6 ospf6 process [vrf NAME] This command clears up the database and routing tables and resets the neighborship by restarting the interface state machine. This will be helpful when there is a change in router-id and if user wants the router-id change to take effect, user can use this cli instead of restarting the ospf6d daemon. .. clicmd:: clear ipv6 ospf6 [vrf NAME] interface [IFNAME] This command restarts the interface state machine for all interfaces in the VRF or only for the specific interface if ``IFNAME`` is specified. ASBR Summarisation Support in OSPFv3 ==================================== External routes in OSPFv3 are carried by type 5/7 LSA (external LSAs). External LSAs are generated by ASBR (Autonomous System Boundary Router). Large topology database requires a large amount of router memory, which slows down all processes, including SPF calculations. It is necessary to reduce the size of the OSPFv3 topology database, especially in a large network. Summarising routes keeps the routing tables smaller and easier to troubleshoot. External route summarization must be configured on ASBR. Stub area do not allow ASBR because they don’t allow type 5 LSAs. An ASBR will inject a summary route into the OSPFv3 domain. Summary route will only be advertised if you have at least one subnet that falls within the summary range. Users will be allowed an option in the CLI to not advertise range of ipv6 prefixes as well. The configuration of ASBR Summarisation is supported using the CLI command .. clicmd:: summary-address X:X::X:X/M [tag (1-4294967295)] [{metric (0-16777215) | metric-type (1-2)}] This command will advertise a single External LSA on behalf of all the prefixes falling under this range configured by the CLI. The user is allowed to configure tag, metric and metric-type as well. By default, tag is not configured, default metric as 20 and metric-type as type-2 gets advertised. A summary route is created when one or more specific routes are learned and removed when no more specific route exist. The summary route is also installed in the local system with Null0 as next-hop to avoid leaking traffic. .. clicmd:: no summary-address X:X::X:X/M [tag (1-4294967295)] [{metric (0-16777215) | metric-type (1-2)}] This command can be used to remove the summarisation configuration. This will flush the single External LSA if it was originated and advertise the External LSAs for all the existing individual prefixes. .. clicmd:: summary-address X:X::X:X/M no-advertise This command can be used when user do not want to advertise a certain range of prefixes using the no-advertise option. This command when configured will flush all the existing external LSAs falling under this range. .. clicmd:: no summary-address X:X::X:X/M no-advertise This command can be used to remove the previous configuration. When configured, tt will resume originating external LSAs for all the prefixes falling under the configured range. .. clicmd:: aggregation timer (5-1800) The summarisation command takes effect after the aggregation timer expires. By default the value of this timer is 5 seconds. User can modify the time after which the external LSAs should get originated using this command. .. clicmd:: no aggregation timer (5-1800) This command removes the timer configuration. It reverts back to default 5 second timer. .. clicmd:: show ipv6 ospf6 summary-address [detail] [json] This command can be used to see all the summary-address related information. When detail option is used, it shows all the prefixes falling under each summary-configuration apart from other information. .. _ospf6-area: OSPF6 area ========== .. clicmd:: area A.B.C.D range X:X::X:X/M [] .. clicmd:: area (0-4294967295) range X:X::X:X/M [] Summarize a group of internal subnets into a single Inter-Area-Prefix LSA. This command can only be used at the area boundary (ABR router). By default, the metric of the summary route is calculated as the highest metric among the summarized routes. The `cost` option, however, can be used to set an explicit metric. The `not-advertise` option, when present, prevents the summary route from being advertised, effectively filtering the summarized routes. .. clicmd:: area A.B.C.D nssa [no-summary] [default-information-originate [metric-type (1-2)] [metric (0-16777214)]] .. clicmd:: area (0-4294967295) nssa [no-summary] [default-information-originate [metric-type (1-2)] [metric (0-16777214)]] Configure the area to be a NSSA (Not-So-Stubby Area). The following functionalities are implemented as per RFC 3101: 1. Advertising Type-7 LSA into NSSA area when external route is redistributed into OSPFv3. 2. Processing Type-7 LSA received from neighbor and installing route in the route table. 3. Support for NSSA ABR functionality which is generating Type-5 LSA when backbone area is configured. Currently translation of Type-7 LSA to Type-5 LSA is enabled by default. 4. Support for NSSA Translator functionality when there are multiple NSSA ABR in an area. An NSSA ABR can be configured with the `no-summary` option to prevent the advertisement of summaries into the area. In that case, a single Type-3 LSA containing a default route is originated into the NSSA. NSSA ABRs and ASBRs can be configured with `default-information-originate` option to originate a Type-7 default route into the NSSA area. In the case of NSSA ASBRs, the origination of the default route is conditioned to the existence of a default route in the RIB that wasn't learned via the OSPF protocol. .. clicmd:: area A.B.C.D nssa range X:X::X:X/M [] .. clicmd:: area (0-4294967295) nssa range X:X::X:X/M [] Summarize a group of external subnets into a single Type-7 LSA, which is then translated to a Type-5 LSA and avertised to the backbone. This command can only be used at the area boundary (NSSA ABR router). By default, the metric of the summary route is calculated as the highest metric among the summarized routes. The `cost` option, however, can be used to set an explicit metric. The `not-advertise` option, when present, prevents the summary route from being advertised, effectively filtering the summarized routes. .. clicmd:: area A.B.C.D export-list NAME .. clicmd:: area (0-4294967295) export-list NAME Filter Type-3 summary-LSAs announced to other areas originated from intra- area paths from specified area. .. code-block:: frr router ospf6 area 0.0.0.10 export-list foo ! ipv6 access-list foo permit 2001:db8:1000::/64 ipv6 access-list foo deny any With example above any intra-area paths from area 0.0.0.10 and from range 2001:db8::/32 (for example 2001:db8:1::/64 and 2001:db8:2::/64) are announced into other areas as Type-3 summary-LSA's, but any others (for example 2001:200::/48) aren't. This command is only relevant if the router is an ABR for the specified area. .. clicmd:: area A.B.C.D import-list NAME .. clicmd:: area (0-4294967295) import-list NAME Same as export-list, but it applies to paths announced into specified area as Type-3 summary-LSAs. .. clicmd:: area A.B.C.D filter-list prefix NAME in .. clicmd:: area A.B.C.D filter-list prefix NAME out .. clicmd:: area (0-4294967295) filter-list prefix NAME in .. clicmd:: area (0-4294967295) filter-list prefix NAME out Filtering Type-3 summary-LSAs to/from area using prefix lists. This command makes sense in ABR only. .. _ospf6-interface: OSPF6 interface =============== .. clicmd:: ipv6 ospf6 area Enable OSPFv3 on the interface and add it to the specified area. .. clicmd:: ipv6 ospf6 cost COST Sets interface's output cost. Default value depends on the interface bandwidth and on the auto-cost reference bandwidth. .. clicmd:: ipv6 ospf6 hello-interval HELLOINTERVAL Sets interface's Hello Interval. Default 10 .. clicmd:: ipv6 ospf6 dead-interval DEADINTERVAL Sets interface's Router Dead Interval. Default value is 40. .. clicmd:: ipv6 ospf6 graceful-restart hello-delay HELLODELAYINTERVAL Set the length of time during which Grace-LSAs are sent at 1-second intervals while coming back up after an unplanned outage. During this time, no hello packets are sent. A higher hello delay will increase the chance that all neighbors are notified about the ongoing graceful restart before receiving a hello packet (which is crucial for the graceful restart to succeed). The hello delay shouldn't be set too high, however, otherwise the adjacencies might time out. As a best practice, it's recommended to set the hello delay and hello interval with the same values. The default value is 10 seconds. .. clicmd:: ipv6 ospf6 retransmit-interval RETRANSMITINTERVAL Sets interface's Rxmt Interval. Default value is 5. .. clicmd:: ipv6 ospf6 priority PRIORITY Sets interface's Router Priority. Default value is 1. .. clicmd:: ipv6 ospf6 transmit-delay TRANSMITDELAY Sets interface's Inf-Trans-Delay. Default value is 1. .. clicmd:: ipv6 ospf6 network (broadcast|point-to-point) Set explicitly network type for specified interface. OSPF6 route-map =============== Usage of *ospfd6*'s route-map support. .. clicmd:: set metric [+|-](0-4294967295) Set a metric for matched route when sending announcement. Use plus (+) sign to add a metric value to an existing metric. Use minus (-) sign to substract a metric value from an existing metric. .. _redistribute-routes-to-ospf6: Redistribute routes to OSPF6 ============================ .. clicmd:: redistribute [metric-type (1-2)] [metric (0-16777214)] [route-map WORD] Redistribute routes of the specified protocol or kind into OSPFv3, with the metric type and metric set if specified, filtering the routes using the given route-map if specified. .. clicmd:: default-information originate [{always|metric (0-16777214)|metric-type (1-2)|route-map WORD}] The command injects default route in the connected areas. The always argument injects the default route regardless of it being present in the router. Metric values and route-map can also be specified optionally. Graceful Restart ================ .. clicmd:: graceful-restart [grace-period (1-1800)] Configure Graceful Restart (RFC 5187) restarting support. When enabled, the default grace period is 120 seconds. To perform a graceful shutdown, the "graceful-restart prepare ipv6 ospf" EXEC-level command needs to be issued before restarting the ospf6d daemon. When Graceful Restart is enabled and the ospf6d daemon crashes or is killed abruptely (e.g. SIGKILL), it will attempt an unplanned Graceful Restart once it restarts. .. clicmd:: graceful-restart helper enable [A.B.C.D] Configure Graceful Restart (RFC 5187) helper support. By default, helper support is disabled for all neighbours. This config enables/disables helper support on this router for all neighbours. To enable/disable helper support for a specific neighbour, the router-id (A.B.C.D) has to be specified. .. clicmd:: graceful-restart helper strict-lsa-checking If 'strict-lsa-checking' is configured then the helper will abort the Graceful Restart when a LSA change occurs which affects the restarting router. By default 'strict-lsa-checking' is enabled" .. clicmd:: graceful-restart helper supported-grace-time (10-1800) Supports as HELPER for configured grace period. .. clicmd:: graceful-restart helper planned-only It helps to support as HELPER only for planned restarts. By default, it supports both planned and unplanned outages. .. clicmd:: graceful-restart prepare ipv6 ospf Initiate a graceful restart for all OSPFv3 instances configured with the "graceful-restart" command. The ospf6d daemon should be restarted during the instance-specific grace period, otherwise the graceful restart will fail. This is an EXEC-level command. .. _Authentication-trailer: Authentication trailer support: =============================== IPv4 version of OSPF supports authentication as part of the base RFC. When IPv6 version of OSPF was developed there was IPSec support for IPv6, Hence OSPFv3(IPv6 version of OSPF) suggest to use IPSec as authentication and encryption mechanism. IPSec supports authentication using AH header and Encryption using ESP. There are few disadvantages of using IPSec with OSPFv3. 1. If encryption is enabled for OSPFv3 packets, then its not possible to give priority to control packets. 2. IPSec has platform dependency and may not be supported in all platforms. 3. It is performance intensive. 4. Its difficult to configure. Some advantages of OSPFv3 authentication trailer feature. 1. It provides replay protection via sequence number. 2. It provides IPv6 source address protection. 3. No platform dependency. 4. Easy to implement and maintain. This feature is support for ``RFC7166``. FRR supports MD5 and SHA256 internally and relays on openssl for other hash algorithms. If user wants to use only MD5 and SHA256, no special action is required. If user wants complete support of authentication trailer with all hash algorithms follow below steps. Installing Dependencies: ------------------------ .. code-block:: console sudo apt update sudo apt-get install openssl Compile: -------- Follow normal compilation as mentioned in the build page. If you want to use all the hash algorithms then follow the steps mentioned in note before compiling. .. note:: If your platform supports ``openssl``, please make sure to add ``--with-crypto=openssl`` to your configure options. Default value is ``--with-crypto=internal`` CLI Configuration: ------------------ There are two ways in which authentication trailer can be configured for OSPFv3. These commands are mutually exclusive, only one can be configured at any time. 1. Using manual key configuration. 2. Using keychain. List of hash algorithms supported: ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Without openssl: ++++++++++++++++ ``MD5`` ``HMAC-SHA-256`` With openssl: +++++++++++++ ``MD5`` ``HMAC-SHA-1`` ``HMAC-SHA-256`` ``HMAC-SHA-384`` ``HMAC-SHA-512`` Example configuration of manual key: ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Without openssl: ++++++++++++++++ .. clicmd:: ipv6 ospf6 authentication key-id (1-65535) hash-algo key WORD With openssl: +++++++++++++ .. clicmd:: ipv6 ospf6 authentication key-id (1-65535) hash-algo key WORD Example configuration of keychain: ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ .. clicmd:: ipv6 ospf6 authentication keychain KEYCHAIN_NAME Running configuration: ---------------------- Manual key: ^^^^^^^^^^^ .. code-block:: frr frr# show running-config Building configuration... Current configuration: ! interface ens192 ipv6 address 2001:DB8::2/64 ipv6 ospf6 authentication key-id 10 hash-algo hmac-sha-256 key abhinay Keychain: ^^^^^^^^^ .. code-block:: frr frr# show running-config Building configuration... Current configuration: ! interface ens192 ipv6 address 2001:DB8::2/64 ipv6 ospf6 authentication keychain abhinay Example keychain config: ^^^^^^^^^^^^^^^^^^^^^^^^ .. code-block:: frr frr#show running-config Building configuration... Current configuration: ! key chain abcd key 100 key-string password cryptographic-algorithm sha1 exit key 200 key-string password cryptographic-algorithm sha256 exit ! key chain pqr key 300 key-string password cryptographic-algorithm sha384 exit key 400 key-string password cryptographic-algorithm sha384 exit ! Show commands: -------------- There is an interface show command that displays if authentication trailer is enabled or not. json output is also supported. There is support for drop counters, which will help in debugging the feature. .. code-block:: frr frr# show ipv6 ospf6 interface ens192 ens192 is up, type BROADCAST Interface ID: 5 Number of I/F scoped LSAs is 2 0 Pending LSAs for LSUpdate in Time 00:00:00 [thread off] 0 Pending LSAs for LSAck in Time 00:00:00 [thread off] Authentication trailer is enabled with manual key ==> new info added Packet drop Tx 0, Packet drop Rx 0 OSPFv3 supports options in hello and database description packets hence the presence of authentication trailer needs to be stored in OSPFv3 neighbor info. Since RFC specifies that we need to handled sequence number for every ospf6 packet type, sequence number recvd in authentication header from the neighbor is stored in neighbor to validate the packet. json output is also supported. .. code-block:: frr frr# show ipv6 ospf6 neighbor 2.2.2.2 detail Neighbor 2.2.2.2%ens192 Area 1 via interface ens192 (ifindex 3) 0 Pending LSAs for LSUpdate in Time 00:00:00 [thread off] 0 Pending LSAs for LSAck in Time 00:00:00 [thread off] Authentication header present ==> new info added hello DBDesc LSReq LSUpd LSAck Higher sequence no 0x0 0x0 0x0 0x0 0x0 Lower sequence no 0x242E 0x1DC4 0x1DC3 0x23CC 0x1DDA Sent packet sequence number is maintained per ospf6 router for every packet that is sent out of router, so sequence number is maintained per ospf6 process. .. code-block:: frr frr# show ipv6 ospf6 OSPFv3 Routing Process (0) with Router-ID 2.2.2.2 Number of areas in this router is 1 Authentication Sequence number info Higher sequence no 3, Lower sequence no 1656 Debug command: -------------- Below command can be used to enable ospfv3 authentication trailer specific logs if you have to debug the feature. .. clicmd:: debug ospf6 authentication [] Feature supports authentication trailer tx/rx drop counters for debugging, which can be used to see if packets are getting dropped due to error in processing authentication trailer information in OSPFv3 packet. json output is also supported. .. code-block:: frr frr# show ipv6 ospf6 interface ens192 ens192 is up, type BROADCAST Interface ID: 5 Number of I/F scoped LSAs is 2 0 Pending LSAs for LSUpdate in Time 00:00:00 [thread off] 0 Pending LSAs for LSAck in Time 00:00:00 [thread off] Authentication trailer is enabled with manual key Packet drop Tx 0, Packet drop Rx 0 ==> new counters Clear command: -------------- Below command can be used to clear the tx/rx drop counters in interface. Below command can be used to clear all ospfv3 interface or specific interface by specifying the interface name. .. clicmd:: clear ipv6 ospf6 auth-counters interface [IFNAME] .. _showing-ospf6-information: Showing OSPF6 information ========================= .. clicmd:: show ipv6 ospf6 [vrf ] [json] Show information on a variety of general OSPFv3 and area state and configuration information. JSON output can be obtained by appending 'json' to the end of command. .. clicmd:: show ipv6 ospf6 [vrf ] database [] [json] This command shows LSAs present in the LSDB. There are three view options. These options helps in viewing all the parameters of the LSAs. JSON output can be obtained by appending 'json' to the end of command. JSON option is not applicable with 'dump' option. .. clicmd:: show ipv6 ospf6 [vrf ] database [json] These options filters out the LSA based on its type. The three views options works here as well. JSON output can be obtained by appending 'json' to the end of command. .. clicmd:: show ipv6 ospf6 [vrf ] database adv-router A.B.C.D linkstate-id A.B.C.D [json] The LSAs additinally can also be filtered with the linkstate-id and advertising-router fields. We can use the LSA type filter and views with this command as well and visa-versa. JSON output can be obtained by appending 'json' to the end of command. .. clicmd:: show ipv6 ospf6 [vrf ] database self-originated [json] This command is used to filter the LSAs which are originated by the present router. All the other filters are applicable here as well. .. clicmd:: show ipv6 ospf6 [vrf ] interface [json] To see OSPF interface configuration like costs. JSON output can be obtained by appending "json" in the end. .. clicmd:: show ipv6 ospf6 [vrf ] neighbor [json] Shows state and chosen (Backup) DR of neighbor. JSON output can be obtained by appending 'json' at the end. .. clicmd:: show ipv6 ospf6 [vrf ] interface traffic [json] Shows counts of different packets that have been received and transmitted by the interfaces. JSON output can be obtained by appending "json" at the end. .. clicmd:: show ipv6 route ospf6 This command shows internal routing table. .. clicmd:: show ipv6 ospf6 zebra [json] Shows state about what is being redistributed between zebra and OSPF6. JSON output can be obtained by appending "json" at the end. .. clicmd:: show ipv6 ospf6 [vrf ] redistribute [json] Shows the routes which are redistributed by the router. JSON output can be obtained by appending 'json' at the end. .. clicmd:: show ipv6 ospf6 [vrf ] route [] [json] This command displays the ospfv3 routing table as determined by the most recent SPF calculations. Options are provided to view the different types of routes. Other than the standard view there are two other options, detail and summary. JSON output can be obtained by appending 'json' to the end of command. .. clicmd:: show ipv6 ospf6 [vrf ] route X:X::X:X/M match [detail] [json] The additional match option will match the given address to the destination of the routes, and return the result accordingly. .. clicmd:: show ipv6 ospf6 [vrf ] interface [IFNAME] prefix [detail| []] [json] This command shows the prefixes present in the interface routing table. Interface name can also be given. JSON output can be obtained by appending 'json' to the end of command. .. clicmd:: show ipv6 ospf6 [vrf ] spf tree [json] This commands shows the spf tree from the recent spf calculation with the calling router as the root. If json is appended in the end, we can get the tree in JSON format. Each area that the router belongs to has it's own JSON object, with each router having "cost", "isLeafNode" and "children" as arguments. .. clicmd:: show ipv6 ospf6 graceful-restart helper [detail] [json] This command shows the graceful-restart helper details including helper configuration parameters. .. _ospf6-debugging: OSPFv3 Debugging ================ The following debug commands are supported: .. clicmd:: debug ospf6 abr Toggle OSPFv3 ABR debugging messages. .. clicmd:: debug ospf6 asbr Toggle OSPFv3 ASBR debugging messages. .. clicmd:: debug ospf6 border-routers {router-id [A.B.C.D] | area-id [A.B.C.D]} Toggle OSPFv3 border router debugging messages. This can be specified for a router with specific Router-ID/Area-ID. .. clicmd:: debug ospf6 flooding Toggle OSPFv3 flooding debugging messages. .. clicmd:: debug ospf6 interface Toggle OSPFv3 interface related debugging messages. .. clicmd:: debug ospf6 lsa Toggle OSPFv3 Link State Advertisements debugging messages. .. clicmd:: debug ospf6 lsa aggregation Toggle OSPFv3 Link State Advertisements summarization debugging messages. .. clicmd:: debug ospf6 message Toggle OSPFv3 message exchange debugging messages. .. clicmd:: debug ospf6 neighbor Toggle OSPFv3 neighbor interaction debugging messages. .. clicmd:: debug ospf6 nssa Toggle OSPFv3 Not So Stubby Area (NSSA) debugging messages. .. clicmd:: debug ospf6 route Toggle OSPFv3 routes debugging messages. .. clicmd:: debug ospf6 spf Toggle OSPFv3 Shortest Path calculation debugging messages. .. clicmd:: debug ospf6 zebra Toggle OSPFv3 zebra interaction debugging messages. .. clicmd:: debug ospf6 graceful-restart Toggle OSPFv3 graceful-restart helper debugging messages. Sample configuration ==================== Example of ospf6d configured on one interface and area: .. code-block:: frr interface eth0 ipv6 ospf6 area 0.0.0.0 ipv6 ospf6 instance-id 0 ! router ospf6 ospf6 router-id 212.17.55.53 area 0.0.0.0 range 2001:770:105:2::/64 ! Larger example with policy and various options set: .. code-block:: frr debug ospf6 neighbor state ! interface fxp0 ipv6 ospf6 area 0.0.0.0 ipv6 ospf6 cost 1 ipv6 ospf6 hello-interval 10 ipv6 ospf6 dead-interval 40 ipv6 ospf6 retransmit-interval 5 ipv6 ospf6 priority 0 ipv6 ospf6 transmit-delay 1 ipv6 ospf6 instance-id 0 ! interface lo0 ipv6 ospf6 cost 1 ipv6 ospf6 hello-interval 10 ipv6 ospf6 dead-interval 40 ipv6 ospf6 retransmit-interval 5 ipv6 ospf6 priority 1 ipv6 ospf6 transmit-delay 1 ipv6 ospf6 instance-id 0 ! router ospf6 router-id 255.1.1.1 redistribute static route-map static-ospf6 ! access-list access4 permit 127.0.0.1/32 ! ipv6 access-list access6 permit 3ffe:501::/32 ipv6 access-list access6 permit 2001:200::/48 ipv6 access-list access6 permit ::1/128 ! ipv6 prefix-list test-prefix seq 1000 deny any ! route-map static-ospf6 permit 10 match ipv6 address prefix-list test-prefix set metric-type type-2 set metric 2000 ! line vty access-class access4 ipv6 access-class access6 exec-timeout 0 0 !