- Read Me First
- IS-IS Overview and Basic Configuration
- IPv6 Routing: Route Redistribution
- IPv6 Routing: IS-IS Support for IPv6
- Configuring Integrated IS-IS Protocol Shutdown Support Maintaining Configuration Parameters
- Customizing IS-IS for Your Network Design
- Segment Routing—IS-IS v4 node SID
- IS-IS MIB
- IS-IS Support for an IS-IS Instance per VRF for IP
- Overview of IS-IS Fast Convergence
- Setting Best Practice Parameters for IS-IS Fast Convergence
- Reducing Failure Detection Times in IS-IS Networks
- IPv6 Routing: IS-IS Multitopology Support for IPv6
- Reducing Link Failure and Topology Change Notification Times in IS-IS Networks
- IS-IS Support for Route Tags
- Enhancing Security in an IS-IS Network
- IS-IS IPv6 Administrative Tag
- IS-IS IPv6 Advertise Passive Only
- IS-IS IPv6 Multi-Process Support
- ISIS Local Microloop Protection
IPv6 Routing: IS-IS Support for IPv6
This module describes how to configure Integrated Intermediate System-to-Intermediate System (IS-IS) for IPv6. IS-IS is an Interior Gateway Protocol (IGP) that advertises link-state information throughout the network to create a picture of the network topology. IS-IS is an Open Systems Interconnection (OSI) hierarchical routing protocol that designates an intermediate system as a Level 1 or Level 2 device. Level 2 devices route between Level 1 areas to create an intradomain routing backbone. Integrated IS-IS uses a single routing algorithm to support several network address families, such as IPv6, IPv4, and OSI.
- Finding Feature Information
- Information About IPv6 Routing: IS-IS Support for IPv6
- How to Configure IPv6 Routing: IS-IS Support for IPv6
- Configuration Examples for IPv6 Routing: IS-IS Support for IPv6
- Additional References
- Feature Information for IPv6 Routing: IS-IS Support for IPv6
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.
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.
Information About IPv6 Routing: IS-IS Support for IPv6
IS-IS Enhancements for IPv6
IS-IS in IPv6 functions the same and offers many of the same benefits as IS-IS in IPv4. IPv6 enhancements to IS-IS allow IS-IS to advertise IPv6 prefixes in addition to IPv4 and OSI routes. Extensions to the IS-IS command-line interface (CLI) allow configuration of IPv6-specific parameters. IPv6 IS-IS extends the address families supported by IS-IS to include IPv6, in addition to OSI and IPv4.
IS-IS in IPv6 supports either single-topology mode or multiple topology mode.
IS-IS Single-Topology Support for IPv6
Single-topology support for IPv6 allows IS-IS for IPv6 to be configured on interfaces along with other network protocols (for example, IPv4 and Connectionless Network Service [CLNS]). All interfaces must be configured with the identical set of network address families. In addition, all routers in the IS-IS area (for Level 1 routing) or the domain (for Level 2 routing) must support the identical set of network layer address families on all interfaces.
When single-topology support for IPv6 is being used, either old- or new-style TLVs may be used. However, the TLVs used to advertise reachability to IPv6 prefixes use extended metrics. Cisco routers do not allow an interface metric to be set to a value greater than 63 if the configuration is not set to support only new-style TLVs for IPv4. In single-topology IPv6 mode, the configured metric is always the same for both IPv4 and IPv6.
IPv6 IS-IS Local RIB
A router that is running IS-IS IPv6 maintains a local RIB in which it stores all routes to destinations it has learned from its neighbors. At the end of each SPF, IS-IS attempts to install the best (that is, the least-cost) routes to a destination present in the local RIB in the global IPv6 routing table.
How to Configure IPv6 Routing: IS-IS Support for IPv6
- Configuring Single-Topology IS-IS for IPv6
- Customizing IPv6 IS-IS
- Disabling IPv6 Protocol-Support Consistency Checks
- Disabling IPv4 Subnet Consistency Checks
- Verifying IPv6 IS-IS Configuration and Operation
Configuring Single-Topology IS-IS for IPv6
Configuring IS-IS comprises two activities. The first activity creates an IS-IS routing process and is performed using protocol-independent IS-IS commands. The second activity in configuring IPv6 IS-IS configures the operation of the IS-IS protocol on an interface.
Before configuring the router to run IPv6 IS-IS, globally enable IPv6 using the ipv6 unicast-routing global configuration command.
 Note | If you are using IS-IS single-topology support for IPv6, IPv4, or both IPv6 and IPv4, you may configure both IPv6 and IPv4 on an IS-IS interface for Level 1, Level 2, or both Level 1 and Level 2. However, if both IPv6 and IPv4 are configured on the same interface, they must be running the same IS-IS level. That is, IPv4 cannot be configured to run on IS-IS Level 1 only on a specified GigabitEthernet or FastEthernet interface while IPv6 is configured to run IS-IS Level 2 only on the same GigabitEthernet or FastEthernet interface. > |
1.
enable
2.
configure
terminal
3.
router
isis
area-tag
4.
net
network-entity-title
5.
exit
6.
interface
type
number
7.
ipv6
address
{ipv6-address
/
prefix-length |
prefix-name
sub-bits/prefix-length
8.
ipv6
router
isis
area-name
DETAILED STEPS
Customizing IPv6 IS-IS
Perform this task to configure a new administrative distance for IPv6 IS-IS, configure the maximum number of equal-cost paths that IPv6 IS-IS will support, configure summary prefixes for IPv6 IS-IS, and configure an IS-IS instance to advertise the default IPv6 route (::/0). It also explains how to configure the hold-down period between partial route calculations (PRCs) and how often Cisco IOS XE software performs the SPF calculation when using multitopology IS-IS.
You can customize IS-IS multitopology for IPv6 for your network, but you likely will not need to do so. The defaults for this feature are set to meet the requirements of most customers and features. If you change the defaults, refer to the IPv4 configuration guide and the IPv6 command reference to find the appropriate syntax.
1.
enable
2.
configure
terminal
3.
router
isis
area-tag
4.
address-family
ipv6
[unicast | multicast]
5.
default-information
originate
[route-map map-name]
6.
distance
value
7.
maximum-paths
number-paths
8.
summary-prefix
ipv6-prefix
prefix-length
level-1
| level-1-2| level-2]
9.
prc-interval
seconds
[initial-wait] [secondary-wait
10.
spf-interval
[level-1 | level-2] seconds initial-wait] [secondary-wait
11.
exit
12.
interface
type
number
13.
isis
ipv6
metric
metric-value
[level-1 | level-2 | level-1-2
DETAILED STEPS
| Command or Action | Purpose | |
|---|---|---|
| Step 1 |
enable
Example: Router> enable |
Enables privileged EXEC mode.
|
| Step 2 |
configure
terminal
Example: Router# configure terminal |
Enters global configuration mode. |
| Step 3 |
router
isis
area-tag
Example: Router(config)# router isis area2 |
Enables IS-IS for the specified IS-IS routing process, and enters router configuration mode. |
| Step 4 |
address-family
ipv6
[unicast | multicast] Example: Router(config-router)# address-family ipv6 |
Specifies the IPv6 address family, and enters address family configuration mode.
|
| Step 5 |
default-information
originate
[route-map map-name] Example: Router(config-router-af)# default-information originate |
(Optional) Injects a default IPv6 route into an IS-IS routing domain.
|
| Step 6 |
distance
value
Example: Router(config-router-af)# distance 90 |
(Optional) Defines an administrative distance for IPv6 IS-IS routes in the IPv6 routing table.
|
| Step 7 |
maximum-paths
number-paths
Example: Router(config-router-af)# maximum-paths 3 |
(Optional) Defines the maximum number of equal-cost routes that IPv6 IS-IS can support.
|
| Step 8 |
summary-prefix
ipv6-prefix
prefix-length
level-1
| level-1-2| level-2] Example: Router(config-router-af)# summary-prefix 2001:DB8::/24 |
(Optional) Allows a Level 1-2 router to summarize Level 1 prefixes at Level 2, instead of advertising the Level 1 prefixes directly when the router advertises the summary.
|
| Step 9 |
prc-interval
seconds
[initial-wait] [secondary-wait Example: Router(config-router-af)# prc-interval 20 |
(Optional) Configures the hold-down period between PRCs for multitopology IS-IS for IPv6. |
| Step 10 |
spf-interval
[level-1 | level-2] seconds initial-wait] [secondary-wait Example: Router(config-router-af)# spf-interval 30 |
(Optional) Configures how often Cisco IOS XE software performs the SPF calculation for multitopology IS-IS for IPv6. |
| Step 11 |
exit
Example: Router(config-router-af)# exit |
Exits address family configuration mode, and returns the router to router configuration mode.
|
| Step 12 |
interface
type
number
Example: Router(config-router)# interface GigabitEthernet 0/0/1 |
Specifies the interface type and number, and enters interface configuration mode. |
| Step 13 |
isis
ipv6
metric
metric-value
[level-1 | level-2 | level-1-2 Example: Router(config-if)# isis ipv6 metric 20 |
(Optional) Configures the value of an multitopology IS-IS for IPv6 metric. |
Disabling IPv6 Protocol-Support Consistency Checks
Perform this task to disable protocol-support consistency checks in IPv6 single-topology mode.
For single-topology IS-IS IPv6, routers must be configured to run the same set of address families. IS-IS performs consistency checks on hello packets and will reject hello packets that do not have the same set of configured address families. For example, a router running IS-IS for both IPv4 and IPv6 will not form an adjacency with a router running IS-IS for IPv4 or IPv6 only. In order to allow adjacency to be formed in mismatched address-families network, the adjacency-check command in IPv6 address family configuration mode must be disabled.
Note | Entering the no adjacency-check command can adversely affect your network configuration. Enter the no adjacency-check command only when you are running IPv4 IS-IS on all your routers and you want to add IPv6 IS-IS to your network but you need to maintain all your adjacencies during the transition. When the IPv6 IS-IS configuration is complete, remove the no adjacency-checkcommand from the configuration. |
1.
enable
2.
configure
terminal
3.
router
isis
area-tag
4.
address-family
ipv6
[unicast |
multicast]
5.
no
adjacency-check
DETAILED STEPS
| Command or Action | Purpose | |
|---|---|---|
| Step 1 |
enable
Example: Device> enable |
Enables privileged EXEC mode. |
| Step 2 |
configure
terminal
Example: Device# configure terminal |
Enters global configuration mode. |
| Step 3 |
router
isis
area-tag
Example: Device(config)# router isis area2 |
Enables IS-IS for the specified IS-IS routing process, and enters router configuration mode. |
| Step 4 |
address-family
ipv6
[unicast |
multicast]
Example: Device(config-router)# address-family ipv6 |
Specifies the IPv6 address family, and enters address family configuration mode.
|
| Step 5 |
no
adjacency-check
Example: Device(config-router-af)# no adjacency-check |
Disables the IPv6 protocol-support consistency checks performed on hello packets, allowing IPv6 to be introduced into an IPv4-only network without disrupting existing adjacencies.
|
Disabling IPv4 Subnet Consistency Checks
Perform this task to disable IPv4 subnet consistency checking when forming adjacencies. software historically makes checks on hello packets to ensure that the IPv4 address is present and has a consistent subnet with the neighbor from which the hello packets are received. To disable this check, use the no adjacency-check command in the router configuration mode. However, if multitopology IS-IS is configured, this check is automatically suppressed, because multitopology IS-IS requires routers to form an adjacency regardless of whether or not all routers on a LAN support a common protocol.
1.
enable
2.
configure
terminal
3.
router
isis
area-tag
4.
no
adjacency-check
DETAILED STEPS
| Command or Action | Purpose | |
|---|---|---|
| Step 1 |
enable
Example: Device> enable |
Enables privileged EXEC mode. |
| Step 2 |
configure
terminal
Example: Device# configure terminal |
Enters global configuration mode. |
| Step 3 |
router
isis
area-tag
Example: Device(config)# router isis area2 |
Enables IS-IS for the specified IS-IS routing process, and enters router configuration mode.
|
| Step 4 |
no
adjacency-check
Example: Device(config-router-af)# no adjacency-check |
Disables the IPv6 protocol-support consistency checks performed on hello packets, allowing IPv6 to be introduced into an IPv4-only network without disrupting existing adjacencies. |
Verifying IPv6 IS-IS Configuration and Operation
1.
enable
2.
show
ipv6
protocols
[summary]
3.
show
isis
[process-tag] [ipv6 |
*]
topology
4.
show
clns
[process-tag]
neighbors
interface-type
interface-number] [area] [detail]
5.
show
clns
area-tag
is-neighbors
[type
number] [detail]
6.
show
isis
[process-tag]
database [level-1] [level-2] [l1] [l2] [detail] [lspid]
7.
show
isis
ipv6
rib
[ipv6-prefix]
DETAILED STEPS
| Command or Action | Purpose | |
|---|---|---|
| Step 1 |
enable
Example: Device> enable |
Enables privileged EXEC mode. |
| Step 2 |
show
ipv6
protocols
[summary]
Example: Device# show ipv6 protocols |
Displays the parameters and current state of the active IPv6 routing processes. |
| Step 3 |
show
isis
[process-tag] [ipv6 |
*]
topology
Example: Device# show isis topology |
Displays a list of all connected routers running IS-IS in all areas. |
| Step 4 |
show
clns
[process-tag]
neighbors
interface-type
interface-number] [area] [detail]
Example: Device# show clns neighbors detail |
Displays end system (ES), intermediate system (IS), and multitopology IS-IS (M-ISIS) neighbors. |
| Step 5 |
show
clns
area-tag
is-neighbors
[type
number] [detail]
Example: Device# show clns is-neighbors detail |
Displays IS-IS adjacency information for IS-IS neighbors. |
| Step 6 |
show
isis
[process-tag]
database [level-1] [level-2] [l1] [l2] [detail] [lspid]
Example: Device# show isis database detail |
Displays the IS-IS link-state database. |
| Step 7 |
show
isis
ipv6
rib
[ipv6-prefix]
Example: Device# show isis ipv6 rib |
Displays the IPv6 local RIB. |
Configuration Examples for IPv6 Routing: IS-IS Support for IPv6
- Example: Customizing IPv6 IS-IS
- Example: Disabling IPv6 Protocol-Support Consistency Checks
- Example: Configuring IS-IS for IPv6
Example: Customizing IPv6 IS-IS
The following example advertises the IPv6 default route (::/0)--with an origin of GigabitEthernet interface 0/0/1--with all other routes in router updates sent on GigabitEthernet interface 0/0/1. This example also sets an administrative distance for IPv6 IS-IS to 90, defines the maximum number of equal-cost paths that IPv6 IS-IS will support as 3, and configures a summary prefix of 2001:DB8::/24 for IPv6 IS-IS.
router isis address-family ipv6 default-information originate distance 90 maximum-paths 3 summary-prefix 2001:DB8::/24 exit
Example: Disabling IPv6 Protocol-Support Consistency Checks
The following example disables the adjacency-check command to allow a network administrator to configure IPv6 IS-IS on the router without disrupting the existing adjacencies:
router isis address-family ipv6 no adjacency-check
Example: Configuring IS-IS for IPv6
In the following example, output information about the parameters and current state of that active IPv6 routing processes is displayed using the show ipv6 protocolscommand:
Device# show ipv6 protocols
IPv6 Routing Protocol is "connected"
IPv6 Routing Protocol is "static"
IPv6 Routing Protocol is "isis"
Interfaces:
GigabitEthernet0/0/3
GigabitEthernet0/0/1
Serial1/0/1
Loopback1 (Passive)
Loopback2 (Passive)
Loopback3 (Passive)
Loopback4 (Passive)
Loopback5 (Passive)
Redistribution:
Redistributing protocol static at level 1
Address Summarization:
L2: 2001:DB8:33::/16 advertised with metric 0
L2: 2001:DB8:44::/16 advertised with metric 20
L2: 2001:DB8:66::/16 advertised with metric 10
L2: 2001:DB8:77::/16 advertised with metric 10
In the following example, output information about all connected routers running IS-IS in all areas is displayed using the show isis topologycommand:
Device# show isis topology IS-IS paths to level-1 routers System Id Metric Next-Hop Interface SNPA 0000.0000.000C 0000.0000.000D 20 0000.0000.00AA Se1/0/1 *HDLC* 0000.0000.000F 10 0000.0000.000F GE0/0/1 0050.e2e5.d01d 0000.0000.00AA 10 0000.0000.00AA Se1/0/1 *HDLC* IS-IS paths to level-2 routers System Id Metric Next-Hop Interface SNPA 0000.0000.000A 10 0000.0000.000A GE0/0/3 0010.f68d.f063 0000.0000.000B 20 0000.0000.000A GE0/0/3 0010.f68d.f063 0000.0000.000C -- 0000.0000.000D 30 0000.0000.000A GE0/0/3 0010.f68d.f063 0000.0000.000E 30 0000.0000.000A GE0/0/3 0010.f68d.f063
In the following example, output information to confirm that the local router has formed all the necessary IS-IS adjacencies with other IS-IS neighbors is displayed using the show clns is-neighborscommand. To display the IPv6 link-local addresses of the neighbors, specify the detail keyword.
Device# show clns is-neighbors detail System Id Interface State Type Priority Circuit Id Format 0000.0000.00AA Se1/0/1 Up L1 0 00 Phase V Area Address(es): 49.0001 IPv6 Address(es): FE80::YYYY:D37C:C854:5 Uptime: 17:21:38 0000.0000.000F Et0/0/1 Up L1 64 0000.0000.000C.02 Phase V Area Address(es): 49.0001 IPv6 Address(es): FE80::XXXX:E2FF:FEE5:D01D Uptime: 17:21:41 0000.0000.000A Et0/0/3 Up L2 64 0000.0000.000C.01 Phase V Area Address(es): 49.000b IPv6 Address(es): FE80::ZZZZ:F6FF:FE8D:F063 Uptime: 17:22:06
In the following example, detailed output information that displays both end system (ES) and intermediate system (IS) neighbors is displayed using the show clns neighbors command with the detail keyword.
Device# show clns neighbors detail System Id Interface SNPA State Holdtime Type Protocol 0000.0000.0007 GE3/3 aa00.0400.6408 UP 26 L1 IS-IS Area Address(es): 20 IP Address(es): 172.16.0.42* Uptime: 00:21:49 0000.0C00.0C35 GE3/2 0000.0c00.0c36 Up 91 L1 IS-IS Area Address(es): 20 IP Address(es): 192.168.0.42* Uptime: 00:21:52 0800.2B16.24EA GE3/3 aa00.0400.2d05 Up 27 L1 M-ISIS Area Address(es): 20 IP Address(es): 192.168.0.42* IPv6 Address(es): FE80::2B0:8EFF:FE31:EC57 Uptime: 00:00:27 0800.2B14.060E GE3/2 aa00.0400.9205 Up 8 L1 IS-IS Area Address(es): 20 IP Address(es): 192.168.0.30* Uptime: 00:21:52
In the following example, detailed output information about LSPs received from other routers and the IPv6 prefixes they are advertising is displayed using the show isis databasecommand with the detail keyword specified:
Device# show isis database detail IS-IS Level-1 Link State Database LSPID LSP Seq Num LSP Checksum LSP Holdtime ATT/P/OL 0000.0C00.0C35.00-00 0x0000000C 0x5696 325 0/0/0 Area Address: 47.0004.004D.0001 Area Address: 39.0001 Metric: 10 IS 0000.0C00.62E6.03 Metric: 0 ES 0000.0C00.0C35 --More-- 0000.0C00.40AF.00-00* 0x00000009 0x8452 608 1/0/0 Area Address: 47.0004.004D.0001 Topology: IPv4 (0x0) IPv6 (0x2) NLPID: 0xCC 0x8E IP Address: 172.16.21.49 Metric: 10 IS 0800.2B16.24EA.01 Metric: 10 IS 0000.0C00.62E6.03 Metric: 0 ES 0000.0C00.40AF IPv6 Address: 2001:DB8::/32 Metric: 10 IPv6 (MT-IPv6) 2001:DB8::/64 Metric: 5 IS-Extended cisco.03 Metric: 10 IS-Extended cisco1.03 Metric: 10 IS (MT-IPv6) cisco.03 IS-IS Level-2 Link State Database: LSPID LSP Seq Num LSP Checksum LSP Holdtime ATT/P/OL 0000.0000.000A.00-00 0x00000059 0x378A 949 0/0/0 Area Address: 49.000b NLPID: 0x8E IPv6 Address: 2001:DB8:1:1:1:1:1:1 Metric: 10 IPv6 2001:DB8:2:YYYY::/64 Metric: 10 IPv6 2001:DB8:3:YYYY::/64 Metric: 10 IPv6 2001:DB8:2:YYYY::/64 Metric: 10 IS-Extended 0000.0000.000A.01 Metric: 10 IS-Extended 0000.0000.000B.00 Metric: 10 IS-Extended 0000.0000.000C.01 Metric: 0 IPv6 11:1:YYYY:1:1:1:1:1/128 Metric: 0 IPv6 11:2:YYYY:1:1:1:1:1/128 Metric: 0 IPv6 11:3:YYYY:1:1:1:1:1/128 Metric: 0 IPv6 11:4:YYYY:1:1:1:1:1/128 Metric: 0 IPv6 11:5:YYYY:1:1:1:1:1/128 0000.0000.000A.01-00 0x00000050 0xB0AF 491 0/0/0 Metric: 0 IS-Extended 0000.0000.000A.00 Metric: 0 IS-Extended 0000.0000.000B.00
The following example shows output from the show isis ipv6 rib command. An asterisk (*) indicates prefixes that have been installed in the master IPv6 RIB as IS-IS routes. Following each prefix is a list of all paths in order of preference, with optimal paths listed first and suboptimal paths listed after optimal paths.
Device# show isis ipv6 rib
IS-IS IPv6 process "", local RIB
2001:DB8:88:1::/64
via FE80::210:7BFF:FEC2:ACC9/GigabitEthernet2/0/0, type L2 metric 20 LSP [3/7]
via FE80::210:7BFF:FEC2:ACCC/GigabitEthernet2/1/0, type L2 metric 20 LSP [3/7]
* 2001:DB8:1357:1::/64
via FE80::202:7DFF:FE1A:9471/GigabitEthernet2/1/0, type L2 metric 10 LSP [4/9]
* 2001:DB8:45A::/64
via FE80::210:7BFF:FEC2:ACC9/GigabitEthernet2/0/0, type L1 metric 20 LSP [C/6]
via FE80::210:7BFF:FEC2:ACCC/GigabitEthernet2/1/0, type L1 metric 20 LSP [C/6]
via FE80::210:7BFF:FEC2:ACC9/GigabitEthernet2/0/0, type L2 metric 20 LSP [3/7]
via FE80::210:7BFF:FEC2:ACCC/GigabitEthernet2/1/0, type L2 metric 20 LSP [3/7]
Additional References
Related Documents
|
Related Topic |
Document Title |
|---|---|
|
IS-IS commands: complete command syntax, command mode, defaults, command history, usage guidelines, and examples |
Cisco IOS IP Routing: ISIS Command Reference |
|
Overview of Cisco IS-IS conceptual information with links to all the individual IS-IS modules |
"Integrated IS-IS Routing Protocol Overview" |
Standards
|
Standard |
Title |
|---|---|
|
No new or modified standards are supported, and support for existing standards has not been modified. |
-- |
RFCs
|
RFC |
Title |
|---|---|
|
No new or modified RFCs are supported, and support for existing RFCs has not been modified. |
-- |
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. |
Feature Information for IPv6 Routing: IS-IS Support for IPv6
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.Feature Name |
Releases |
Feature Information |
|---|---|---|
|
IPv6 Routing: IS-IS Support for IPv6 |
Cisco IOS XE Release 2.4 |
IPv6 enhancements to IS-IS allow IS-IS to advertise IPv6 prefixes in addition to IPv4 and OSI routes. The following commands were introduced or modified: address-family ipv6 (IS-IS), adjacency-check, default-information originate (IPv6 IS-IS), distance (IPv6), ipv6 router isis , isis ipv6 metric, maximum-paths (IPv6), prc-interval (IPv6), router isis , show clns neighbors, show ipv6 protocols, show isis database, show isis topology, spf-interval, summary-prefix (IPv6 IS-IS). |
|
IPv6 ISIS Local RIB |
Cisco IOS XE Release 2.6 |
A router that is running IS-IS IPv6 maintains a local RIB in which it stores all routes to destinations it has learned from its neighbors. The following command was introduced: show isis ipv6 rib. |
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