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- Table of Contents
-
- 06-Layer 3 - IP Routing Command Reference
- 00-Preface
- 01-Basic IP routing commands
- 02-Static routing commands
- 03-RIP commands
- 04-OSPF commands
- 05-IS-IS commands
- 06-BGP commands
- 07-Policy-based routing commands
- 08-IPv6 static routing commands
- 09-RIPng commands
- 10-OSPFv3 commands
- 11-IPv6 IS-IS commands
- 12-IPv6 policy-based routing commands
- 13-Routing policy commands
- 14-DCN commands
- Related Documents
-
| Title | Size | Download |
|---|---|---|
| 05-IS-IS commands | 403.02 KB |
display isis event-log graceful-restart
display isis event-log non-stop-routing
display isis graceful-restart status
display isis non-stop-routing status
domain-authentication send-only
import-route isis level-1 into level-2
import-route isis level-2 into level-1
isis fast-reroute lfa-backup exclude
reset isis event-log graceful-restart
reset isis event-log non-stop-routing
IS-IS commands
address-family ipv4
Use address-family ipv4 to create the IS-IS IPv4 address family and enter its view.
Use undo address-family ipv4 to delete the IS-IS IPv4 address family and all configurations in the view.
Syntax
address-family ipv4 [ unicast ]
undo address-family ipv4 [ unicast ]
Default
No IS-IS IPv4 address family exists.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
unicast: Specifies the unicast address family (the default).
Examples
# Create the IS-IS IPv4 address family and enter its view.
<Sysname> system-view
[Sysname] isis 100
[Sysname-isis-100] address-family ipv4
[Sysname-isis-100-ipv4]
area-authentication send-only
Use area-authentication send-only to configure IS-IS not to check the authentication information in the received Level-1 packets, including LSPs, CSNPs, and PSNPs.
Use undo area-authentication send-only to restore the default.
Syntax
area-authentication send-only
undo area-authentication send-only
Default
When area authentication mode and key are configured, a Level-1 or Level-1-2 router checks the authentication information in the received packets.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
When area authentication mode and key are configured, a Level-1 or Level-1-2 router adds the key in the specified mode into transmitted Level-1 packets (including LSPs, CSNPs, and PSNPs). It also checks the key in the received Level-1 packets.
To prevent packet exchange failure in case of an authentication key change, configure IS-IS not to check the authentication information in the received packets.
Examples
# Configure IS-IS not to check the authentication information in the received packets.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] area-authentication send-only
Related commands
area-authentication-mode
domain-authentication send-only
isis authentication send-only
area-authentication-mode
Use area-authentication-mode to specify an area authentication mode and a key.
Use undo area-authentication-mode to restore the default.
Syntax
area-authentication-mode { { gca key-id { hmac-sha-1 | hmac-sha-224 | hmac-sha-256 | hmac-sha-384 | hmac-sha-512 } [ nonstandard ] | md5 | simple } { cipher | plain } string | keychain keychain-name } [ ip | osi ]
Default
No area authentication mode or key is configured.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
gca: Specifies the Generic Cryptographic Authentication (GCA) mode.
key-id: Uniquely identifies an SA in the range of 1 to 65535. The sender inserts the Key ID into the authentication TLV, and the receiver authenticates the packet by using the SA that is selected based on the Key ID.
hmac-sha-1: Specifies the HMAC-SHA-1 algorithm.
hmac-sha-224: Specifies the HMAC-SHA-224 algorithm.
hmac-sha-256: Specifies the HMAC-SHA-256 algorithm.
hmac-sha-384: Specifies the HMAC-SHA-384 algorithm.
hmac-sha-512: Specifies the HMAC-SHA-512 algorithm.
nonstandard: Specifies the nonstandard GCA mode.
md5: Specifies the MD5 authentication mode.
simple: Specifies the simple authentication mode.
cipher: Specifies a key in encrypted form.
plain: Specifies a key in plaintext form. For security purposes, the key specified in plaintext form will be stored in encrypted form.
string: Specifies the key. Its plaintext form is a case-sensitive string of 1 to 16 characters. Its encrypted form is a case-sensitive string of 33 to 53 characters.
keychain: Specifies the keychain authentication mode.
keychain-name: Specifies a keychain by its name, a case-sensitive string of 1 to 63 characters.
ip: Checks IP-related fields in LSPs.
osi: Checks OSI-related fields in LSPs.
Area authentication enables IS-IS to discard routes from untrusted routers.
The key in the specified mode is inserted into all outbound Level-1 packets (LSP, CSNP, and PSNP) and is used to authenticate inbound Level-1 packets.
IS-IS keychain authentication can operate correctly only when the keys in the keychain use the HMAC-MD5 authentication algorithm.
· Before IS-IS sends a Level-1 packet, it uses the valid send key obtained from the keychain to authenticate the packet. If no valid send key exists or the valid send key does not use the HMAC-MD5 algorithm, the authentication fails and the packet does not contain authentication information.
· After IS-IS receives a Level-1 packet, it uses a valid accept key obtained from the keychain to authenticate the packet. If no valid accept key exists or all valid accept keys fail to authenticate the packet, the authentication fails and the packet is discarded.
Routers in an area must have the same authentication mode and key.
If neither ip nor osi is specified, OSI-related fields are checked.
When you specify the GCA mode, follow these guidelines:
· If you do not specify the nonstandard keyword, the device can communicate only with devices that use the GCA mode.
· If you specify the nonstandard keyword, the device can communicate only with devices that use the nonstandard GCA mode.
Examples
# Set the area authentication mode to simple, and set the plaintext key to 123456.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] area-authentication-mode simple plain 123456
Related commands
area-authentication send-only
domain-authentication-mode
isis authentication-mode
auto-cost enable
Use auto-cost enable to enable automatic link cost calculation.
Use undo auto-cost enable to disable automatic link cost calculation.
Syntax
auto-cost enable
undo auto-cost enable
Default
Automatic link cost calculation is disabled.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
After automatic link cost calculation is enabled, the link cost is automatically calculated based on the bandwidth reference value of an interface. When the cost-style is wide or wide-compatible, the cost value of an interface is calculated by using the following formula: Cost = (Reference bandwidth value / Link bandwidth) × 10. For other cost styles, Table 1 applies.
Table 1 Automatic cost calculation scheme for cost styles other than wide and wide-compatible
|
Interface bandwidth |
Cost |
|
≤10 Mbps |
60 |
|
≤100 Mbps |
50 |
|
≤155 Mbps |
40 |
|
≤622 Mbps |
30 |
|
≤2500 Mbps |
20 |
|
>2500 Mbps |
10 |
Examples
# Enable automatic link cost calculation for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] auto-cost enable
Related commands
bandwidth-reference
cost-style
isis cost
bandwidth-reference
Use bandwidth-reference to set the bandwidth reference value for automatic link cost calculation.
Use undo bandwidth-reference to restore the default.
Syntax
bandwidth-reference value
undo bandwidth-reference
Default
The bandwidth reference value is 100 Mbps.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
value: Specifies the bandwidth reference value in the range of 1 to 2147483648 Mbps.
Examples
# Set the bandwidth reference of IS-IS process 1 to 200 Mbps.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] bandwidth-reference 200
Related commands
auto-cost enable
isis cost
circuit-cost
Use circuit-cost to set a global IS-IS link cost.
Use undo circuit-cost to remove the configuration.
Syntax
circuit-cost cost-value [ level-1 | level-2 ]
undo circuit-cost [ level-1 | level-2 ]
Default
No global link cost is configured.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
cost-value: Specifies the link cost value. The value range varies by cost style.
· For styles narrow, narrow-compatible, and compatible, the cost value is in the range of 0 to 63.
· For styles wide and wide-compatible, the cost value is in the range of 0 to 16777215.
level-1: Applies the link cost to Level-1.
level-2: Applies the link cost to Level-2.
Usage guidelines
If no level is specified, the specified cost applies to both Level-1 and Level-2.
Examples
# Set the global Level-1 link cost to 11 for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] circuit-cost 11 level-1
Related commands
cost-style
isis cost
cost-style
Use cost-style to set a cost style.
Use undo cost-style to restore the default.
Syntax
cost-style { narrow | wide | wide-compatible | { compatible | narrow-compatible } [ relax-spf-limit ] }
undo cost-style
Default
The IS-IS cost style is narrow.
Views
Predefined user roles
network-admin
mdc-admin
Parameters
narrow: Receives and sends only narrow cost style packets. The narrow cost is in the range of 0 to 63.
wide: Receives and sends only wide cost style packets. The wide cost is in the range of 0 to 16777215.
compatible: Receives and sends both wide and narrow cost style packets.
narrow-compatible: Receives both narrow and wide cost style packets, but sends only narrow cost style packets.
wide-compatible: Receives both narrow and wide cost style packets, but sends only wide cost style packets.
relax-spf-limit: Allows receiving routes with a cost greater than 1023. If you do not specify this keyword, routes with a cost bigger than 1023 will be discarded. This keyword is available only when compatible or narrow-compatible is used.
Examples
# Configure the router to send only narrow cost style packets, but receive both narrow and wide cost style packets.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] cost-style narrow-compatible
Related commands
circuit-cost
isis cost
default-route-advertise
Use default-route-advertise to advertise a default route of 0.0.0.0/0.
Use undo default-route-advertise to restore the default.
Syntax
default-route-advertise [ avoid-learning | [ level-1 | level-1-2 | level-2 ] | route-policy route-policy-name | tag tag ] *
undo default-route-advertise
Default
Default route advertisement is disabled.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
avoid-learning: Avoids learning the default route received in LSPs or generated by using the ATT bit to avoid routing loops.
level-1: Advertises a Level-1 default route.
level-1-2: Advertises both Level-1 and Level-2 default routes.
level-2: Advertises a Level-2 default route.
route-policy route-policy-name: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters.
tag tag: Specifies the tag value for the default route, in the range of 1 to 4294967295.
Usage guidelines
If no level is specified, a Level-2 default route is advertised.
The Level-1 default route is advertised to other routers in the same area, and the Level-2 default route is advertised to all the Level-2 and Level-1-2 routers.
You can use a routing policy to specify a level for the default route. The apply isis level-1 command in routing policy view can generate a Level-1 default route. The apply isis level-2 command in routing policy view can generate a Level-2 default route. The apply isis level-1-2 command in routing policy view can generate both a Level-1 default route and Level-2 default route.
The tag value specified in the routing policy takes precedence over the tag value specified in this command.
Examples
# Configure IS-IS process 1 to advertise a Level-2 default route.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] default-route-advertise
display isis
Use display isis to display configuration information for an IS-IS process.
Syntax
display isis [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
process-id: Specifies a process by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays configuration information for all IS-IS processes.
Examples
# Display IS-IS configuration information.
<Sysname> display isis
IS-IS(1) Protocol Information
Network-entity : 10.0000.0000.0001.00
IS-level : level-1-2
Cost-style : Wide
Fast reroute : Disabled
Preference : 15
LSP-length receive : 1497
LSP-length originate
level-1 : 1497
level-2 : 1497
Maximum imported routes : 1000
Timers
LSP-max-age : 1200
LSP-refresh : 900
SPF intervals : 5 50 200
IPv6 enabled
Fast reroute : Disabled
Preference : 15
Maximum imported routes : 1000
SPF intervals : 5 50 200
Table 2 Command output
|
Field |
Description |
|
Network-entity |
Network entity name. |
|
IS-level |
IS-IS routing level. |
|
Cost-style |
Cost style. |
|
Fast-reroute |
IS-IS FRR status: · Disabled—IS-IS FRR is disabled. · LFA—IS-IS FRR automatically calculates a backup next hop. · Route-policy—IS-IS FRR specifies a backup next hop by using a routing policy. |
|
Preference |
IS-IS route preference. |
|
LSP-length receive |
Maximum LSP that can be received. |
|
LSP-length originate |
Maximum LSP that can be generated. |
|
Maximum imported routes |
Maximum number of redistributed Level-1/Level-2 IPv4/IPv6 routes. |
|
Timers |
Timers: · LSP-max-age—Maximum life period of LSPs. · LSP-refresh—Refresh interval of LSPs. · SPF intervals—Interval between SPF calculations. |
|
IPv6 enabled |
IPv6 is enabled. |
display isis event-log graceful-restart
Use display isis event-log graceful-restart to display IS-IS GR log information.
Syntax
In standalone mode:
display isis event-log graceful-restart slot slot-number
In IRF mode:
display isis event-log graceful-restart chassis chassis-number slot slot-number
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
slot slot-number: Specifies a card by its slot number. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument specifies the ID of the IRF member device. The slot-number argument specifies the slot number of the card. (In IRF mode.)
Examples
# (In standalone mode.) Display IS-IS GR log information for the specified slot.
<Sysname> display isis event-log graceful-restart slot 1
IS-IS loginfo :
Sep 18 08:48:24 2015 slot 1 Process 1 enter GR restarting phase(Initialization).
Sep 18 08:48:24 2015 slot 1 Process 1 enter GR phase (LSDB synchronization).
Sep 18 08:48:24 2015 slot 1 Process 1 enter GR phase (TE tunnel prepare).
Sep 18 08:48:24 2015 slot 1 Process 1 enter GR phase (First SPF computation).
Sep 18 08:48:25 2015 slot 1 Process 1 enter GR phase (Redistribution).
Sep 18 08:48:25 2015 slot 1 Process 1 enter GR phase (Second SPF computation).
Sep 18 08:48:25 2015 slot 1 Process 1 enter GR phase (LSP stability).
Sep 18 08:48:25 2015 slot 1 Process 1 enter GR phase (LSP generation).
Sep 18 08:48:25 2015 slot 1 Process 1 enter GR phase (Finish).
Sep 18 08:48:25 2015 slot 1 Process 1 GR complete.
Table 3 Command output
|
Field |
Description |
|
GR phase |
GR phase: · Initialization. · LSDB synchronization. · TE tunnel prepare—Preparing for TE tunnel computation. · First SPF computation. · Redistribution. · Second SPF computation. · LSP stability—Ready to generate LSPs. · LSP generation. · Finish. |
display isis event-log lsp
Use display isis event-log lsp to display IS-IS LSP log information.
Syntax
display isis event-log lsp [ level-1 | level-2 ] * [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
level-1: Displays Level-1 LSP log information.
level-2: Displays Level-2 LSP log information.
process-id: Specifies a process by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays LSP log information for all IS-IS processes.
Usage guidelines
If you do not specify a level, the command displays both Level-1 and Level-2 LSP log information.
Examples
# Display IS-IS LSP log information.
<Sysname> display isis event-log lsp
LSP Log for IS-IS(1)
--------------------
Level-1 LSP Log
---------------
Date Time LSPID Seq Num Event
-------------------------------------------------------------------------------
2015-11-06 11:10:45 1111.1111.1111.00-00 0x0000019c LSP received
2015-11-06 09:26:40 1111.1111.1111.01-00 0x00000111 Purged LSP received
2015-11-06 09:26:28 2222.2222.2222.00-00 0x00000181 LSP generated
2015-11-06 09:26:21 2222.2222.2222.00-00 0x00000180 Purged LSP generated
Level-2 SPF Log
---------------
Date Time LSPID Seq Num Event
-------------------------------------------------------------------------------
2015-11-06 11:10:45 1111.1111.1111.00-00 0x0000090d LSP received
2015-11-06 09:26:41 1111.1111.1111.01-00 0x00000101 Purged LSP received
2015-11-06 09:26:27 2222.2222.2222.00-00 0x00000171 LSP generated
2015-11-06 09:26:20 2222.2222.2222.00-00 0x00000170 Purged LSP generated
Table 4 Command output
|
Field |
Description |
|
Date |
Date of the LSP change. |
|
Time |
Time of the LSP change. |
|
LSPID |
LSP ID. |
|
Seq Num |
LSP sequence number. |
|
Event |
LSP change event: · LSP received. · Purged LSP received. · LSP generated. · Purged LSP generated. |
Related commands
reset isis event-log lsp
display isis event-log non-stop-routing
Use display isis event-log non-stop-routing to display IS-IS NSR log information.
Syntax
In standalone mode:
display isis event-log non-stop-routing slot slot-number
In IRF mode:
display isis event-log non-stop-routing chassis chassis-number slot slot-number
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
slot slot-number: Specifies a card by its slot number. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument specifies the ID of the IRF member device. The slot-number argument specifies the slot number of the card. (In IRF mode.)
Examples
# (In standalone mode.) Display IS-IS NSR log information for the specified slot.
<Sysname> display isis event-log non-stop-routing slot 1
IS-IS loginfo :
Sep 18 10:20:44 2015 slot 1 Enter HA Block status
Sep 18 10:20:44 2015 slot 1 Exit HA Block status
Sep 18 10:24:00 2015 slot 1 Process 100 enter NSR phase (Initialization).
Sep 18 10:24:00 2015 slot 1 Process 100 enter NSR phase (Smooth).
Sep 18 10:24:00 2015 slot 1 Process 100 enter NSR phase (TE tunnel prepare).
Sep 18 10:24:00 2015 slot 1 Process 100 enter NSR phase (First SPF computation).
Sep 18 10:24:00 2015 slot 1 Process 100 enter NSR phase (Redistribution).
Sep 18 10:24:00 2015 slot 1 Process 100 enter NSR phase (Second SPF computation).
Sep 18 10:24:00 2015 slot 1 Process 100 enter NSR phase (LSP stability).
Sep 18 10:24:00 2015 slot 1 Process 100 enter NSR phase (LSP generation).
Sep 18 10:24:00 2015 slot 1 Process 100 enter NSR phase (Finish).
Sep 18 10:24:00 2015 slot 1 Process 100 NSR complete.
Table 5 Command output
|
Field |
Description |
|
NSR phase |
NSR phase: · Initialization. · Smooth. · TE tunnel prepare—Preparing for TE tunnel computation. · First SPF computation. · Redistribution. · Second SPF computation. · LSP stability—Ready to generate LSPs. · LSP generation. · Finish. |
display isis event-log spf
Use display isis event-log spf to display IS-IS route calculation log information.
Syntax
display isis event-log spf [ ipv4 ] [ [ level-1 | level-2 ] | verbose ] * [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
ipv4: Displays IS-IS IPv4 route calculation log information. If you do not specify this keyword, the command displays IS-IS IPv4 route calculation log information for the public network.
level-1: Displays Level-1 route calculation log information.
level-2: Displays Level-2 route calculation log information.
verbose: Displays detailed route calculation log information. If you do not specify this keyword, the command displays brief route calculation log information.
process-id: Specifies a process by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays route calculation log information for all IS-IS processes.
Usage guidelines
If you do not specify a level, the command displays both Level-1 and Level-2 route calculation log information.
Examples
# Display brief IS-IS route calculation log information.
<Sysname> display isis event-log spf
SPF Log for IS-IS(1)
--------------------
Level-1 SPF Log
---------------
Date Time Duration Count Trigger event
-------------------------------------------------------------------------------
2015-09-07 11:10:45 0 4 Interface metric changed
2015-09-07 09:26:40 0 4 LSP updated
2015-09-07 09:26:28 0 2 DIS changed
2015-09-07 09:26:21 0.001 2 LSP updated
2015-09-07 09:26:07 0.001 3 Direct route changed
Level-2 SPF Log
---------------
Date Time Duration Count Trigger event
-------------------------------------------------------------------------------
2015-09-07 11:10:45 0 4 Interface metric changed
2015-09-07 09:26:40 0 4 LSP updated
2015-09-07 09:26:28 0 2 DIS changed
2015-09-07 09:26:21 0 2 LSP updated
2015-09-07 09:26:07 0 3 Direct route changed
# Display detailed IS-IS route calculation log information.
<Sysname> display isis event-log spf verbose
SPF Log for IS-IS(1)
--------------------
Level-1 SPF Log
---------------
Log date : 2015-09-07 11:10:45
Log key : 5
Trigger count : 4
Trigger event : Interface metric changed
SPF details :
Phase Duration Description
TE tunnel ADJ 0 TE SPF nodes: 0
Topology 0 SPF nodes: 3
BSPF 0 Candidate NBRs: 1
LFA 0 LFA SPF nodes: 1
Area 0 Area addresses: 1
PRC 0 Add: 0 modify: 1 delete: 0
Last 10 routes:
1.1.1.0/24
Route summary 0 Summary route nodes: 0
Total 0
Log date : 2015-09-07 09:26:40
Log key : 4
Trigger count : 4
Trigger event : LSP updated
SPF details :
Phase Duration Description
TE tunnel ADJ 0 TE SPF nodes: 0
Topology 0 SPF nodes: 3
BSPF 0 Candidate NBRs: 1
LFA 0 LFA SPF nodes: 1
Area 0 Area addresses: 1
PRC 0 Add: 0 modify: 0 delete: 0
Route summary 0 Summary route nodes: 0
Total 0
Log date : 2015-09-07 09:26:28
Log key : 3
Trigger count : 2
Trigger event : DIS changed
SPF details :
Phase Duration Description
TE tunnel ADJ 0 TE SPF nodes: 0
Topology 0 SPF links changed: 1
BSPF 0 Candidate NBRs: 0
LFA 0 LFA SPF nodes: 0
Area 0 Area addresses: 0
PRC 0 Add: 0 modify: 0 delete: 0
Route summary 0 Summary route nodes: 0
Total 0
Log date : 2015-09-07 09:26:21
Log key : 2
Trigger count : 2
Trigger event : LSP updated
SPF details :
Phase Duration Description
TE tunnel ADJ 0 TE SPF nodes: 0
Topology 0 SPF nodes: 0
BSPF 0 Candidate NBRs: 0
LFA 0 LFA SPF nodes: 0
Area 0 Area addresses: 1
PRC 0.001 Add: 0 modify: 0 delete: 0
Route summary 0 Summary route nodes: 0
Total 0.001
Log date : 2015-09-07 09:26:07
Log key : 1
Trigger count : 3
Trigger event : Direct route changed
SPF details :
Phase Duration Description
TE tunnel ADJ 0 TE SPF nodes: 0
Topology 0 SPF nodes: 0
BSPF 0 Candidate NBRs: 0
LFA 0 LFA SPF nodes: 0
Area 0 Area addresses: 1
PRC 0.001 Add: 1 modify: 0 delete: 0
Last 10 routes:
1.1.1.0/24
Route summary 0 Summary route nodes: 0
Total 0.001
Level-2 SPF Log
---------------
Log date : 2015-09-07 11:10:45
Log key : 5
Trigger count : 4
Trigger event : Interface metric changed
SPF details :
Phase Duration Description
TE tunnel ADJ 0 TE SPF nodes: 0
Topology 0 SPF nodes: 3
BSPF 0 Candidate NBRs: 1
LFA 0 LFA SPF nodes: 1
Area 0 Area addresses: 1
PRC 0 Add: 0 modify: 0 delete: 0
Route summary 0 Summary route nodes: 0
Total 0
Log date : 2015-09-07 09:26:40
Log key : 4
Trigger count : 4
Trigger event : LSP updated
SPF details :
Phase Duration Description
TE tunnel ADJ 0 TE SPF nodes: 0
Topology 0 SPF nodes: 3
BSPF 0 Candidate NBRs: 1
LFA 0 LFA SPF nodes: 1
Area 0 Area addresses: 1
PRC 0 Add: 0 modify: 0 delete: 0
Route summary 0 Summary route nodes: 0
Total 0
Log date : 2015-09-07 09:26:28
Log key : 3
Trigger count : 2
Trigger event : DIS changed
SPF details :
Phase Duration Description
TE tunnel ADJ 0 TE SPF nodes: 0
Topology 0 SPF links changed: 1
BSPF 0 Candidate NBRs: 0
LFA 0 LFA SPF nodes: 0
Area 0 Area addresses: 0
PRC 0 Add: 0 modify: 0 delete: 0
Route summary 0 Summary route nodes: 0
Total 0
Log date : 2015-09-07 09:26:21
Log key : 2
Trigger count : 2
Trigger event : LSP updated
SPF details :
Phase Duration Description
TE tunnel ADJ 0 TE SPF nodes: 0
Topology 0 SPF nodes: 0
BSPF 0 Candidate NBRs: 0
LFA 0 LFA SPF nodes: 0
Area 0 Area addresses: 1
PRC 0 Add: 0 modify: 0 delete: 0
Route summary 0 Summary route nodes: 0
Total 0
Log date : 2015-09-07 09:26:07
Log key : 1
Trigger count : 3
Trigger event : Direct route changed
SPF details :
Phase Duration Description
TE tunnel ADJ 0 TE SPF nodes: 0
Topology 0 SPF nodes: 0
BSPF 0 Candidate NBRs: 0
LFA 0 LFA SPF nodes: 0
Area 0 Area addresses: 1
PRC 0 Add: 0 modify: 0 delete: 0
Route summary 0 Summary route nodes: 0
Total 0
Table 6 Command output
|
Field |
Description |
|
Date |
Start date of route calculation. |
|
Time |
Start time of route calculation. |
|
Duration |
Route calculation duration in seconds. The value is accurate to six decimal places. |
|
Count |
Number of events that trigger the current route calculation. |
|
Trigger event |
Type of the most recent event that triggers route calculation: · NextHop changed. · DIS changed. · Interface metric changed. · SPF link changed. · Default route changed. · Summary route changed. · TE tunnel updated. · TE tunnel metric changed. · IPv6 mode changed. · FRR configuration changed. · Prefix priority configuration changed. · Route preference changed. · ISPF configuration changed. · Import filter policy changed. · ECMP configuration changed. · PIC configuration changed. · Interface LFA exclude changed. · ATT configuration changed. · GR/NSR first SPF. · GR over. · T3 timeout. · Direct route changed. · Logic interface changed. · Route leakage configuration changed. · NSR over. · Entered overload state. · Exited overload state. · Area address changed. · Route policy changed. · Redistributed route updated. · LSP updated. · MT disabled. · MT enabled. · TE tunnel configuration changed. · TE tunnel destination changed. · RIB smooth. |
|
Log date |
Generation time of the route calculation logs. |
|
Log key |
Route calculation log key. |
|
Trigger count |
Number of events that trigger the current route calculation. |
|
SPF details |
Detailed information about the route calculation phases. |
|
Phase |
Route calculation phase: · TE tunnel ADJ—TE tunnel adjacency calculation. · Topology—Topology calculation. · BSPF—Backup SPF calculation. · LFA—LFA calculation. · Area—Area calculation. · PRC—Prefix calculation. · Route summary—Route summarization calculation. |
|
Description |
Route calculation phase description: · TE SPF nodes—Number of SPF nodes for TE tunnel adjacency calculation. · SPF nodes—Number of SPF nodes for topology calculation. · Candidate NBRs—Number of candidate neighbors. · LFA SPF nodes—Number of SPF nodes for LFA calculation. · Area addresses—Number of area addresses. · Add, modify, and delete—Prefix calculation summary. · Last 10 routes—10 routes that are most recently calculated. · Summary route nodes—Number of summarized routes. |
|
Total |
Total duration time of all route calculation phases. |
Related commands
reset isis event-log spf
display isis graceful-restart status
Use display isis graceful-restart status to display IS-IS GR state.
Syntax
display isis graceful-restart status [ level-1 | level-2 ] [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
level-1: Displays the IS-IS Level-1 GR state.
level-2: Displays the IS-IS Level-2 GR state.
process-id: Specifies a process by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays GR state of all IS-IS processes.
Examples
# Display IS-IS GR state.
<Sysname> display isis graceful-restart status
Restart information for IS-IS(1)
--------------------------------
Restart status: COMPLETE
Restart phase: Finish
Restart t1: 3, count 10; Restart t2: 60; Restart t3: 300
SA Bit: supported
Level-1 restart information
---------------------------
Total number of interfaces: 1
Number of waiting LSPs: 0
Level-2 restart information
---------------------------
Total number of interfaces: 1
Number of waiting LSPs: 0
Table 7 Command output
|
Field |
Description |
|
Restart status |
Current GR state: · RESTARTING—In this state, forwarding can be ensured. · STARTING—In this state, forwarding cannot be ensured. · COMPLETE—GR is completed. |
|
Restart phase |
Current Restart phase: · Initialization. · LSDB synchronization. · First SPF computation. · Redistribution. · Second SPF computation. · LSP stability—Ready to generate LSPs. · LSP generation. · Finish. |
|
Restart t1 |
T1 timer, in seconds. |
|
count |
Number of T1 timer expirations. |
|
Restart t2 |
T2 timer, in seconds. |
|
Restart t3 |
T3 timer, in seconds. |
|
SA Bit |
Whether SA is supported. |
|
Total number of interfaces |
Total number of IS-IS interfaces. |
|
Number of waiting LSPs |
Number of LSPs not obtained by the GR restarter from GR helpers during LSDB synchronization. |
display isis interface
Use display isis interface to display IS-IS interface information.
Syntax
display isis interface [ [ interface-type interface-number ] [ verbose ] | statistics ] [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
interface-type interface-number: Displays information for a specified IS-IS interface. If you do not specify this argument, the command displays information about all interfaces.
verbose: Displays detailed information about an interface. If you do not specify this keyword, the command displays brief information about an interface.
statistics: Displays IS-IS interface statistics.
process-id: Displays IS-IS interface information for an IS-IS process specified by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays interface information for all IS-IS processes.
Examples
# Display brief IS-IS interface information.
<Sysname> display isis interface
Interface information for IS-IS(1)
----------------------------------
Interface: Vlan-interface100
Index IPv4 state IPv6 state CircuitID MTU Type DIS
00001 Up Down 1 1497 L1/L2 No/No
# Display detailed IS-IS interface information.
<Sysname> display isis interface verbose
Interface information for IS-IS(1)
----------------------------------
Interface: Vlan-interface100
Index IPv4 state IPv6 state CircuitID MTU Type DIS
00001 Up Down 1 1497 L1/L2 No/No
SNPA address : 000c-29e8-1bd5
IP address : 192.168.220.10
Secondary IP address(es) :
IPv6 link-local address :
Extended circuit ID : 1
CSNP timer value : L1 10 L2 10
Hello timer value : 10
Hello multiplier value : 3
LSP timer value : L12 33
LSP transmit-throttle count : L12 5
Cost : L1 100 L2 100
IPv6 cost : L1 10 L2 10
Priority : L1 64 L2 64
Retransmit timer value : L12 5
LDP state : L1 Init L2 No-LDP
LDP sync state : L1 Init L2 Achieved
MPLS TE status : L1 Disabled L2 Disabled
IPv4 BFD : Disabled
IPv6 BFD : Disabled
IPv4 FRR LFA backup : Enabled
IPv6 FRR LFA backup : Enabled
IPv4 prefix-suppression : Disabled
IPv6 prefix-suppression : Disabled
IPv4 tag : 1
IPv6 tag : 4294967295
IPv4 primary path detection mode: BFD ctrl
IPv6 primary path detection mode: BFD ctrl
Table 8 Command output
|
Field |
Description |
|
Interface |
Interface type and number. |
|
Index |
Interface index. |
|
IPv4 state |
IPv4 state. |
|
IPv6 state |
IPv6 state. |
|
CircuitID |
Circuit ID. |
|
MTU |
Interface MTU. |
|
Type |
Interface link adjacency type. |
|
DIS |
Indicates whether the interface is elected as the DIS. In a P2P network, this field displays a hyphen (-) because DIS election is not performed. |
|
SNPA address |
Subnet access point address. |
|
IP address |
Primary IP address. |
|
Secondary IP address(es) |
Secondary IP addresses. |
|
IPv6 link-local address |
IPv6 link local address. |
|
Extended circuit ID |
Extended circuit ID for a P2P link. |
|
CSNP timer value |
Interval for sending CSNP packets. |
|
Hello timer value |
Interval for sending Hello packets. |
|
Hello multiplier value |
Number of invalid Hello packets. |
|
LSP timer value |
Minimum interval for sending LSP packets. |
|
LSP transmit-throttle count |
Number of LSP packets sent each time. |
|
Cost |
Cost of the interface. |
|
IPv6 cost |
IPv6 link cost of the interface. |
|
Priority |
DIS priority. |
|
Retransmit timer value |
Retransmission interval for LSPs on a P2P link. |
|
MPLS TE status |
MPLS TE status: Enabled or Disabled. |
|
LDP state |
LDP state: · Init—LDP is not reported. · No-LDP—LDP is not configured. · Not ready—LDP session is not established. · Ready—LDP session is established. |
|
LDP sync state |
LDP synchronization state: · Init—Initialized. · Achieved—Synchronized. · Max cost—Maintain the maximum cost. |
|
IPv4 BFD |
Whether BFD for IS-IS is enabled: · Disabled. · Enabled. |
|
IPv6 BFD |
Whether BFD for IPv6 IS-IS is enabled: · Disabled. · Enabled. |
|
IPv4 FRR LFA backup |
Whether LFA calculation is enabled for IPv4 FRR: · Disabled. · Enabled. |
|
IPv6 FRR LFA backup |
Whether LFA calculation is enabled for IPv6 FRR: · Disabled. · Enabled. |
|
IPv4 prefix-suppression |
Whether IPv4 IS-IS prefix suppression is enabled: · Disabled. · Enabled. |
|
IPv6 prefix-suppression |
Whether IPv6 IS-IS prefix suppression is enabled: · Disabled. · Enabled. |
|
IPv4 tag |
IPv4 tag value of the interface. |
|
IPv6 tag |
IPv6 tag value of the interface. |
|
IPv4 primary path detection mode |
IPv4 primary path detection mode: · BFD ctrl—BFD control packet mode. · BFD echo—BFD echo packet mode. |
|
IPv6 primary path detection mode |
IPv6 primary path detection mode: · BFD ctrl—BFD control packet mode. · BFD echo—BFD echo packet mode. |
# Display IS-IS interface statistics.
<Sysname> display isis interface statistics
Interface statistics information for IS-IS(1)
--------------------------------------------
Type IPv4 up/down IPv6 up/down
LAN 1/0 0/0
P2P 0/0 0/0
Table 9 Command output
|
Field |
Description |
|
Type |
Network type of the interface: · LAN—Broadcast network. · P2P—Point-to-point network. |
|
IPv4 up |
Number of IS-IS interfaces in up state. |
|
IPv4 down |
Number of IS-IS interfaces in down state. |
|
IPv6 up |
Number of IS-ISv6 interfaces in up state. |
|
IPv6 down |
Number of IS-ISv6 interfaces in down state. |
display isis lsdb
Use display isis lsdb to display IS-IS LSDB information.
Syntax
display isis lsdb [ [ level-1 | level-2 ] | local | [ lsp-id lspid | lsp-name lspname ] | verbose ] * [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
level-1: Displays the level-1 LSDB.
level-2: Displays the level-2 LSDB.
local: Displays LSP information generated locally.
lsp-id lspid: Specifies an LSP ID, in the form of sysID. Pseudo ID-fragment num, where sysID represents the originating node or pseudo node. Pseudo ID is separated by a dot from sysID and by a hyphen from fragment num.
lsp-name lspname: Specifies the LSP name, in the form of Symbolic name.Pseudo ID-fragment num, where Pseudo ID is separated by a dot from Symbolic name and by a hyphen from fragment num. If the Pseudo ID is 0, specify the LSP name in the form Symbolic name-fragment num.
verbose: Displays LSDB detailed information. If you do not specify this keyword, the command displays brief information about LSDB.
process-id: Specifies an IS-IS process by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays LSDBs for all IS-IS processes.
Usage guidelines
If no level is specified, the command displays both Level-1 and Level-2 LSDB information.
Examples
# Display brief Level-1 LSDB information.
<Sysname> display isis lsdb level-1
Database information for IS-IS(1)
--------------------------------
Level-1 Link State Database
---------------------------
LSPID Seq Num Checksum Holdtime Length ATT/P/OL
-------------------------------------------------------------------------------
0000.0000.0001.00-00* 0x00000087 0xf846 1152 183 0/0/0
0000.0000.0003.00-00 0x00000005 0x4bee 520 177 0/0/0
0000.0000.0003.00-01 0x00000004 0x7245 520 45 0/0/0
0000.0000.0011.00-00 0x0000000b 0xcdf6 815 183 0/0/0
*-Self LSP, +-Self LSP(Extended), ATT-Attached, P-Partition, OL-Overload
# Display detailed Level-1 LSDB information.
<Sysname> display isis lsdb level-1 verbose
Database information for IS-IS(1)
--------------------------------
Level-1 Link State Database
---------------------------
LSPID Seq Num Checksum Holdtime Length ATT/P/OL
-------------------------------------------------------------------------------
0000.0000.0001.00-00* 0x00000080 0x73f 1185 183 0/0/0
Source 0000.0000.0001.00
NLPID IPv4
Area address 10
IPv4 address 192.168.220.10
MT ID 0000 (-/-)
MT ID 0002 (-/-)
MT ID 0006 (-/-)
+NBR ID
0000.0000.0011.00 Cost: 100
Admin group: 0x00000000
Physical bandwidth: 12500000 bytes/sec
Reservable bandwidth: 0 bytes/sec
Unreserved bandwidth for each TE class:
TE class 0: 0 bytes/sec TE class 1: 0 bytes/sec
TE class 2: 0 bytes/sec TE class 3: 0 bytes/sec
TE class 4: 0 bytes/sec TE class 5: 0 bytes/sec
TE class 6: 0 bytes/sec TE class 7: 0 bytes/sec
TE class 8: 0 bytes/sec TE class 9: 0 bytes/sec
TE class 10: 0 bytes/sec TE class 11: 0 bytes/sec
TE class 12: 0 bytes/sec TE class 13: 0 bytes/sec
TE class 14: 0 bytes/sec TE class 15: 0 bytes/sec
TE cost: 10
Bandwidth constraint model: Prestandard DS-TE RDM
Bandwidth constraints:
BC[0] : 0 bytes/sec BC[1] : 0 bytes/sec
Neighbor IP address: 192.168.220.30
Interface IP address: 192.168.220.10
IPv6 unicast NBR ID
6464.6464.6464.01 Cost: 10 MT ID: 2
MT NBR ID
6464.6464.6464.01 Cost: 10 MT ID: 6
+IP-Extended
192.168.220.0 255.255.255.0 Cost: 100
IPv4 unicast
1.1.1.1 255.255.255.255 Cost: 0 MT ID: 6
IPv4 unicast
10.10.10.0 255.255.255.0 Cost: 10 MT ID: 6
IPv6 unicast
1:1:1::1/128 Cost: 0 MT ID: 2
IPv6 unicast
10:10:10::/64 Cost: 10 MT ID: 2
Router ID 1.1.1.1
0000.0000.0003.00-00 0x00000005 0x4bee 887 177 0/0/0
Source 0000.0000.0003.00
NLPID IPv4
Area address 10
IPv4 address 10.10.10.10
IPv4 address 192.168.220.20
+NBR ID
0000.0000.0001.00 Cost: 10
Admin group: 0x00000000
Physical bandwidth: 12500000 bytes/sec
Reservable bandwidth: 0 bytes/sec
Unreserved bandwidth for each TE class:
TE class 0: 0 bytes/sec TE class 1: 0 bytes/sec
TE class 2: 0 bytes/sec TE class 3: 0 bytes/sec
TE class 4: 0 bytes/sec TE class 5: 0 bytes/sec
TE class 6: 0 bytes/sec TE class 7: 0 bytes/sec
TE class 8: 0 bytes/sec TE class 9: 0 bytes/sec
TE class 10: 0 bytes/sec TE class 11: 0 bytes/sec
TE class 12: 0 bytes/sec TE class 13: 0 bytes/sec
TE class 14: 0 bytes/sec TE class 15: 0 bytes/sec
TE cost: 10
Bandwidth constraint model: Prestandard DS-TE RDM
Bandwidth constraints:
BC[0]: 0 bytes/sec BC[1]: 0 bytes/sec
Interface IP address: 192.168.220.20
Neighbor IP address: 192.168.220.10
Router ID 3.3.3.3
0000.0000.0003.00-01 0x00000004 0x7245 887 45 0/0/0
Source 0000.0000.0003.00
+IP-Extended
10.10.10.0 255.255.255.0 Cost: 10
+IP-Extended
192.168.220.0 255.255.255.0 Cost: 10
*-Self LSP, +-Self LSP(Extended), ATT-Attached, P-Partition, OL-Overload
Table 10 Command output
|
Field |
Description |
|
LSPID |
LSP ID. |
|
Seq Num |
LSP sequence number. |
|
Checksum |
LSP checksum. |
|
Holdtime |
LSP lifetime, which decreases as time elapses. |
|
Length |
LSP length. |
|
ATT/P/OL |
· ATT—Attach bit. · P—Partition bit. · OL—Overload bit. 1 means the LSP bit is set and 0 means the LSP bit is not set. |
|
Source |
System ID of the originating router. |
|
HOST NAME |
Dynamic host name of the originating router. |
|
ORG ID |
Original system ID of the virtual system of the originating router. |
|
NLPID |
Network layer protocol the originating router runs. |
|
Area address |
Area address of the originating router. |
|
IPv4 address |
IP address of the originating router's IS-IS interface. |
|
IPv6 address |
IPv6 address of the originating router's IS-ISv6 interface. |
|
MT ID 0000 (-/-) MT ID 0002 (-/-) MT ID 0006 (-/-) |
Topology supported by the originating router (0/0/0 indicates ATT/P/OL): · 0000—Base topology. · (-/-)—Attach bit/overload bit. |
|
IPv6 unicast NBR ID |
IPv6 unicast neighbor information about the originating router. |
|
Admin group |
Link management group attribute. |
|
Interface IP address |
IP address of the interface connected to the remote end. |
|
Neighbor IP address |
Neighbor interface IP address. |
|
Physical bandwidth |
Physical bandwidth. |
|
Reservable bandwidth |
Reserved bandwidth. |
|
Unreserved bandwidth for each TE class |
Available bandwidth reserved for each TE class. |
|
TE class |
Available bandwidth for each of the 8 or 16 TE classes. |
|
TE cost |
TE cost. |
|
Bandwidth constraint model |
Bandwidth constraint model: · Prestandard DS-TE RDM. · IETF DS-TE RDM. · IETF DS-TE MAM. |
|
BC |
Bandwidth constraint value. The Prestandard model supports 2 BCs, and the IETF modes support a maximum of 8 BCs. |
|
Router ID |
Router ID. |
|
IP-Internal |
Internal IP address and mask of the originating router. |
|
IP-External |
External IP address and mask of the originating router. |
|
IP-Extended |
Extended IP address and mask of the originating router. |
|
Cost |
Cost. |
|
Auth |
Authentication information of the originating router. |
|
IPV6 |
Internal IPv6 address and prefix of the originating router. |
|
IPV6-Ext |
External IPv6 address and prefix of the originating router. |
|
IPv4 unicast |
IPv4 unicast reachability information about the originating router. |
|
IPv6 unicast |
Internal IPv6 unicast reachability information about the originating router. |
|
IPv6 unicast-ext |
External IPv6 unicast reachability information about the originating router. |
display isis mesh-group
Use display isis mesh-group to display IS-IS mesh group configuration information.
Syntax
display isis mesh-group [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
process-id: Displays IS-IS mesh-group configuration for an IS-IS process specified by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays IS-IS mesh group configuration information for all IS-IS processes.
Examples
# Add VLAN-interface 10 and VLAN-interface 20 to mesh group 100.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis mesh-group 100
[Sysname-Vlan-interface10] interface vlan-interface 20
[Sysname-Vlan-interface20] isis mesh-group 100
# Display IS-IS mesh-group configuration information.
[Sysname-Vlan-interface20] display isis mesh-group
Mesh Group information for IS-IS(1)
----------------------------------------------------------------------
Interface Status
Vlan10 Blocked
Vlan20 100
Table 11 Command output
|
Field |
Description |
|
Interface |
Interface name. |
|
Status |
Mesh group the interface belongs to/whether a blocked interface is configured. |
display isis name-table
Use display isis name-table to display the host name-to-system ID mapping table.
Syntax
display isis name-table [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
process-id: Displays the host name to system ID mapping table for an IS-IS process specified by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays the host name to system ID mapping table for all IS-IS processes.
Examples
# Display the IS-IS host name to system ID mapping table.
<Sysname> display isis name-table
Name table information for IS-IS(1)
-----------------------------------
System ID Hostname Type Level
6789.0000.0001 RUTA DYNAMIC Level-1
6789.0000.0001 RUTA DYNAMIC Level-2
0000.0000.0041 RUTB STATIC Level-1
0000.0000.0041 RUTB STATIC Level-2
6789.0000.0001.01 DIS-A DYNAMIC Level-1
0000.0000.0041.01 DIS-B DYNAMIC Level-2
Table 12 Command output
|
Field |
Description |
|
System ID |
System ID. |
|
Hostname |
Host name. |
|
Type |
Mapping type: · STATIC. · DYNAMIC. |
|
Level |
Level on which the system ID-to-host name mapping takes effect: Level-1 or Level-2. |
display isis non-stop-routing status
Use display isis non-stop-routing status to display IS-IS NSR status.
Syntax
display isis non-stop-routing status
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Examples
# Display IS-IS NSR status.
<Sysname> display isis non-stop-routing status
Nonstop Routing information for IS-IS(1)
----------------------------------------
NSR phase: Finish
Table 13 Command output
|
Field |
Description |
|
NSR phase |
NSR phase: · Initialization. · Smooth. · First SPF computation. · Redistribution. · Second SPF computation. · LSP stability—Ready to generate LSPs. · LSP generation. · Finish. |
display isis packet
Use display isis packet to display IS-IS packet statistics.
Syntax
display isis packet { csnp | hello | lsp | psnp } by-interface [ verbose ] [ interface-type interface-number ] [ process-id ]
display isis packet { csnp | hello | lsp | psnp } [ verbose ] [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
csnp: Displays CSNP packet statistics.
hello: Displays hello packet statistics.
lsp: Displays LSP packet statistics.
psnp: Displays PSNP packet statistics.
by-interface: Displays packet statistics on a per-interface basis.
verbose: Displays detailed packet statistics.
interface-type interface-number: Specifies an interface by its type and number. If you do not specify this option, the command displays IS-IS packet statistics for all interfaces.
process-id: Specifies an IS-IS process by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays packet statistics for all IS-IS processes.
Examples
# Display detailed hello packet statistics on a per-interface basis.
<Sysname> display isis packet hello by-interface verbose
Hello packet information for IS-IS(1)
-------------------------------------
Interface: Vlan-interface10
Total output packets : 0 Total output error packets : 0
Total input packets : 0 Total input error packets : 0
Input packets with errors
Bad packet length : 0 Bad header length : 0
Jumbo packet : 0 Bad protocol description : 0
Bad protocol ID : 0 Bad protocol version : 0
Unknown packet type : 0 Bad max area count : 0
Bad system ID length : 0 Bad circuit type : 0
Bad auth TLV: 0 Bad area address TLV : 0
Auth failure : 0 Excessive area addresses : 0
Bad NBR TLV : 0 Excessive auth TLVs : 0
Excessive IF Addr TLVs: 0 Excessive IF addresses : 0
Bad IF address TLV : 0 Duplicate system ID : 0
Bad TLV length : 0 Bad IP address : 0
Duplicate IP address : 0 Mismatched area address : 0
Mismatched protocol : 0 Mismatched network type : 0
Bad IPv6 address TLV : 0 Bad IPv6 address : 0
Duplicate IPv6 address: 0 Bad MT ID TLV : 0
SNPA conflict (LAN) : 0 Excessive NBR SNPAs (LAN) : 0
Mismatched level (LAN): 0 Bad 3-Way option TLV (P2P) : 0
No common MT ID (P2P) : 0 Bad circuit ID (P2P) : 0
# Display detailed hello packet statistics.
<Sysname> display isis packet hello verbose
Hello packet information for IS-IS(1)
-------------------------------------
Total output packets : 0 Total output error packets : 0
Total input packets : 0 Total input error packets : 0
Input packets with errors
Bad packet length : 0 Bad header length : 0
Jumbo packet : 0 Bad protocol description : 0
Bad protocol ID : 0 Bad protocol version : 0
Unknown packet type : 0 Bad max area count : 0
Bad system ID length : 0 Bad circuit type : 0
Bad auth TLV : 0 Bad area address TLV : 0
Auth failure : 0 Excessive area addresses : 0
Bad NBR TLV : 0 Excessive auth TLVs : 0
Excessive IF Addr TLVs : 0 Excessive IF addresses : 0
Bad IF address TLV : 0 Duplicate system ID : 0
Bad TLV length : 0 Bad IP address : 0
Duplicate IP address : 0 Mismatched area address : 0
Mismatched protocol : 0 Mismatched network type : 0
Bad IPv6 address TLV : 0 Bad IPv6 address : 0
Duplicate IPv6 address : 0 Bad MT ID TLV : 0
SNPA conflict (LAN) : 0 Excessive NBR SNPAs (LAN) : 0
Mismatched level (LAN) : 0 Bad 3-Way option TLV (P2P) : 0
No common MT ID (P2P) : 0 Bad circuit ID (P2P) : 0
Table 14 Command output
|
Field |
Description |
|
Input packets with errors |
Statistics for packets with the following errors: · Bad packet length—Invalid packet length. · Bad header length—Invalid header length. · Jumbo packet—The packet length exceeds the buffer size or the interface MTU. · Bad protocol description—Invalid protocol description. · Bad protocol ID—Invalid protocol identifier. · Bad protocol version—Invalid protocol version. · Unknown packet type—Unknown packet type. · Bad max area count—Invalid maximum number of area addresses. · Bad system ID length—Invalid system ID length. · Bad circuit type—Invalid interface type. · Bad auth TLV—Invalid authentication TLV. · Bad area address TLV—Invalid area address TLV. · Auth failure—Authentication failure. · Excessive area addresses—Excessive area addresses. · Bad NBR TLV—Invalid neighbor TLV. · Excessive auth TLVs—Excessive authentication TLVs. · Excessive IF Addr TLVs—Excessive interface address TLVs. · Excessive IF addresses—Excessive interface addresses. · Bad IF address TLV—Invalid interface address TLV. · Duplicate system ID—Duplicate system IDs. · Bad TLV length—Invalid TLV length. · Bad IP address—The IP address does not belong to the same network as the local interface address. · Duplicate IP address—Duplicate IP addresses. · Mismatched area address—Mismatched area addresses. · Mismatched protocol—Mismatched protocols. · Mismatched network type—Mismatched network types. · Bad IPv6 address TLV—Invalid IPv6 address TLV. · Bad IPv6 address—Invalid IPv6 address. · Duplicate IPv6 address—Duplicate IPv6 addresses. · SNPA conflict (LAN)—SNPA conflict. · Excessive NBR SNPAs (LAN)—Excessive neighbor SNPAs. · Mismatched level (LAN)—Mismatched levels. · Bad 3-Way option TLV (P2P)—Invalid three-way handshake information. · Bad circuit ID (P2P)—Invalid circuit ID. |
# Display detailed LSP packet statistics on a per-interface basis.
<Sysname> display isis packet lsp by-interface verbose
LSP packet information for IS-IS(1)
-----------------------------------
Interface: Vlan-interface10
Total output packets : 0 Total output error packets : 0
Total input packets : 0 Total input error packets : 0
Input packets with errors
Bad packet length : 0 Bad header length : 0
Jumbo packet : 0 SNPA conflict (LAN) : 0
Smaller than header : 0 Bad protocol description : 0
Bad protocol ID : 0 Bad protocol version : 0
Unknown packet type : 0 Bad max area count : 0
No active NBR : 0 Bad system ID length : 0
Mismatched level : 0 Illegal IS type : 0
Sequence number is 0: 0 Checksum is 0 : 0
Incorrect checksum : 0 Bad TLV length : 0
Mismatched protocol : 0 Bad auth TLV : 0
Auth failure : 0 Excessive auth TLVs : 0
Bad NBR TLV : 0 Bad extended IS TLV : 0
Bad IF address TLV : 0 Bad IPv6 IF address TLV : 0
Bad alias TLV : 0 Bad IP reachability TLV : 0
Bad MT IS TLV : 0 Bad area address TLV : 0
Bad MT ID TLV : 0 Bad MT IP TLV : 0
Bad MT IPv6 TLV : 0 Bad IPv6 reachability TLV: 0
Bad router ID TLV : 0
# Display detailed LSP packet statistics.
<Sysname> display isis packet lsp verbose
LSP packet information for IS-IS(1)
-----------------------------------
Total output packets : 0 Total output error packets : 0
Total input packets : 0 Total input error packets : 0
Input packets with errors
Bad packet length : 0 Bad header length : 0
Jumbo packet : 0 SNPA conflict (LAN) : 0
Smaller than header : 0 Bad protocol description : 0
Bad protocol ID : 0 Bad protocol version : 0
Unknown packet type : 0 Bad max area count : 0
No active NBR : 0 Bad system ID length : 0
Mismatched level : 0 Illegal IS type : 0
Sequence number is 0 : 0 Checksum is 0 : 0
Incorrect checksum : 0 Bad TLV length : 0
Mismatched protocol : 0 Bad auth TLV : 0
Auth failure : 0 Excessive auth TLVs : 0
Bad NBR TLV : 0 Bad extended IS TLV : 0
Bad IF address TLV : 0 Bad IPv6 IF address TLV : 0
Bad alias TLV : 0 Bad IP reachability TLV : 0
Bad MT IS TLV : 0 Bad area address TLV : 0
Bad MT ID TLV : 0 Bad MT IP TLV : 0
Bad MT IPv6 TLV : 0 Bad IPv6 reachability TLV : 0
Bad router ID TLV : 0
Table 15 Command output
|
Field |
Description |
|
Input packets with errors |
Statistics for packets with the following errors: · Bad packet length—Invalid packet length. · Bad header length—Invalid header length. · Jumbo packet—The packet length exceeds the maximum length of packets that can be received. · SNPA conflict (LAN)—SNPA conflict. · Smaller than header—The packet length is smaller than the fixed header length. · Bad protocol description—Invalid protocol description. · Bad protocol ID—Invalid protocol identifier. · Bad protocol version—Invalid protocol version. · Unknown packet type—Unknown packet type. · Bad max area count—Invalid maximum number of area addresses. · No active NBR—The packet is from an unknown neighbor. · Bad system ID length—Invalid system ID length. · Mismatched level—Mismatched levels. · Illegal IS type—Invalid IS type. · Sequence number is 0—The sequence number is 0. · Checksum is 0—The checksum is 0. · Incorrect checksum—Incorrect checksum. · Bad TLV length—Invalid TLV length. · Mismatched protocol—Mismatched protocols. · Bad auth TLV—Invalid authentication TLV. · Auth failure—Authentication failure. · Excessive auth TLVs—Excessive authentication TLVs. · Bad NBR TLV—Invalid neighbor TLV. · Bad extended IS TLV—Invalid extended IS TLV. · Bad IF address TLV—Invalid interface address TLV. · Bad IPv6 IF address TLV—Invalid IPv6 interface address TLV. · Bad alias TLV—Invalid alias TLV. · Bad IP reachability TLV—Invalid IP reachability TLV. · Bad area address TLV—Invalid area address TLV. · Bad MT IPv6 TLV—Invalid IPv6 topology TLV. · Bad IPv6 reachability TLV—Invalid IPv6 reachability TLV. · Bad router ID TLV—Invalid router ID TLV. |
# Display detailed CSNP packet statistics on a per-interface basis.
<Sysname> display isis packet csnp by-interface verbose
CSNP packet information for IS-IS(1)
------------------------------------
Interface: Vlan-interface10
Total output packets : 0 Total output error packets : 0
Total input packets : 0 Total input error packets : 0
Input packets with errors
Bad packet length : 0 Bad header length : 0
Jumbo packet : 0 SNPA conflict (LAN) : 0
Smaller than header: 0 Bad protocol description: 0
Bad protocol ID : 0 Bad protocol version : 0
Unknown packet type: 0 Bad max area count : 0
No active NBR : 0 Bad system ID length : 0
Mismatched level : 0 Bad TLV length : 0
Auth failure : 0 Bad auth TLV : 0
Bad LSP TLV length : 0 Excessive auth TLVs : 0
Excessive LSPs : 0 Bad LSP ID : 0
# Display detailed CSNP packet statistics.
<Sysname> display isis packet csnp verbose
CSNP packet information for IS-IS(1)
------------------------------------
Total output packets : 0 Total output error packets : 0
Total input packets : 0 Total input error packets : 0
Input packets with errors
Bad packet length : 0 Bad header length : 0
Jumbo packet : 0 SNPA conflict (LAN) : 0
Smaller than header : 0 Bad protocol description : 0
Bad protocol ID : 0 Bad protocol version : 0
Unknown packet type : 0 Bad max area count : 0
No active NBR : 0 Bad system ID length : 0
Mismatched level : 0 Bad TLV length : 0
Auth failure : 0 Bad auth TLV : 0
Bad LSP TLV length : 0 Excessive auth TLVs : 0
Excessive LSPs : 0 Bad LSP ID : 0
Table 16 Command output
|
Field |
Description |
|
Input packets with errors |
Statistics for packets with the following errors: · Bad packet length—Invalid packet length. · Bad header length—Invalid header length. · Jumbo packet—The packet length exceeds the maximum length of packets that can be received. · SNPA conflict (LAN)—SNPA conflict. · Smaller than header—The packet length is smaller than the fixed header length. · Bad protocol description—Invalid protocol description. · Bad protocol ID—Invalid protocol identifier. · Bad protocol version—Invalid protocol version. · Unknown packet type—Unknown packet type. · Bad max area count—Invalid maximum number of area addresses. · No active NBR—The packet is from an unknown neighbor. · Bad system ID length—Invalid system ID length. · Mismatched level—Mismatched levels. · Bad TLV length—Invalid TLV length. · Auth failure—Authentication failure. · Bad auth TLV—Invalid authentication TLV. · Bad LSP TLV length—Invalid LSP TLV length. · Excessive auth TLVs—Excessive authentication TLVs. · Excessive LSPs—Excessive LSPs. · Bad LSP ID—Invalid LSP ID. |
# Display detailed PSNP packet statistics on a per-interface basis.
<Sysname> display isis packet psnp by-interface verbose
PSNP packet information for IS-IS(1)
------------------------------------
Interface: Vlan-interface10
Total output packets : 0 Total output error packets : 0
Total input packets : 0 Total input error packets : 0
Input packets with errors
Bad packet length : 0 Bad header length : 0
Jumbo packet : 0 SNPA conflict (LAN) : 0
Smaller than header: 0 Bad protocol description: 0
Bad protocol ID : 0 Bad protocol version : 0
Unknown packet type: 0 Bad max area count : 0
No active NBR : 0 Bad system ID length : 0
Mismatched level : 0 Bad TLV length : 0
Auth failure : 0 Bad auth TLV : 0
Bad LSP TLV length : 0 Excessive auth TLVs : 0
Excessive LSPs : 0 Bad LSP ID : 0
# Display detailed PSNP packet statistics.
<Sysname> display isis packet psnp verbose
PSNP packet information for IS-IS(1)
------------------------------------
Total output packets : 0 Total output error packets : 0
Total input packets : 0 Total input error packets : 0
Input packets with errors
Bad packet length : 0 Bad header length : 0
Jumbo packet : 0 SNPA conflict (LAN) : 0
Smaller than header : 0 Bad protocol description : 0
Bad protocol ID : 0 Bad protocol version : 0
Unknown packet type : 0 Bad max area count : 0
No active NBR : 0 Bad system ID length : 0
Mismatched level : 0 Bad TLV length : 0
Auth failure : 0 Bad auth TLV : 0
Bad LSP TLV length : 0 Excessive auth TLVs : 0
Excessive LSPs : 0 Bad LSP ID : 0
Table 17 Command output
|
Field |
Description |
|
Input packets with errors |
Statistics for packets with the following errors: · Bad packet length—Invalid packet length. · Bad header length—Invalid header length. · Jumbo packet—The packet length exceeds the maximum length of packets that can be received. · SNPA conflict (LAN)—SNPA conflict. · Smaller than header—The packet length is smaller than the fixed header length. · Bad protocol description—Invalid protocol description. · Bad protocol ID—Invalid protocol identifier. · Bad protocol version—Invalid protocol version. · Unknown packet type—Unknown packet type. · Bad max area count—Invalid maximum number of area addresses. · No active NBR—The packet is from an unknown neighbor. · Bad system ID length—Invalid system ID length. · Mismatched level—Mismatched levels. · Bad TLV length—Invalid TLV length. · Auth failure—Authentication failure. · Bad auth TLV—Invalid authentication TLV. · Bad LSP TLV length—Invalid LSP TLV length. · Excessive auth TLVs—Excessive authentication TLVs. · Excessive LSPs—Excessive LSPs. · Bad LSP ID—Invalid LSP ID. |
Related commands
reset isis packet
display isis peer
Use display isis peer to display IS-IS neighbor information.
Syntax
display isis peer [ statistics | verbose ] [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
statistics: Displays IS-IS neighbor statistics.
verbose: Displays detailed IS-IS neighbor information. If you do not specify this keyword, the command displays brief IS-IS neighbor information.
process-id: Displays IS-IS neighbor information for an IS-IS process specified by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays neighbor information for all IS-IS processes.
Examples
# Display brief IS-IS neighbor information.
<Sysname> display isis peer
Peer information for IS-IS(1)
-----------------------------
System Id: 0000.0000.0001
Interface: Vlan100 Circuit Id: 0000.0000.0001.01
State: Up HoldTime: 27s Type: L1(L1L2) PRI: 64
System Id: 0000.0000.0001
Interface: Vlan100 Circuit Id: 0000.0000.0001.01
State: Up HoldTime: 27s Type: L2(L1L2) PRI: 64
# Display detailed IS-IS neighbor information.
<Sysname> display isis peer verbose
Peer information for IS-IS(1)
----------------------------
System ID: 0000.1111.2222
Interface: Vlan100 Circuit Id: 0000.1111.2222.01
State: Up Holdtime: 6s Type: L1(L1L2) PRI: 64
Area address(es): 49
Peer IP address(es): 12.0.0.2
Peer local circuit ID: 1
Peer circuit SNPA address: 000c-293b-c4be
Uptime: 00:05:07
Adj protocol: IPv4
Adj P2P three-way handshake: No
Graceful Restart capable
Restarting signal: No
Suppress adjacency advertisement: No
Local topology:
0
Remote topology:
0 2
System ID: 0000.0000.0002
Interface: Vlan101 Circuit Id: 001
State: Up HoldTime: 27s Type: L1L2 PRI: --
Area address(es): 49
Peer IP address(es): 192.168.220.30
Peer local circuit ID: 1
Peer circuit SNPA address: 000c-29fd-ed69
Uptime: 00:05:07
Adj protocol: IPv4
Adj P2P three-way handshake: Yes
Peer extended circuit ID: 2
Graceful Restart capable
Restarting signal: No
Suppress adjacency advertisement: No
Table 18 Command output
|
Field |
Description |
|
System Id |
System ID of the neighbor. |
|
Interface |
Interface connecting to the neighbor. |
|
Circuit Id |
Circuit ID. |
|
State |
Circuit state. |
|
HoldTime |
Within the holdtime, if no hellos are received from the neighbor, the neighbor is considered down. If a hello is received, the holdtime is reset to the initial value. |
|
Type |
Circuit type: · L1—Means the circuit type is Level-1 and the neighbor is a Level-1 router. · L2—Means the circuit type is Level-2 and the neighbor is a Level-2 router. · L1(L1L2)—Means the circuit type is Level-1 and the neighbor is a Level-1-2 router. · L2(L1L2)—Means the circuit type is Level-2 and the neighbor is a Level-1-2 router. |
|
PRI |
DIS priority of the neighbor. |
|
Area Address(es) |
Area address of the neighbor. |
|
Peer IP Address(es) |
IP address of the neighbor. |
|
Uptime |
Time elapsed since the neighbor relationship was formed. |
|
Adj Protocol |
Adjacency protocol: IPv4 or IPv6. |
|
Peer local circuit ID |
Circuit ID of the neighbor. |
|
Peer circuit SNPA address |
SNPA address of the neighbor. |
|
Adj P2P three-way handshake |
Indicates whether the neighbor supports P2P three-way handshake. |
|
Peer extended circuit ID |
Extended circuit ID of the neighbor interface. This field is available when the neighbor supports three-way handshake. |
|
Graceful Restart capable |
The neighbor has the GR helper capability. |
|
Restarting signal |
RR flag. |
|
Suppress adjacency advertisement |
SA flag. |
|
Local topology |
List of topologies supported by the local interface. |
|
Remote topology |
List of topologies supported by the neighbor interface. |
# Display IS-IS neighbor statistics.
<Sysname> display isis peer statistics
Peer Statistics information for IS-IS(1)
---------------------------------------
Type IPv4 Up/Init IPv6 Up/Init
LAN Level-1 1/0 0/0
LAN Level-2 1/0 0/0
P2P 0/0 0/0
Table 19 Command output
|
Field |
Description |
|
Type |
Neighbor type: · LAN Level-1—Number of Level-1 neighbors whose network type is broadcast. · LAN Level-2—Number of Level-2 neighbors whose network type is broadcast. · P2P—Number of neighbors whose network type is P2P. |
|
IPv4 Up |
Number of IPv4 neighbors in up state. |
|
IPv4 Init |
Number of IPv4 neighbors in init state. |
|
IPv6 Up |
Number of IPv6 neighbors in up state. |
|
IPv6 Init |
Number of IPv6 neighbors in init state. |
display isis redistribute
Use display isis redistribute to display the redistributed IS-IS routing information.
Syntax
display isis redistribute [ ipv4 [ ip-address mask-length ] ] [ level-1 | level-2 ] [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
ipv4: Displays the redistributed IPv4 routing information (the default).
ip-address mask-length: Specifies the destination IP address and mask length.
process-id: Specifies the IS-IS process by its ID in the range of 1 to 65535.
level-1: Displays the IS-IS Level-1 routing information.
level-2: Displays the IS-IS Level-2 routing information.
Usage guidelines
If you do not specify an IS-IS level, this command displays both Level-1 and Level-2 routing information.
Examples
# Display redistributed IPv4 routing information.
<Sysname> display isis redistribute 1
Route information for IS-IS(1)
------------------------------
Level-1 IPv4 Redistribute Table
--------------------------------
Type IPv4 Destination IntCost ExtCost Tag State
--------------------------------------------------------------------------------
D 192.168.30.0/24 0 0 Active
D 11.11.11.11/32 0 0
D 10.10.10.0/24 0 0
Table 20 Command output
|
Field |
Description |
|
Route information for IS-IS(1) |
IS-IS process of the redistributed routing information. |
|
Level-1 IPv4 Redistribute Table |
Redistributed IPv4 routing information of IS-IS Level-1. |
|
Level-2 IPv4 Redistribute Table |
Redistributed IPv4 routing information of IS-IS Level-2. |
|
Type |
Redistributed route type. |
|
IPV4 Destination |
IPv4 destination address. |
|
IntCost |
Internal cost of the route. |
|
ExtCost |
External cost of the route. |
|
Tag |
Tag value. |
|
State |
Indicates whether the route is valid. |
display isis route
Use display isis route to display IS-IS IPv4 routing information.
Syntax
display isis route [ ipv4 [ ip-address mask-length ] ] [ [ level-1 | level-2 ] | verbose ] * [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
ipv4: Displays IS-IS IPv4 routing information (the default).
ip-address mask-length: Displays IS-IS IPv4 routing information for the specified IP address. The mask-length argument is in the range of 0 to 32.
verbose: Displays detailed IS-IS IPv4 routing information. If you do not specify this keyword, the command displays brief IS-IS IPv4 routing information
process-id: Displays IS-IS IPv4 routing information for an IS-IS process specified by its ID in the range of 1 to 65535. If you do not specify an IS-IS process, this command displays routing information for all IS-IS processes.
level-1: Displays Level-1 IS-IS routes.
level-2: Displays Level-2 IS-IS routes.
Usage guidelines
If you do not specify a level, this command displays both Level-1 and Level-2 routing information.
Examples
# Display brief IS-IS IPv4 routing information.
<Sysname> display isis route
Route information for IS-IS(1)
-----------------------------
Level-1 IPv4 Forwarding Table
-----------------------------
IPv4 Destination IntCost ExtCost ExitInterface NextHop Flags
-------------------------------------------------------------------------------
8.8.8.0/24 10 NULL Vlan100 Direct D/L/-
9.9.9.0/24 20 NULL Vlan100 8.8.8.5 R/L/-
Flags: D-Direct, R-Added to Rib, L-Advertised in LSPs, U-Up/Down Bit Set
Level-2 IPv4 Forwarding Table
-----------------------------
IPv4 Destination IntCost ExtCost ExitInterface NextHop Flags
-------------------------------------------------------------------------------
8.8.8.0/24 10 NULL D/L/-
Flags: D-Direct, R-Added to Rib, L-Advertised in LSPs, U-Up/Down Bit Set
Table 21 Command output
|
Field |
Description |
|
Route information for IS-IS(1) |
Route information for IS-IS process 1. |
|
Level-1 IPv4 Forwarding Table |
IS-IS IPv4 routing information for Level-1. |
|
Level-2 IPv4 Forwarding Table |
IS-IS IPv4 routing information for Level-2. |
|
IPv4 Destination |
IPv4 destination address. |
|
IntCost |
Internal cost. |
|
ExtCost |
External cost. |
|
ExitInterface |
Output interface. |
|
NextHop |
Next hop. |
|
Flags |
Routing state flag: · D—Direct route. · R—The route has been added into the routing table. · L—The route has been advertised in an LSP. · U—Penetration flag. Setting it to UP can prevent an LSP sent from L2 to L1 from being sent back to L2. |
# Display detailed IS-IS IPv4 routing information.
<Sysname> display isis route verbose
Route information for IS-IS(1)
-----------------------------
Level-1 IPv4 Forwarding Table
-----------------------------
IPV4 Dest : 8.8.8.0/24 Int. Cost : 10 Ext. Cost : NULL
Admin Tag : - Src Count : 2 Flag : D/L/-
NextHop : Interface : ExitIndex :
Direct Vlan100 0x00000000
Nib ID : 0x0
IPV4 Dest : 9.9.9.0/24 Int. Cost : 20 Ext. Cost : NULL
Admin Tag : - Src Count : 1 Flag : R/L/-
NextHop : Interface : ExitIndex :
8.8.8.5 Vlan100 0x00000003
Nib ID : 0x0
Flags: D-Direct, R-Added to Rib, L-Advertised in LSPs, U-Up/Down Bit Set
Level-2 IPv4 Forwarding Table
-----------------------------
IPV4 Dest : 8.8.8.0/24 Int. Cost : 10 Ext. Cost : NULL
Admin Tag : - Src Count : 2 Flag : D/L/-
Flags: D-Direct, R-Added to Rib, L-Advertised in LSPs, U-Up/Down Bit Set
Table 22 Command output
|
Field |
Description |
|
Route information for IS-IS(1) |
Route information for IS-IS process 1. |
|
Level-1 IPv4 Forwarding Table |
IS-IS IPv4 routing information for Level-1. |
|
Level-2 IPv4 Forwarding Table |
IS-IS IPv4 routing information for Level-2. |
|
IPV4 Dest |
IPv4 destination. |
|
Int. Cost |
Internal cost. |
|
Ext. Cost |
External cost. |
|
Admin Tag |
Tag. |
|
Src Count |
Count of advertising sources. |
|
Flag |
Route state flag: · R—The route has been installed into the routing table. · L—The route has been flooded in an LSP. · U—Route leaking flag. Setting it to UP can prevent an LSP sent from L2 to L1 from being sent back to L2. |
|
Next Hop |
Next hop. |
|
Interface |
Output interface. |
|
ExitIndex |
Index of the output interface. |
|
Nib ID |
ID assigned by the routing management module (next hop index). |
display isis spf-tree
Use display isis spf-tree to display IS-IS IPv4 SPF tree information.
Syntax
display isis spf-tree [ ipv4 ] [ [ level-1 | level-2 ] | verbose ] * [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
ipv4: Displays IS-IS IPv4 SPF tree information. If you do not specify this keyword, the command displays IS-IS IPv4 SPF tree information.
level-1: Displays Level-1 IS-IS SPF tree information. If you do not specify a level, the command displays both Level-1 and Level-2 SPF tree information.
level-2: Displays Level-2 SPF tree information. If you do not specify a level, the command displays both Level-1 and Level-2 SPF tree information.
verbose: Displays detailed IS-IS SPF tree information. If you do not specify this keyword, the command displays brief IS-IS SPF tree information.
process-id: Specifies an IS-IS process by its ID in the range of 1 to 65535. If you do not specify this argument, the command displays SPF tree information for all IS-IS processes.
Examples
# Display brief IS-IS IPv4 SPF tree information.
<Sysname> display isis spf-tree
Shortest Path Tree for IS-IS(1)
-------------------------------
Flags: S-Node is on SPF tree T-Node is on tent list
O-Node is overload R-Node is directly reachable
I-Node or Link is isolated D-Node or Link is to be deleted
C-Neighbor is child P-Neighbor is parent
V-Link is involved N-Link is a new path
L-Link is on change list U-Protocol usage is changed
H-Nexthop is changed
Level-1 Shortest Path Tree
--------------------------
SpfNode NodeFlag SpfLink LinkCost LinkFlag
-------------------------------------------------------------------------------
0000.0000.0032.00 S/-/-/-/-/-
-->0000.0000.0032.01 10 -/-/C/-/-/-/-/-/-
-->0000.0000.0064.00 10 -/-/C/-/-/-/-/-/-
0000.0000.0032.01 S/-/-/R/-/-
-->0000.0000.0064.00 0 -/-/C/-/-/-/-/-/-
-->0000.0000.0032.00 0 -/-/-/P/-/-/-/-/-
0000.0000.0064.00 S/-/-/R/-/-
-->0000.0000.0032.00 10 -/-/-/P/-/-/-/-/-
-->0000.0000.0032.01 10 -/-/-/P/-/-/-/-/-
Level-2 Shortest Path Tree
--------------------------
SpfNode NodeFlag SpfLink LinkCost LinkFlag
-------------------------------------------------------------------------------
0000.0000.0032.00 S/-/-/-/-/-
-->0000.0000.0032.01 10 -/-/C/-/-/-/-/-/-
-->0000.0000.0064.00 10 -/-/C/-/-/-/-/-/-
0000.0000.0032.01 S/-/-/R/-/-
-->0000.0000.0064.00 0 -/-/C/-/-/-/-/-/-
-->0000.0000.0032.00 0 -/-/-/P/-/-/-/-/-
0000.0000.0064.00 S/-/-/R/-/-
-->0000.0000.0032.00 10 -/-/-/P/-/-/-/-/-
-->0000.0000.0032.01 10 -/-/-/P/-/-/-/-/-
# Display detailed IS-IS IPv4 SPF tree information.
<Sysname> display isis spf-tree verbose
Shortest Path Tree for IS-IS(1)
-------------------------------
Flags: S-Node is on SPF tree T-Node is on tent list
O-Node is overload R-Node is directly reachable
I-Node or Link is isolated D-Node or Link is to be deleted
C-Neighbor is child P-Neighbor is parent
V-Link is involved N-Link is a new path
L-Link is on change list U-Protocol usage is changed
H-Nexthop is changed
Level-1 Shortest Path Tree
--------------------------
SpfNode : 0000.0000.0001.00
Distance : 0
TE distance : 0
NodeFlag : S/-/-/-/-/-
RelayNibID : 0x0
TE tunnel count: 0
Nexthop count : 0
SpfLink count : 1
-->0000.0000.0004.04
LinkCost : 10
LinkNewCost : 10
LinkFlag : -/-/C/-/-/-/-/-/-
LinkSrcCnt : 1
Type: Adjacent Interface: N/A
Cost: 10 Nexthop : N/A
SpfNode : 0000.0000.0004.00
Distance : 10
Te Distance : 10
NodeFlag : S/-/-/-/-/-
RelayNibID : 0x14000000
TE tunnel count: 1
Destination: 4.4.4.4 Interface : Tun0
TE cost : 10 Final cost : 10
Add nexthop: YES Add TLV : YES
Nexthop count : 2
Neighbor : 0000.0000.0004.00 Interface : Tun0
Nexthop : 4.4.4.4
BkNeighbor : N/A BkInterface: N/A
BkNexthop : N/A
Neighbor : 0000.0000.0004.00 Interface : Vlan50
Nexthop : 1.1.1.3
BkNeighbor : N/A BkInterface: N/A
BkNexthop : N/A
SpfLink count : 1
-->0000.0000.0004.04
LinkCost : 10
LinkNewCost : 10
LinkFlag : -/-/-/P/-/-/-/-/-
LinkSrcCnt : 1
Type: Remote Interface: N/A
Cost: 10 Nexthop : N/A
AdvMtID: 0
SpfNode : 0000.0000.0004.04
Distance : 10
TE distance : 10
NodeFlag : S/-/-/R/-/-
RelayNibID : 0x14000001
TE tunnel count: 0
Nexthop count : 0
SpfLink count : 2
-->0000.0000.0001.00
LinkCost : 0
LinkNewCost : 0
LinkFlag : -/-/-/P/-/-/-/-/-
LinkSrcCnt : 1
Type: Remote Interface: N/A
Cost: 0 Nexthop : N/A
-->0000.0000.0004.00
LinkCost : 0
LinkNewCost : 0
LinkFlag : -/-/C/-/-/-/-/-/-
LinkSrcCnt : 1
Type: Remote Interface: Vlan50
Cost: 0 Nexthop : 1.1.1.3
Level-2 Shortest Path Tree
--------------------------
SpfNode : 0000.0000.0001.00
Distance : 0
TE distance : 0
NodeFlag : S/-/-/-/-/-
RelayNibID : 0x0
TE tunnel count: 0
Nexthop count : 0
SpfLink count : 1
-->0000.0000.0004.04
LinkCost : 10
LinkNewCost : 10
LinkFlag : -/-/C/-/-/-/-/-/-
LinkSrcCnt : 1
Type: Adjacent Interface: N/A
Cost: 10 Nexthop : N/A
SpfNode : 0000.0000.0004.00
Distance : 10
TE distance : 10
NodeFlag : S/-/-/-/-/-
RelayNibID : 0x0
TE tunnel count: 1
Destination: 4.4.4.4 Interface : Tun0
TE cost : 10 Final cost : 10
Add nexthop: YES Add TLV : YES
Nexthop count : 2
Neighbor : 0000.0000.0004.00 Interface : Tun0
Nexthop : 4.4.4.4
BkNeighbor : N/A BkInterface: N/A
BkNexthop : N/A
Neighbor : 0000.0000.0004.00 Interface : Vlan50
Nexthop : 1.1.1.3
BkNeighbor : N/A BkInterface: N/A
BkNexthop : N/A
SpfLink count : 1
-->0000.0000.0004.04
LinkCost : 10
LinkNewCost : 10
LinkFlag : -/-/-/P/-/-/-/-/-
LinkSrcCnt : 1
Type: Remote Interface: N/A
Cost: 10 Nexthop : N/A
AdvMtID: 0
SpfNode : 0000.0000.0004.04
Distance : 10
TE distance : 10
NodeFlag : S/-/-/R/-/-
RelayNibID : 0x0
TE tunnel count: 0
Nexthop count : 0
SpfLink count : 2
-->0000.0000.0001.00
LinkCost : 0
LinkNewCost : 0
LinkFlag : -/-/-/P/-/-/-/-/-
LinkSrcCnt : 1
Type: Remote Interface: N/A
Cost: 0 Nexthop : N/A
-->0000.0000.0004.00
LinkCost : 0
LinkNewCost : 0
LinkFlag : -/-/C/-/-/-/-/-/-
LinkSrcCnt : 1
Type: Remote Interface: Vlan50
Cost: 0 Nexthop : 1.1.1.3
Table 23 Command output
|
Field |
Description |
|
SpfNode |
ID of the topology node. |
|
Distance |
Shortest distance from the root node to the local node. |
|
TE distance |
Shortest distance from the root node to the local node (including tunnel links). If tunnel is not configured, TE distance equals to Distance. |
|
NodeFlag |
Node flag: · S—The node is on the SPF tree. · T—The node is on the tent list. · O—The node is overloaded. · R—The node is directly connected. · I—The node is isolated. · D—The node is to be deleted. |
|
RelayNibID |
Next hop ID of the node after route recursion. |
|
TE tunnel count |
Number of tunnels destined to this node. |
|
Destination |
Destination router. |
|
TE cost |
IGP cost of the TE tunnel. |
|
Final cost |
Final cost of the TE tunnel. |
|
Nexthop count |
Next hop count. |
|
Nexthop |
Primary next hop of the node or the link advertising source. |
|
AdvMtID |
Topology from which the routing information is learned: · 0—Base topology. · 6-4094—Other topologies. |
|
Interface |
Primary output interface of the node or the link advertising source. |
|
BkNexthop |
Backup next hop. |
|
BkInterface |
Backup output interface. |
|
Neighbor |
ID of the primary next hop neighbor. |
|
BkNeighbor |
ID of the backup next hop neighbor. |
|
SpfLink |
Topology link. |
|
SpfLink count |
Number of topology links. |
|
LinkCost |
Link cost. |
|
LinkNewCost |
New link cost. |
|
LinkFlag |
Link flag: · I—The link is isolated. · D—The link is to be deleted. · C—The neighbor is a child node. · P—The neighbor is the parent node. · V—The link is involved. · N—The link is a new path. · L—The link is on the change list. · U—The protocol usage of the link is changed. · H—The next hop of the link is changed. |
|
LinkSrcCnt |
Number of link advertising sources. |
|
Type |
Type of the link advertising source: · Adjacent—The link advertising source is a local neighbor. · Remote—The link advertising source is advertised by a remote node in an LSP. |
|
Cost |
Cost of the link advertising source. |
display isis statistics
Use display isis statistics to display IS-IS statistics.
Syntax
display isis statistics [ ipv4 ] [ level-1 | level-1-2 | level-2 ] [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
ipv4: Displays IS-IS IPv4 statistics. If you do not specify this option, the command displays both IPv4 and IPv6 statistics.
level-1: Displays IS-IS Level-1 statistics.
level-1-2: Displays IS-IS Level-1-2 statistics.
level-2: Displays IS-IS Level-2 statistics.
process-id: Displays statistics for an IS-IS process specified by its ID in the range of 1 to 65535. If you do not specify an IS-IS process, this command displays the statistics for all IS-IS processes.
Usage guidelines
If you do not specify a level, this command displays both Level-1 and Level-2 routing information.
Examples
# Display IS-IS statistics.
<Sysname> display isis statistics
Statistics information for IS-IS(1)
----------------------------------
Level-1 Statistics
------------------
MTR(base)
Learnt routes information:
Total IPv4 Learnt Routes in IPv4 Routing Table: 1
Imported routes information:
IPv4 Imported Routes:
Static: 0 Direct: 0
ISIS: 0 BGP: 0
RIP: 0 OSPF: 0
Total Number: 0
MTR(base)
Learnt routes information:
Total IPv6 Learnt Routes in IPv6 Routing Table: 0
Imported routes information:
IPv6 Imported Routes:
Static: 0 Direct: 0
ISISv6: 0 BGP4+: 0
RIPng: 0 OSPFv3: 0
Total Number: 0
Lsp information:
LSP Source ID: No. of used LSPs
7777.8888.1111 001
Level-2 Statistics
------------------
MTR(base)
Learnt routes information:
Total IPv4 Learnt Routes in IPv4 Routing Table: 0
Imported routes information:
IPv4 Imported Routes:
Static: 0 Direct: 0
ISIS: 0 BGP: 0
RIP: 0 OSPF: 0
Total Number: 0
MTR(base)
Learnt routes information:
Total IPv6 Learnt Routes in IPv6 Routing Table: 0
Imported routes information:
IPv6 Imported Routes:
Static: 0 Direct: 0
ISISv6: 0 BGP4+: 0
RIPng: 0 OSPFv3: 0
Total Number: 0
Lsp information:
LSP Source ID: No. of used LSPs
7777.8888.1111 001
Table 24 Command output
|
Field |
Description |
|
Statistics information for IS-IS(processid) |
Statistics for the IS-IS process. |
|
Level-1 Statistics |
Level-1 statistics. |
|
Level-2 Statistics |
Level-2 statistics. |
|
MTR(topo-name) |
MTR topology. base represents the base topology. |
|
Learnt routes information |
· Total IPv4 Learnt Routes in IPv4 Routing Table—Number of learned IPv4 routes. · Total IPv6 Learnt Routes in IPv6 Routing Table—Number of learned IPv6 routes. |
|
IPv4 Imported Routes |
Numbers of different types of redistributed IPv4 routes, including static, direct, IS-IS, BGP, RIP, and OSPF routes. |
|
IPv6 Imported Routes |
Numbers of different types of redistributed IPv6 routes, including static, direct, IS-ISv6, BGP4+, RIPng, and OSPFv3 routes. |
|
Lsp information |
LSP information: · LSP Source ID—ID of the source system. · No. of used LSPs—Number of used LSPs. |
display osi
Use display osi to display OSI connection information.
Syntax
In standalone mode:
display osi [ slot slot-number ]
In IRF mode:
display osi [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays OSI connection information for all cards. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device or specifies a PEX. The chassis-number argument represents the member ID of the IRF member device or the virtual chassis number of the PEX. The slot-number argument represents the slot number of the card or PEX. On an IRF fabric, this command displays OSI connection information for all cards if you do not specify a card. On an IRF 3 system, this command displays OSI connection information for all cards and PEXs if you do not specify a card or PEX. (In IRF mode.)
Examples
# (In standalone mode.) Display OSI connection information.
<Sysname> display osi
Total OSI socket number: 2
Location: slot 0
Creator: isisd[1539]
State: N/A
Options: SO_FILTER
Error: 0
Receiving buffer(cc/hiwat/lowat/drop/state): 0 / 1048576 / 1 / 0 / N/A
Sending buffer(cc/hiwat/lowat/state): 0 / 262144 / 512 / N/A
Type: 2
Enabled interfaces:
Vlan-interface100
MAC address: 0180-c200-0014
Location: slot 0
Creator: isisd[1539]
State: N/A
Options: SO_FILTER
Error: 0
Receiving buffer(cc/hiwat/lowat/drop/state): 0 / 1048576 / 1 / 0 / N/A
Sending buffer(cc/hiwat/lowat/state): 0 / 262144 / 512 / N/A
Type: 2
Enabled interfaces:
Vlan-interface100
MAC address: 0180-c200-0014
Table 25 Command output
|
Field |
Description |
|
Total OSI socket number |
Total number of OSI sockets. |
|
Creator |
Name of the socket creator. The process ID of the creator is displayed in the square brackets. |
|
State |
This field always displays N/A. |
|
Options |
Socket options: · SO_FILTER—Filter option is configured. · N/A—No option is configured. |
|
Error |
Number of errors that affect the socket session. |
|
Receiving buffer(cc/hiwat/lowat/drop/state) |
Receiving buffer information, including the current used space, maximum space, minimum space, number of dropped packets, and status. |
|
Sending buffer(cc/hiwat/lowat/state) |
Sending buffer information, including the current used space, maximum space, minimum space, and status. |
|
Type |
Type 2 socket, corresponding to unreliable connectionless-oriented transport layer protocols. |
|
Enabled interfaces |
Input interfaces and matched multicast MAC addresses. Only packets received from Ethernet link-layer interfaces need to match the multicast MAC addresses. |
display osi statistics
Use display osi statistics to display OSI packet statistics.
Syntax
In standalone mode:
display osi statistics [ slot slot-number ]
In IRF mode:
display osi statistics [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
mdc-admin
mdc-operator
Parameters
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays OSI packet statistics for all cards. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device or specifies a PEX. The chassis-number argument represents the member ID of the IRF member device or the virtual chassis number of the PEX. The slot-number argument represents the slot number of the card or PEX. On an IRF fabric, this command displays OSI packet statistics for all cards if you do not specify a card. On an IRF 3 system, this command displays OSI packet statistics for all cards and PEXs if you do not specify a card or PEX. (In IRF mode.)
Examples
# Display OSI packet statistics.
<Sysname> display osi statistics
Received packets:
Total: 35
Relay received: 35
Relay forwarded: 35
Invalid service slot: 0
No matched socket: 0
Not delivered, input socket full: 0
Sent packets:
Total: 19
Relay forwarded: 19
Relay received: 19
Failed: 0
Table 26 Command output
|
Field |
Description |
|
Received packets |
Statistics of received packets: · Total—Total number of received link layer packets. · Relay received—Number of inbound packets on LPUs relayed from other cards. This count is not included in the total count of received packets. · Relay forwarded—Number of inbound packets relayed to LPUs. · Invalid service slot—Number of discarded packets due to unavailable LPUs. · No matched socket—Number of discarded packets due to mismatches in input interfaces, MAC addresses, or connection filter criteria. · Not delivered, input socket full—Number of undelivered packets due to a socket receiving buffer overflow. |
|
Sent packets |
Statistics of sent packets: · Total—Total number of packets that IS-IS sent over OSI connections. · Relay forwarded—Number of outbound packets relayed to the cards that hosts the output interfaces. This count is not included in the total count of sent packets. · Relay received—Number of outbound packets on the cards that hosts the output interfaces. These packets are relayed from other cards. · Failed—Number of packets failed to be sent. |
Related commands
reset osi statistics
domain-authentication send-only
Use domain-authentication send-only to configure IS-IS not to check the authentication information in the received Level-2 packets, including LSPs, CSNPs, and PSNPs.
Use undo domain-authentication send-only to restore the default.
Syntax
domain-authentication send-only
undo domain-authentication send-only
Default
When domain authentication mode and key are configured, a Level-2 or Level-1-2 router checks the authentication information in the received packets.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
When domain authentication mode and key are configured, a Level-2 or Level-1-2 router adds the key in the specified mode into transmitted Level-2 packets (including LSPs, CSNPs, and PSNPs). It also checks the key in the received Level-2 packets.
To prevent packet exchange failure in case of an authentication key change, configure IS-IS not to check the authentication information in the received packets.
Examples
# Configure IS-IS not to check the authentication information in the received packets.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] domain-authentication send-only
Related commands
area-authentication send-only
domain-authentication-mode
isis authentication send-only
domain-authentication-mode
Use domain-authentication-mode to specify the routing domain authentication mode and a key.
Use undo domain-authentication-mode to restore the default.
Syntax
domain-authentication-mode { { gca key-id { hmac-sha-1 | hmac-sha-224 | hmac-sha-256 | hmac-sha-384 | hmac-sha-512 } [ nonstandard ] | md5 | simple } { cipher | plain } string | keychain keychain-name } [ ip | osi ]
undo domain-authentication-mode
No routing domain authentication mode or key is configured.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
gca: Specifies the GCA mode.
key-id: Uniquely identifies an SA in the range of 1 to 65535. The sender inserts the Key ID into the authentication TLV, and the receiver authenticates the packet by using the SA that is selected based on the Key ID.
hmac-sha-1: Specifies the HMAC-SHA-1 algorithm.
hmac-sha-224: Specifies the HMAC-SHA-224 algorithm.
hmac-sha-256: Specifies the HMAC-SHA-256 algorithm.
hmac-sha-384: Specifies the HMAC-SHA-384 algorithm.
hmac-sha-512: Specifies the HMAC-SHA-512 algorithm.
nonstandard: Specifies the nonstandard GCA authentication mode.
md5: Specifies the MD5 authentication mode.
simple: Specifies the simple authentication mode.
cipher: Specifies a key in encrypted form.
plain: Specifies a key in plaintext form. For security purposes, the key specified in plaintext form will be stored in encrypted form.
string: Specifies the key. Its plaintext form is a case-sensitive string of 1 to 16 characters. Its encrypted form is a case-sensitive string of 33 to 53 characters.
keychain: Specifies the keychain authentication mode.
keychain-name: Specifies a keychain by its name, a case-sensitive string of 1 to 63 characters.
ip: Checks IP-related fields in LSPs.
osi: Checks OSI-related fields in LSPs.
Usage guidelines
The configured key in the specified mode is inserted into all outgoing Level-2 packets (LSP, CSNP, and PSNP) and is used for authenticating the incoming Level-2 packets.
IS-IS keychain authentication can operate correctly only when the keys in the keychain use the HMAC-MD5 authentication algorithm.
· Before IS-IS sends a Level-2 packet, it uses the valid send key obtained from the keychain to authenticate the packet. If no valid send key exists or the valid send key does not use the HMAC-MD5 algorithm, the authentication fails and the packet does not contain the authentication information.
· After IS-IS receives a Level-2 packet, it uses a valid accept key obtained from the keychain to authenticate the packet. If no valid accept key exists or all valid accept keys fail to authenticate the packet, the authentication fails and the packet is discarded.
All the backbone routers must have the same authentication mode and key.
If neither ip nor osi is specified, the OSI-related fields in LSPs are checked.
When you specify the GCA mode, follow these guidelines:
· If you do not specify the nonstandard keyword, the device can communicate only with devices that use the GCA mode.
· If you specify the nonstandard keyword, the device can communicate only with devices that use the nonstandard GCA mode.
Examples
# Set the routing domain authentication mode to simple, and set the plaintext key to 123456.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] domain-authentication-mode plain 123456
Related commands
area-authentication-mode
domain-authentication send-only
isis authentication-mode
fast-reroute
Use fast-reroute to configure IS-IS FRR.
Use undo fast-reroute to disable IS-IS FRR.
Syntax
fast-reroute { lfa | route-policy route-policy-name }
undo fast-reroute
Default
IS-IS FRR is disabled.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
lfa: Calculates a backup next hop through Loop Free Alternate (LFA) calculation for all routes.
route-policy route-policy-name: Uses the specified routing policy to designate a backup next hop. The route-policy-name argument is a case-sensitive string of 1 to 63 characters.
Usage guidelines
The LFA calculation of FRR and IS-IS TE are mutually exclusive.
Example
# Enable FRR for IS-IS process 1 and configure IS-IS FRR to calculate a backup next hop through LFA calculation for all routes.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] fast-reroute lfa
filter-policy export
Use filter-policy export to configure IS-IS to filter redistributed routes.
Use undo filter-policy export to remove the configuration.
Syntax
filter-policy { ipv4-acl-number | prefix-list prefix-list-name | route-policy route-policy-name } export [ protocol [ process-id ] ]
undo filter-policy export [ protocol [ process-id ] ]
Default
IS-IS does not filter redistributed routes.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
ipv4-acl-number: Specifies an ACL by its number in the range of 2000 to 3999 to filter redistributed routes.
prefix-list prefix-list-name: Specifies an IPv4 prefix list by its name, a case-sensitive string of 1 to 63 characters, to filter redistributed routes by destination address.
route-policy route-policy-name: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters, to filter redistributed routes.
protocol: Filters routes redistributed from the specified routing protocol. If no protocol is specified, the command filters all redistributed routes.
process-id: Specifies a process by its ID in the range of 1 to 65535. This argument is available only when the protocol is isis, ospf, or rip. The default process ID is 1.
Usage guidelines
To use an advanced ACL (with a number from 3000 to 3999) in the command, configure the ACL using one of the following methods:
· To deny/permit a route with the specified destination, use the rule [ rule-id ] { deny | permit } ip source sour-addr sour-wildcard command.
· To deny/permit a route with the specified destination and mask, use the rule [ rule-id ] { deny | permit } ip source sour-addr sour-wildcard destination dest-addr dest-wildcard command.
The source keyword specifies the destination address of a route and the destination keyword specifies the subnet mask of the route. For the configuration to take effect, specify a contiguous subnet mask.
Examples
# Use basic ACL 2000 to filter redistributed routes.
<Sysname> system-view
[Sysname] acl basic 2000
[Sysname-acl-ipv4-basic-2000] rule deny source 192.168.10.0 0.0.0.255
[Sysname-acl-ipv4-basic-2000] quit
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] filter-policy 2000 export
# Configure advanced ACL 3000 to permit only route 113.0.0.0/16 to pass. Use advanced ACL 3000 to filter redistributed routes.
[Sysname] acl advanced 3000
[Sysname-acl-ipv4-adv-3000] rule 10 permit ip source 113.0.0.0 0 destination 255.255.0.0 0
[Sysname-acl-ipv4-adv-3000] rule 100 deny ip
[Sysname-acl-ipv4-adv-3000] quit
[Sysname] isis 1
[Sysname-isis 1] address-family ipv4
[Sysname-isis-1-ipv4] filter-policy 3000 export
Related commands
display isis route
filter-policy import
Use filter-policy import to configure IS-IS to filter routes calculated using received LSPs.
Use undo filter-policy import to restore the default.
Syntax
filter-policy { ipv4-acl-number | prefix-list prefix-list-name | route-policy route-policy-name } import
undo filter-policy import
Default
IS-IS does not filter routes calculated using received LSPs.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
ipv4-acl-number: Specifies an ACL by its number in the range of 2000 to 3999 to filter routes calculated using received LSPs.
prefix-list prefix-list-name: Specifies an IPv4 prefix list by its name, a case-sensitive string of 1 to 63 characters, to filter routes calculated using received LSPs by destination address.
route-policy route-policy-name: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters, to filter received routes.
Usage guidelines
To use an advanced ACL (with a number from 3000 to 3999) in the command, configure the ACL using one of the following methods:
· To deny/permit a route with the specified destination, use the rule [ rule-id ] { deny | permit } ip source sour-addr sour-wildcard command.
· To deny/permit a route with the specified destination and mask, use the rule [ rule-id ] { deny | permit } ip source sour-addr sour-wildcard destination dest-addr dest-wildcard command.
The source keyword specifies the destination address of a route and the destination keyword specifies the subnet mask of the route. For the configuration to take effect, specify a contiguous subnet mask.
Examples
# Use basic ACL 2000 to filter routes calculated using received LSPs.
<Sysname> system-view
[Sysname] acl basic 2000
[Sysname-acl-ipv4-basic-2000] rule deny source 192.168.10.0 0.0.0.255
[Sysname-acl-ipv4-basic-2000] quit
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] filter-policy 2000 import
# Use advanced ACL 3000 to filter routes calculated using received LSPs and install only route 113.0.0.0/16 to the IP routing table.
<Sysname> system-view
[Sysname] acl advanced 3000
[Sysname-acl-ipv4-adv-3000] rule 10 permit ip source 113.0.0.0 0 destination 255.255.0.0 0
[Sysname-acl-ipv4-adv-3000] rule 100 deny ip
[Sysname-acl-ipv4-adv-3000] quit
[Sysname] isis 1
[Sysname-isis 1] address-family ipv4
[Sysname-isis-1-ipv4] filter-policy 3000 import
Related commands
display ip routing-table
flash-flood
Use flash-flood to enable IS-IS LSP flash flooding.
Use undo flash-flood to disable IS-IS LSP flash flooding.
Syntax
flash-flood [ flood-count flooding-count | max-timer-interval flooding-interval | [ level-1 | level-2 ] ] *
undo flash-flood [ level-1 | level-2 ]
Default
IS-IS LSP flash flooding is disabled.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
flood-count flooding-count: Specifies the maximum number of LSPs to be flooded before the next SPF calculation, in the range of 1 to 15. The default is 5.
max-timer-interval flooding-interval: Specifies the delay of the flash flooding, in the range of 10 to 50000 milliseconds. The default is 10.
level-1: Enables flash flooding for level-1.
level-2: Enables flash flooding for level-2.
Usage guidelines
If no level is specified, the command enables IS-IS LSP flash flooding for both Level-1 and Level-2.
Examples
# Enable fast flooding, and set the maximum LSPs to be sent to 10 and the delay time to 100 milliseconds.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] flash-flood flood-count 10 max-timer-interval 100
graceful-restart
Use graceful-restart to enable IS-IS GR.
Use undo graceful-restart to disable IS-IS GR.
Syntax
graceful-restart
undo graceful-restart
Default
IS-IS GR is disabled.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
IS-IS GR and IS-IS NSR are mutually exclusive. Therefore, do not configure the graceful-restart command and the non-stop-routing command at the same time.
Examples
# Enable GR for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] graceful-restart
Related commands
graceful-restart suppress-sa
graceful-restart suppress-sa
Use graceful-restart suppress-sa to suppress the Suppress-Advertisement (SA) bit during restart.
Use undo graceful-restart suppress-sa to restore the default.
Syntax
graceful-restart suppress-sa
undo graceful-restart suppress-sa
Default
The SA bit is set during restart.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
Suppressing the SA bit is mainly for avoiding black hole route. If a router starts or reboots without keeping the local forwarding table, sending packets to the router might result in severe packet loss. To avoid this, you can set the SA bit of the hello packet sent by the GR restarter to 1. Upon receiving such hello packets, the GR helpers will not advertise the GR restarter through LSP.
Examples
# Suppress the SA bit during graceful restart.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] graceful-restart suppress-sa
Related commands
graceful-restart
graceful-restart t1
Use graceful-restart t1 to set the T1 timer.
Use undo graceful-restart t1 to restore the default.
Syntax
graceful-restart t1 seconds count count
undo graceful-restart t1
Default
The T1 timer is 3 seconds and can expire 10 times.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
seconds: Specifies the T1 timer in the range of 3 to 10 seconds.
count: Specifies the number of times that the T1 timer can expire, in the range of 1 to 20.
Usage guidelines
The T1 timer specifies the number of times that GR restarter can send a Restart TLV with the RR bit set. After restart, the GR restarter sends a Restart TLV with the RR bit set to its neighbor. If the restarting router receives a Restart TLV with the RA set from its neighbor before the T1 timer expires, the GR process starts. Otherwise, the GR process fails.
Examples
# Set the T1 timer of IS-IS process 1 to 5 seconds, and the expiration times to 5.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] graceful-restart t1 5 count 5
Related commands
graceful-restart
graceful-restart t2
graceful-restart t3
graceful-restart t2
Use graceful-restart t2 to set the T2 timer.
Use undo graceful-restart t2 to restore the default.
Syntax
graceful-restart t2 seconds
undo graceful-restart t2
Default
The T2 timer is 60 seconds.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
seconds: Specifies the T2 timer in the range of 30 to 65535 seconds.
Usage guidelines
The T2 timer specifies the LSDB synchronization interval. Each LSDB has a T2 timer. The Level-1-2 router has two T2 timers: a Level-1 timer and a Level-2 timer. If the LSDBs have not achieved synchronization before the two timers expire, the GR process fails.
Examples
# Set the T2 timer of IS-IS process 1 to 50 seconds.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] graceful-restart t2 50
Related commands
graceful-restart
graceful-restart t1
graceful-restart t3
graceful-restart t3
Use graceful-restart t3 to set the T3 timer.
Use undo graceful-restart t3 to restore the default.
Syntax
graceful-restart t3 seconds
undo graceful-restart t3
Default
The T3 timer is 300 seconds.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
seconds: Specifies the T3 timer in the range of 300 to 65535 seconds.
Usage guidelines
The T3 timer specifies the GR interval. The GR interval is set as the holdtime in hello PDUs. Within the interval, the neighbors maintain their adjacency with the GR restarter. If the GR process has not completed within the holdtime, the neighbors tear down the neighbor relationship and the GR process fails.
Examples
# Set the T3 timer of IS-IS process 1 to 500 seconds.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] graceful-restart t3 500
Related commands
graceful-restart
graceful-restart t1
graceful-restart t2
ignore-att
Use ignore-att to configure IS-IS not to calculate the default route through the ATT bit.
Use undo ignore-att to restore the default.
Syntax
ignore-att
undo ignore-att
Default
IS-IS calculates the default route through the ATT bit.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Examples
# Configure IS-IS not to calculate the default route through the ATT bit.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] ignore-att
import-route
Use import-route to redistribute routes from another routing protocol or another IS-IS process.
Use undo import-route to remove the redistribution.
Syntax
import-route protocol [ as-number ] [ process-id | all-processes | allow-ibgp ] [ allow-direct | cost cost-value | cost-type { external | internal } | [ level-1 | level-1-2 | level-2 ] | route-policy route-policy-name | tag tag ] *
undo import-route protocol [ process-id | all-processes ]
Default
IS-IS does not redistribute routes from other routing protocols or processes.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
protocol: Redistributes routes from a routing protocol.
as-number: Specifies an AS by its number in the range of 1 to 4294967295. This argument applies only to the BGP protocol. If you do not specify this argument, the command redistributes all IPv4 EBGP routes. As a best practice, specify an AS to prevent the system from redistributing excessive routes.
process-id: Specifies a process by its ID in the range of 1 to 65535. It is available only when the protocol is isis, ospf, or rip.
all-processes: Redistributes routes from all the processes of the specified routing protocol. This keyword takes effect only when the protocol is rip, ospf, or isis.
allow-ibgp: Allows redistribution of IBGP routes. It is available when the protocol is BGP.
allow-direct: Redistributes the networks of the local interfaces enabled with the specified routing protocol. By default, the networks of the local interfaces are not redistributed. If you specify both the allow-direct keyword and the route-policy route-policy-name option, make sure the if-match rule defined in the routing policy does not conflict with the allow-direct keyword. For example, if you specify the allow-direct keyword, do not configure the if-match route-type rule for the routing policy. Otherwise, the allow-direct keyword does not take effect.
cost cost-value: Specifies a cost for redistributed routes, which is in the range of 0 to 4261412864.
· For the styles of narrow, narrow-compatible, and compatible, the cost is in the range of 0 to 63.
· For the styles of wide and wide-compatible, the cost is in the range of 0 to 4261412864.
cost-type { external | internal }: Specifies the cost type. The internal type indicates internal routes, and the external type indicates external routes. If external is specified, the cost of a redistributed route is added by 64 to make internal routes take priority over external routes. The type is external by default. The keywords are available only when the cost type is narrow, narrow-compatible, or compatible.
level-1: Redistributes routes into the Level-1 routing table.
level-1-2: Redistributes routes into both Level-1 and Level-2 routing tables.
level-2: Redistributes routes into the Level-2 routing table. If no level is specified, the routes are redistributed into the Level-2 routing table by default.
route-policy route-policy-name: Redistributes only routes matching the specified routing policy. The route-policy-name argument is a case-sensitive string of 1 to 63 characters.
tag tag: Specifies a tag value for marking redistributed routes, in the range of 1 to 4294967295.
Usage guidelines
IS-IS takes all the redistributed routes as external routes to destinations outside the IS-IS routing domain.
The effective cost varies by cost style. For the styles of narrow, narrow-compatible, and compatible, the cost is in the range of 0 to 63. If the cost is more than 63, 63 is used. For the style of wide or wide-compatible, the configured value is the effective value.
This import-route command cannot redistribute default routes. The command redistributes only active routes. To display route state information, use the display ip routing-table protocol command.
The import-route bgp command redistributes only EBGP routes.
The import-route bgp allow-ibgp command redistributes both EBGP and IBGP routes. Because this command might cause routing loops, use it with caution.
The undo import-route protocol all-processes command removes only the configuration made by the import-route protocol all-processes command, instead of the configuration made by the import-route protocol process-id command.
Examples
# Redistribute static routes into IS-IS, and set the cost for redistributed routes to 15.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] import-route static cost 15
Related commands
import-route limit
import-route isis level-1 into level-2
Use import-route isis level-1 into level-2 to enable route advertisement from Level-1 to Level-2.
Use undo import-route isis level-1 into level-2 to disable route advertisement from Level-1 to Level-2.
Syntax
import-route isis level-1 into level-2 [ filter-policy { ipv4-acl-number | prefix-list prefix-list-name | route-policy route-policy-name } | tag tag ] *
undo import-route isis level-1 into level-2
Default
Route advertisement from Level-1 to Level-2 is enabled.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
filter-policy: Specifies a filtering policy.
ipv4-acl-number: Specifies an ACL by its number in the range of 2000 to 3999 to filter routes from Level-1 to Level-2.
prefix-list prefix-list-name: Specifies an IPv4 prefix list by its name, a case-sensitive string of 1 to 63 characters, to filter routes from Level-1 to Level-2 by destination address.
route-policy route-policy-name: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters, to filter routes from Level-1 to Level-2.
tag tag: Specifies a tag for marking redistributed routes, in the range of 1 to 4294967295.
Usage guidelines
If a routing policy is used, the routing policy must be specified in the import-route isis level-1 into level-2 command to filter routes from Level-1 to Level-2. Other routing policies specified for route reception and redistribution do not affect the route leaking.
If a filtering policy is configured, only Level-1 routes not filtered out can be advertised into the Level-2 area.
Examples
# Enable route advertisement from Level-1 to Level-2.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] import-route isis level-1 into level-2
Related commands
import-route
import-route isis level-1 into level-2
import-route isis level-2 into level-1
Use import-route isis level-2 into level-1 to enable route advertisement from Level-2 to Level-1.
Use undo import-route isis level-2 into level-1 to restore the default.
Syntax
import-route isis level-2 into level-1 [ filter-policy { ipv4-acl-number | prefix-list prefix-list-name | route-policy route-policy-name } | tag tag ] *
undo import-route isis level-2 into level-1
Default
Route advertisement from Level-2 to Level-1 is disabled.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
filter-policy: Specifies a filtering policy.
ipv4-acl-number: Specifies an ACL by its number in the range of 2000 to 3999 to filter routes from Level-2 to Level-1.
prefix-list prefix-list-name: Specifies an IPv4 prefix list by its name, a case-sensitive string of 1 to 63 characters, to filter routes from Level-2 to Level-1 by destination address.
route-policy route-policy-name: Uses the specified routing policy to filter routes from Level-2 to Level-1. The route-policy-name argument is a case-sensitive string of 1 to 63 characters.
tag tag: Specifies a tag for marking redistributed routes, in the range of 1 to 4294967295.
Usage guidelines
If a routing policy is used, the routing policy must be specified in the import-route isis level-2 into level-1 command to filter routes from Level-2 to Level-1. Other routing policies specified for route reception and redistribution does not affect the route leaking.
If a filtering policy is configured, only Level-2 routes not filtered out can be advertised into the Level-1 area.
Examples
# Enable route advertisement from Level-2 to Level-1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] import-route isis level-2 into level-1
Related commands
import-route
import-route isis level-1 into level-2
import-route limit
Use import-route limit to configure the maximum number of redistributed Level 1/Level 2 IPv4 routes.
Use undo import-route limit to restore the default.
Syntax
import-route limit number
undo import-route limit
Default
The maximum number of redistributed Level 1/Level 2 IPv4 routes is not configured.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
number: Specifies the maximum number of redistributed Level 1/Level 2 IPv4 routes. The value range for this argument is 1 to 1048576.
Examples
# Configure IS-IS process 1 to redistribute up to 1000 Level 1/Level 2 IPv4 routes.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] import-route limit 1000
Related commands
import-route
isis
Use isis to enable IS-IS and enter IS-IS view.
Use undo isis to disable IS-IS.
Syntax
isis [ process-id ] [ vpn-instance vpn-instance-name ]
undo isis [ process-id ]
Default
IS-IS is disabled.
Views
System view
Predefined user roles
network-admin
mdc-admin
Parameters
process-id: Specifies an IS-IS process by its ID in the range of 1 to 65535. The default is 1.
vpn-instance vpn-instance-name: Specifies an MPLS L3VPN instance by its name, a case-sensitive string of 1 to 31 characters. If no VPN instance is specified, the IS-IS process runs on the public network.
Examples
# Enable IS-IS process 1 and set the system ID to 0000.0000.0002 and area ID to 01.0001.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] network-entity 01.0001.0000.0000.0002.00
Related commands
isis enable
isis authentication send-only
Use isis authentication send-only to configure an IS-IS interface not to check the authentication information in the received hello packets.
Use undo isis authentication send-only to remove the configuration.
Syntax
isis authentication send-only [ level-1 | level-2 ]
undo isis authentication send-only [ level-1 | level-2 ]
Default
When interface authentication mode and key are configured, an IS-IS interface checks the authentication information in the received packets.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
level-1: Configures IS-IS not to check the authentication information in the received Level-1 hello packets.
level-2: Configures IS-IS not to check the authentication information in the received Level-2 hello packets.
Usage guidelines
When peer authentication mode and key are configured, an IS-IS interface adds the key in the specified mode into transmitted hello packets. It also checks the key in the received hello packets.
To prevent packet exchange failure in case of an authentication key change, configure the IS-IS interface not to check the authentication information in the received packets.
Examples
# Configure VLAN-interface 10 not to check the authentication information in the received Level-1 hello packets.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis authentication send-only level-1
Related commands
area-authentication send-only
domain-authentication send-only
isis authentication-mode
isis authentication-mode
Use isis authentication-mode to specify the neighbor relationship authentication mode and a key.
Use undo isis authentication-mode to remove the configuration.
Syntax
isis authentication-mode { { gca key-id { hmac-sha-1 | hmac-sha-224 | hmac-sha-256 | hmac-sha-384 | hmac-sha-512 } [ nonstandard ] | md5 | simple } { cipher | plain } string | keychain keychain-name } [ level-1 | level-2 ] [ ip | osi ]
undo isis authentication-mode [ level-1 | level-2 ]
Default
No neighbor relationship authentication mode or key is configured.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
gca: Specifies the GCA mode.
key-id: Uniquely identifies an SA in the range of 1 to 65535. The sender inserts the Key ID into the authentication TLV, and the receiver authenticates the packet by using the SA that is selected based on the Key ID.
hmac-sha-1: Specifies the HMAC-SHA-1 algorithm.
hmac-sha-224: Specifies the HMAC-SHA-224 algorithm.
hmac-sha-256: Specifies the HMAC-SHA-256 algorithm.
hmac-sha-384: Specifies the HMAC-SHA-384 algorithm.
hmac-sha-512: Specifies the HMAC-SHA-512 algorithm.
nonstandard: Specifies the nonstandard GCA mode.
md5: Specifies the MD5 authentication mode.
simple: Specifies the simple authentication mode.
cipher: Specifies a key in encrypted form.
plain: Specifies a key in plaintext form. For security purposes, the key specified in plaintext form will be stored in encrypted form.
string: Specifies the key. Its plaintext form is a case-sensitive string of 1 to 16 characters. Its encrypted form is a case-sensitive string of 33 to 53 characters.
keychain: Specifies the keychain authentication mode.
keychain-name: Specifies a keychain by its name, a case-sensitive string of 1 to 63 characters.
level-1: Configures the key for Level-1.
level-2: Configures the key for Level-2.
ip: Checks IP-related fields in LSPs and SNPs.
osi: Checks OSI-related fields in LSPs and SNPs.
Usage guidelines
The key in the specified mode is inserted into all outbound hello packets and is used for authenticating inbound hello packets. Only if the authentication succeeds can the neighbor relationship be formed.
IS-IS keychain authentication can operate correctly only when the keys in the keychain use the HMAC-MD5 authentication algorithm.
· Before IS-IS sends a Hello packet, it uses the valid send key obtained from the keychain to authenticate the packet. If no valid send key exists or the valid send key does not use the HMAC-MD5 algorithm, the authentication fails and the packet does not contain the authentication information.
· After IS-IS receives a Hello packet, it uses a valid accept key obtained from the keychain to authenticate the packet. If no valid accept key exists or all valid accept keys fail to authenticate the packet, the authentication fails and the packet is discarded.
The level-1 and level-2 keywords are configurable on an interface that has had IS-IS enabled with the isis enable command.
If you configure a key without specifying a level, the key applies to both Level-1 and Level-2.
For two routers to become neighbors, the authentication mode and key at both ends must be identical.
If neither ip nor osi is specified, the OSI-related fields in LSPs are checked.
When you specify the GCA mode, follow these guidelines:
· If you do not specify the nonstandard keyword, the device can communicate only with devices that use the GCA mode.
· If you specify the nonstandard keyword, the device can communicate only with devices that use the nonstandard GCA mode.
Examples
# On VLAN-interface 10, set the authentication mode to simple, and set the plaintext key to 123456.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis authentication-mode simple plain 123456
Related commands
area-authentication-mode
domain authentication-mode
isis authentication send-only
isis bfd enable
Use isis bfd enable to enable BFD.
Use undo isis bfd enable to disable BFD.
Syntax
isis bfd enable
undo isis bfd enable
Default
IS-IS BFD is disabled.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Examples
# Enable BFD for IS-IS on VLAN-interface 11.
<Sysname> system-view
[Sysname] interface vlan-interface 11
[Sysname-Vlan-interface11] isis enable
[Sysname-Vlan-interface11] isis bfd enable
isis circuit-level
Use isis circuit-level to set the circuit level for the interface.
Use undo isis circuit-level to restore the default.
Syntax
isis circuit-level [ level-1 | level-1-2 | level-2 ]
undo isis circuit-level
Default
An interface can establish either the Level-1 or Level-2 adjacency.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
level-1: Sets the circuit level to Level-1.
level-1-2: Sets the circuit level to Level-1-2.
level-2: Sets the circuit level to Level-2.
Usage guidelines
For a Level-1 (Level-2) router, the circuit level can only be Level-1 (Level-2). For a Level-1-2 router, you must specify a circuit level for a specific interface to form only the specified level neighbor relationship.
Examples
# VLAN-interface 10 is connected to a non-backbone router in the same area. Set the circuit level of VLAN-interface 10 to Level-1 to prevent sending and receiving Level-2 Hello packets.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis enable
[Sysname-Vlan-interface10] isis circuit-level level-1
Related commands
is-level
isis circuit-type p2p
Use isis circuit-type p2p to set the network type of an interface to P2P.
Use undo isis circuit-type to restore the default.
Syntax
isis circuit-type p2p
undo isis circuit-type
Default
The network type of an interface varies by physical media. (The network type of a VLAN interface is broadcast.)
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
Use this command only on a broadcast network with two attached routers.
Interfaces with different network types operate differently. For example, broadcast interfaces must elect a DIS and flood CSNP packets to synchronize the LSDBs. P2P interfaces do not need to elect a DIS, and use a different LSDB synchronization mechanism.
If only two routers exist on a broadcast network, set the network type of attached interfaces to P2P to avoid DIS election and CSNP flooding. This saves network bandwidth and speeds up network convergence.
Examples
# Set the network type of VLAN-interface 10 to P2P.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis enable
[Sysname-Vlan-interface10] isis circuit-type p2p
isis cost
Use isis cost to set the IS-IS cost for an interface.
Use undo isis cost to remove the configuration.
Syntax
isis cost cost-value [ level-1 | level-2 ]
undo isis cost [ level-1 | level-2 ]
Default
No IS-IS cost is configured for an interface.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
cost-value: Specifies an IS-IS cost in the range of 1 to 16777215.
level-1: Applies the cost to Level-1.
level-2: Applies the cost to Level-2.
Usage guidelines
If neither level-1 nor level-2 is included, the cost applies to both level-1 and level-2.
Examples
# Set the Level-2 IS-IS cost to 5 for VLAN-interface 10.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis cost 5 level-2
Related commands
auto-cost enable
bandwidth-reference
isis dis-name
Use isis dis-name to configure a name for a DIS to represent the pseudo node on a broadcast network.
Use undo isis dis-name to restore the default.
Syntax
isis dis-name symbolic-name
undo isis dis-name
Default
No name is configured for the DIS.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
symbolic-name: Specifies a DIS name, a case-insensitive string of 1 to 64 characters.
Usage guidelines
This command takes effect only on routers that have dynamic system ID to host name mapping enabled. This command does not take effect on Point-to-Point interfaces.
Examples
# Set the DIS name to LOCALAREA.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis dis-name LOCALAREA
Related commands
display isis name-table
is-name
isis dis-priority
Use isis dis-priority to specify a DIS priority at a specified level for an interface.
Use undo isis dis-priority to remove the configuration.
Syntax
isis dis-priority priority [ level-1 | level-2 ]
undo isis dis-priority [ level-1 | level-2 ]
Default
The priority of Level-1 and Level-2 is 64.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
priority: Specifies a DIS priority in the range of 0 to 127.
level-1: Applies the DIS priority to Level-1.
level-2: Applies the DIS priority to Level-2.
Usage guidelines
On an IS-IS broadcast network, a router must be elected as the DIS at each routing level. Specify a DIS priority at a level for an interface. The greater the interface's priority is, the more likelihood it becomes the DIS. If multiple routers in the broadcast network have the same highest DIS priority, the router with the highest Subnetwork Point of Attachment (SNPA) address becomes the DIS. SNPA addresses are MAC addresses on a broadcast network.
IS-IS has no backup DIS. The router with a priority of 0 can also participate in DIS election.
If neither level-1 nor level-2 is specified, the DIS priority applies to both Level-1 and Level-2.
Examples
# Set the Level-2 DIS priority to 127 for VLAN-interface 10.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis dis-priority 127 level-2
isis enable
Use isis enable to enable an IS-IS process on an interface.
Use undo isis enable to disable IS-IS.
Syntax
isis enable [ process-id ]
undo isis enable
Default
No IS-IS process is enabled on an interface.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
process-id: Specifies an IS-IS process by its ID in the range of 1 to 65535. The default is 1.
Examples
# Enable IS-IS process 1 globally and enable it on VLAN-interface 10.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] network-entity 10.0001.1010.1020.1030.00
[Sysname-isis-1] quit
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis enable 1
Related commands
isis
isis fast-reroute lfa-backup exclude
Use isis fast-reroute lfa-backup exclude to disable LFA calculation on an interface.
Use undo isis fast-reroute lfa-backup exclude to restore the default.
Syntax
isis fast-reroute lfa-backup exclude
undo isis fast-reroute lfa-backup exclude
Default
LFA calculation is enabled on an interface, and the interface can be elected as a backup interface.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
When this command is configured, the interface does not participate in the LFA calculation, and cannot be elected as a backup interface.
Examples
# Disable LFA calculation on VLAN-interface 10.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] network-entity 10.0001.1010.1020.1030.00
[Sysname-isis-1] quit
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis enable 1
[Sysname-Vlan-interface10] isis fast-reroute lfa-backup exclude
Related commands
fast-reroute
isis mesh-group
Use isis mesh-group to add an interface into a mesh group or block the interface.
Use undo isis mesh-group to restore the default.
Syntax
isis mesh-group { mesh-group-number | mesh-blocked }
undo isis mesh-group
Default
An interface does not belong to any mesh group and is not blocked.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
mesh-group-number: Specifies a mesh group by its number in the range of 1 to 4294967295.
mesh-blocked: Configures the interface to send LSPs only after receiving LSP requests.
Usage guidelines
An interface not in a mesh group floods received LSPs to other interfaces. For an NBMA network with multiple point-to-point links, this mechanism causes repeated LSP flooding and bandwidth waste.
To solve this problem, use this command to add relevant interfaces to a mesh group. An interface in a mesh group only floods a received LSP to interfaces not in the same mesh group.
You can also use this command to block an interface. A blocked interface sends LSPs only after receiving LSP requests.
The mesh-group feature takes effect only on point-to-point links.
Examples
# Add VLAN interface VLAN-interface 10 to mesh group 3.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis mesh-group 3
isis mib-binding
Use isis mib-binding to bind an IS-IS process to MIB.
Use undo isis mib-binding to restore the default.
Syntax
isis mib-binding process-id
undo isis mib-binding
Default
MIB operation is bound to the IS-IS process with the smallest process ID.
Views
System view
Predefined user roles
network-admin
mdc-admin
Parameters
process-id: Specifies an IS-IS process by its ID in the range of 1 to 65535.
Usage guidelines
If the specified the process ID does not exist, the MIB binding configuration fails.
Deleting an IS-IS process bound to MIB operation deletes the MIB binding configuration. MIB operation is bound to the IS-IS process with the smallest process ID.
Examples
# Bind IS-IS process 100 to MIB.
<Sysname> system-view
[Sysname] isis mib-binding 100
isis prefix-suppression
Use isis prefix-suppression to enable prefix suppression on an interface.
Use undo isis prefix-suppression to disable prefix suppression on an interface.
Syntax
isis prefix-suppression
undo isis prefix-suppression
Default
Prefix suppression is disabled on an interface.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
Use this command to disable an interface from advertising its prefix in LSPs. This enhances network security by preventing IP routing to the interval nodes and speeds up network convergence.
This command is also applicable to the secondary IP address of the interface.
Examples
# Enable prefix suppression on VLAN-interface 10.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis prefix-suppression
isis primary-path-detect bfd
Use isis primary-path-detect bfd echo to enable BFD for IS-IS FRR or IS-IS PIC.
Use undo isis primary-path-detect bfd to disable BFD for IS-IS FRR or IS-IS PIC.
Syntax
isis primary-path-detect bfd { ctrl | echo }
undo isis primary-path-detect bfd
Default
BFD is disabled for IS-IS FRR or IS-IS PIC.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
ctrl: Specifies the BFD control packet mode.
echo: Specifies the BFD echo packet mode.
Usage guidelines
This command enables IS-IS FRR or IS-IS PIC to use BFD to detect primary link failures.
Examples
# Enable BFD control packet mode for IS-IS FRR on VLAN-interface 10.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] fast-reroute lfa
[Sysname-isis-1-ipv4] quit
[Sysname-isis-1] quit
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis primary-path-detect bfd ctrl
# Enable BFD echo packet mode for IS-IS PIC on VLAN-interface 11.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] pic additional-path-always
[Sysname-isis-1] quit
[Sysname] bfd echo-source-ip 1.1.1.1
[Sysname] interface vlan-interface 11
[Sysname-Vlan-interface11] isis primary-path-detect bfd echo
isis silent
Use isis silent to disable the interface from sending and receiving IS-IS packets.
Use undo isis silent to restore the default.
Syntax
isis silent
undo isis silent
Default
An interface can send and receive IS-IS packets.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
This command is not available in loopback interface view.
Examples
# Disable VLAN-interface 10 from sending and receiving IS-IS packets.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis silent
isis small-hello
Use isis small-hello to configure the interface to send small hello packets without CLVs.
Use undo isis small-hello to restore the default.
Syntax
isis small-hello
undo isis small-hello
Default
An interface sends standard hello packets.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
This command is not available in loopback interface view.
Examples
# Configure VLAN-interface 10 to send small Hello packets.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis small-hello
isis tag
Use isis tag to configure the tag value for an interface.
Use undo isis tag to restore the default.
Syntax
isis tag tag
undo isis tag
Default
The interface is not configured with a tag value.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
tag: Specifies the tag value in the range of 1 to 4294967295.
Usage guidelines
When IS-IS advertises an IP prefix with a tag value, it adds the tag to the IP reachability information TLV if the link cost style is wide, wide-compatible, or compatible.
Examples
# Configure the tag value for VLAN-interface 10.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis tag 4294967295
isis timer csnp
Use isis timer csnp to set on the DIS of a broadcast network the interval for sending CSNP packets.
Use undo isis timer csnp to remove the configuration.
Syntax
isis timer csnp seconds [ level-1 | level-2 ]
undo isis timer csnp [ level-1 | level-2 ]
Default
The default CSNP interval is 10 seconds.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
seconds: Specifies on the DIS of a broadcast network the interval for sending CSNP packets. The value range is 1 to 600 seconds.
level-1: Applies the interval to Level-1.
level-2: Applies the interval to Level-2.
Usage guidelines
On a broadcast network, this command only applies to the DIS, because the DIS sends CSNP packets periodically for LSDB synchronization.
If no level is specified, the CSNP interval applies to both Level-1 and Level-2.
Examples
# Configure Level-2 CSNP packets to be sent every 15 seconds over VLAN-interface 10.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis timer csnp 15 level-2
isis timer hello
Use isis timer hello to set the interval for sending hello packets.
Use undo isis timer hello to remove the configuration.
Syntax
isis timer hello seconds [ level-1 | level-2 ]
undo isis timer hello [ level-1 | level-2 ]
Default
The hello interval is 10 seconds.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
seconds: Specifies the interval for sending hello packets, in the range of 3 to 255 seconds.
level-1: Specifies the interval for sending Level-1 hello packets.
level-2: Specifies the interval for sending Level-2 hello packets.
Usage guidelines
If a neighbor does not receive any hello packets from the router within the advertised hold time, it considers the router down and recalculates the routes. The hold time is the hello multiplier multiplied by the hello interval.
Level-1 and Level-2 hello packets are sent independently on a broadcast network, so you need to specify an interval for each level. On a P2P link, Level-1 and Level-2 packets are both sent in P2P hello packets, and you need not specify an interval for each level.
You can configure the level-1 and level-2 keywords only on broadcast interfaces. Before you configure the level-1 or level-2 keyword, enable IS-IS on the interface.
The shorter the interval, the more system resources will be occupied.
If no level is specified, the hello interval applies to both Level-1 and Level-2.
Examples
# Configure Level-2 hello packets to be sent every 20 seconds over VLAN-interface 10.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis timer hello 20 level-2
Related commands
isis timer holding-multiplier
isis timer holding-multiplier
Use isis timer holding-multiplier to set the IS-IS hello multiplier.
Use undo isis timer holding-multiplier to remove the configuration.
Syntax
isis timer holding-multiplier value [ level-1 | level-2 ]
undo isis timer holding-multiplier [ level-1 | level-2 ]
Default
The default IS-IS hello multiplier is 3.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
value: Specifies the number of hello intervals, in the range of 3 to 1000.
level-1: Applies the number to the Level-1 IS-IS neighbor.
level-2: Applies the number to the Level-2 IS-IS neighbor.
Usage guidelines
The hello multiplier is the number of hello packets a neighbor must miss before declaring the router is down.
If a neighbor does not receive any hello packets from the router within the advertised hold time, it considers the router down and recalculates the routes. The hold time is the hello multiplier multiplied by the hello interval.
Level-1 and Level-2 hello packets are sent independently on a broadcast network, so you need to specify a hello multiplier for each level. On a P2P link, Level-1 and Level-2 packets are both sent in P2P hello packets, and you need not specify Level-1 or Level-2.
You can configure the level-1 and level-2 keywords only on broadcast interfaces. Before you configure the level-1 or level-2 keyword, enable IS-IS on the interface.
If no level is specified, the hello multiplier applies to both Level-1 and Level-2.
The value of hello multiplier multiplied by hello interval cannot be more than 65535.
Examples
# Set the hello multiplier to 6 for VLAN-interface 10.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis timer holding-multiplier 6
Related commands
isis timer hello
isis timer lsp
Use isis timer lsp to set the minimum interval for sending LSPs on the interface and specify the maximum number of LSPs that can be sent per time.
Use undo isis timer lsp to restore the default.
Syntax
isis timer lsp time [ count count ]
undo isis timer lsp
Default
The minimum interval for sending LSPs on the interface is 33 milliseconds, and the maximum number of LSPs that can be sent at a time is 5.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
time: Specifies the minimum interval for sending link-state packets, in the range of 1 to 1000 milliseconds.
count: Specifies the maximum number of link-state packets to be sent at one time, in the range of 1 to 1000.
Usage guidelines
If a change occurs in the LSDB, IS-IS advertises the changed LSP to neighbors. You can specify the minimum interval for sending these LSPs to control the amount of LSPs on the network.
Examples
# Set the interval to 500 milliseconds for sending LSPs on VLAN-interface 10.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis timer lsp 500
Related commands
isis timer retransmit
isis timer retransmit
Use isis timer retransmit to configure the interval for retransmitting LSP packets over a point-to-point link.
Use undo isis timer retransmit to restore the default.
Syntax
isis timer retransmit seconds
undo isis timer retransmit
Default
The retransmission interval on a P2P link is 5 seconds.
Views
Interface view
Predefined user roles
network-admin
mdc-admin
Parameters
seconds: Specifies the interval for retransmitting LSP packets, in the range of 1 to 300 seconds.
Usage guidelines
On a P2P link, IS-IS requires an advertised LSP be acknowledged. If no acknowledgment is received within a configurable interval, IS-IS will retransmit the LSP.
You do not need to use this command over a broadcast link where CSNPs are periodically broadcast to implement LSDB synchronization.
Examples
# Set the LSP retransmission interval on a P2P link to 50 seconds for VLAN-interface 10.
<Sysname> system-view
[Sysname] interface vlan-interface 10
[Sysname-Vlan-interface10] isis circuit-type p2p
[Sysname-Vlan-interface10] isis timer retransmit 50
Related commands
isis circuit-type p2p
isis timer lsp
is-level
Use is-level to specify the IS level.
Use undo is-level to restore the default.
Syntax
is-level { level-1 | level-1-2 | level-2 }
undo is-level
Default
The IS level is level-1-2.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
level-1: Specifies Level-1, which means IS-IS only calculates intra-area routes and maintains the Level-1 LSDB.
level-1-2: Specifies Level-1-2, which means IS-IS calculates routes and maintains the LSDBs for both Level-1 and Level-2.
level-2: Specifies Level-2, which means IS-IS calculates routes and maintains the LSDB for Level-2 only.
Usage guidelines
If the only area is an IP network, configure all the routers as Level-2 for scalability.
Examples
# Set the IS level to Level-1 for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] is-level level-1
is-name
Use is-name to specify a host name for the IS and enable dynamic system ID to hostname mapping.
Use undo is-name to disable dynamic system ID to hostname mapping.
Syntax
is-name sys-name
undo is-name
Default
Dynamic system ID to hostname mapping is disabled, and no host name is configured for the IS.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
sys-name: Specifies a host name for the local IS, a case-insensitive string of 1 to 64 characters.
Usage guidelines
To display the host name rather than the system ID of an IS by using the display isis lsdb command, first enable dynamic system ID to hostname mapping.
Examples
# Configure a host name for the local IS.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] is-name RUTA
Related commands
display isis name-table
is-name map
Use is-name map to configure a system ID to host name mapping for a remote IS.
Use undo is-name map to remove the mapping.
Syntax
is-name map sys-id map-sys-name
undo is-name map sys-id
Default
No system ID to host name mapping is configured for a remote IS.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
sys-id: Specifies the system ID or pseudonode ID of a remote IS.
map-sys-name: Specifies a host name for the remote IS, a case-insensitive string of 1 to 64 characters.
Usage guidelines
Each remote IS system ID corresponds to only one name.
Examples
# Map the host name RUTB to the system ID 0000.0000.0041 of the remote IS.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] is-name map 0000.0000.0041 RUTB
Related commands
display isis name-table
ispf enable
Use ispf enable to enable IS-IS incremental SPF (ISPF).
Use undo ispf enable to disable IS-IS ISPF.
Syntax
ispf enable
undo ispf enable
Default
IS-IS ISPF is enabled.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
When a network topology is changed, ISPF recomputes only the affected part of the SPT, instead of the entire SPT.
Examples
# Enable IS-IS ISPF.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] ispf enable
log-peer-change
Use log-peer-change to enable the logging of neighbor state changes.
Use undo log-peer-change to disable the logging.
Syntax
log-peer-change
undo log-peer-change
Default
The logging of IS-IS neighbor state changes is enabled.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
This command enables sending logs about IS-IS neighbor state changes to the information center. For IS-IS neighbor state change logs to be sent correctly, you must also configure the information center parameters on the device. For more information about information center, see the network management and monitoring configuration guide for the device.
Examples
# Disable the logging of IS-IS neighbor state changes.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] undo log-peer-change
lsp-fragments-extend
Use lsp-fragments–extend to enable LSP fragment extension for a level.
Use undo lsp-fragments–extend to restore the default.
Syntax
lsp-fragments-extend [ level-1 | level-1-2 | level-2 ]
undo lsp-fragments-extend
Default
LSP fragment extension is disabled.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
level-1: Applies the fragment extension to Level-1 LSPs.
level-1-2: Applies the fragment extension to both Level-1 and Level-2 LSPs.
level-2: Applies the fragment extension to Level-2 LSPs.
Usage guidelines
If no level is specified, the command enables LSP fragment extension for both Level-1 and Level-2.
Examples
# Enable LSP fragment extension for Level-2.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] lsp-fragments-extend level-2
lsp-length originate
Use lsp-length originate to configure the maximum size of generated Level-1 or Level-2 LSPs.
Use undo lsp-length originate to remove the configuration.
Syntax
lsp-length originate size [ level-1 | level-2 ]
undo lsp-length originate [ level-1 | level-2 ]
Default
The maximum size of generated Level-1 and Level-2 LSPs is 1497 bytes.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
size: Specifies the maximum size of LSP packets, in the range of 512 to 16384 bytes.
level-1: Applies the size to Level-1 LSP packets.
level-2: Applies the size to Level-2 LSP packets.
Usage guidelines
If neither Level-1 nor Level-2 is specified in the command, the configured maximum size applies to the current IS-IS level.
Examples
# Set the maximum size of the generated Level-2 LSPs to 1024 bytes.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] lsp-length originate 1024 level-2
lsp-length receive
Use lsp-length receive to configure the maximum size of received LSPs.
Use undo lsp-length receive to restore the default.
Syntax
lsp-length receive size
undo lsp-length receive
Default
The maximum size of received LSPs is 1497 bytes.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
size: Specifies the maximum size of received LSPs, in the range of 512 to 16384 bytes.
Examples
# Configure the maximum size of received LSPs to 1024 bytes.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] lsp-length receive 1024
maximum load-balancing
Use maximum load-balancing to configure the maximum number of ECMP routes for load balancing.
Use undo maximum load-balancing to restore the default.
Syntax
maximum load-balancing number
undo maximum load-balancing
Default
The maximum number of IS-IS ECMP routes equals the maximum number of ECMP routes supported by the system.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
number: Specifies the maximum number of ECMP routes. The value of 1 indicates that IS-IS does not perform load balancing. The value range for this argument is 1 to 32.
Usage guidelines
If you use the max-ecmp-num command to configure the maximum number of ECMP routes supported by the system as m:
· The default setting for the maximum load-balancing command is m.
· The value range for the number argument of the maximum load-balancing command is 1 to m.
Examples
# Set the maximum number of ECMP routes to 2.
<Sysname> system-view
[Sysname] isis 100
[Sysname-isis-100] address-family ipv4
[Sysname-isis-100-ipv4] maximum load-balancing 2
Related commands
max-ecmp-num
network-entity
Use network-entity to configure the Network Entity Title (NET) for an IS-IS process.
Use undo network-entity to delete a NET.
Syntax
network-entity net
undo network-entity net
Default
No NET is configured.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
Usage guidelines
A NET is a special NSAP address with the SEL being 0. The length of the NET is in the range of 8 to 20 bytes.
A NET comprises the following parts:
· Area ID—With a length of 1 to 13 bytes.
· System ID—A system ID uniquely identifies a host or router in the area and has a fixed 6-byte length.
· SEL—It has a value of 0 and a fixed 1-byte length.
For example, a NET of ab.cdef.1234.5678.9abc.00 specifies the area ID ab.cdef, the system ID 1234.5678.9abc, and the SEL 00.
Examples
# Set the NET to 10.0001.1010.1020.1030.00, of which 10.0001 is the area ID and 1010.1020.1030 is the system ID.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] network-entity 10.0001.1010.1020.1030.00
Related commands
isis
isis enable
non-stop-routing
Use non-stop-routing to enable IS-IS NSR.
Use undo non-stop-routing to disable IS-IS NSR.
Syntax
non-stop-routing
undo non-stop-routing
Default
IS-IS NSR is disabled.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
IS-IS NSR takes effect on a per-process basis. As a best practice, enable NSR for each IS-IS process.
IS-IS NSR and IS-IS GR are mutually exclusive. Therefore, do not configure the non-stop-routing command and the graceful-restart command at the same time.
Examples
# Enable NSR for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] non-stop-routing
pic
Use pic to enable IS-IS PIC.
Use undo pic to disable IS-IS PIC.
Syntax
pic [ additional-path-always ]
undo pic
Default
IS-IS PIC is enabled.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
additional-path-always: Allows the indirect suboptimal route as the backup route.
Usage guidelines
Prefix Independent Convergence (PIC) enables the device to speed up network convergence by ignoring the number of prefixes. PIC applies only to indirect routes.
When both IS-IS PIC and IS-IS FRR are configured, only IS-IS FRR takes effect.
Examples
# Configure IS-IS PIC to support the indirect suboptimal route as the backup route.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] pic additional-path-always
preference
Use preference to configure the preference for IS-IS.
Use undo preference to restore the default.
Syntax
preference { preference | route-policy route-policy-name } *
undo preference
Default
IS-IS preference is 15.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
preference: Specifies an IS-IS protocol preference in the range of 1 to 255.
route-policy route-policy-name: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters, to assign a priority to the matching routes.
Usage guidelines
If multiple routing protocols find routes to the same destination, the route found by the routing protocol with the highest preference is selected as the optimal route.
If a routing policy is specified in this command, the preference set by the routing policy applies to the matching routes. Other routes use the preference set by the preference command.
Examples
# Set the preference for IS-IS to 25.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] preference 25
prefix-priority
Use prefix-priority to assign convergence priorities to specific IS-IS routes.
Use undo prefix-priority to remove the configuration.
Syntax
prefix-priority { critical | high | medium } { prefix-list prefix-list-name | tag tag-value }
prefix-priority route-policy route-policy-name
undo prefix-priority { critical | high | medium } [ prefix-list | tag ]
undo prefix-priority route-policy
Default
IS-IS routes have the lowest convergence priority.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
critical: Specifies the highest convergence priority.
high: Specifies the high convergence priority.
medium: Specifies the medium convergence priority.
prefix-list prefix-list-name: Specifies an IP prefix list by its name, a case-sensitive string of 1 to 63 characters.
tag tag-value: Specifies a tag value in the range of 1 to 4294967295.
route-policy route-policy-name: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters.
Usage guidelines
The higher the convergence priority, the faster the convergence speed.
IS-IS host routes have a medium convergence priority.
Examples
# Assign the high convergence priority to IS-IS routes permitted by IP prefix list standtest.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] prefix-priority high prefix-list standtest
reset isis all
Use reset isis all to clear all IS-IS data structure information.
Syntax
reset isis all [ process-id ] [ graceful-restart ]
Views
User view
Predefined user roles
network-admin
mdc-admin
Parameters
process-id: Specifies an IS-IS process by its ID in the range of 1 to 65535 to clear the data structure information for an IS-IS process.
graceful-restart: Recovers the data through graceful restart after the data is cleared.
Usage guidelines
Use this command when LSPs must be updated immediately.
Examples
# Clear all IS-IS data structure information.
<Sysname> reset isis all
reset isis event-log graceful-restart
Use reset isis event-log graceful-restart to clear IS-IS GR log information.
Syntax
In standalone mode:
reset isis event-log graceful-restart slot slot-number
In IRF mode:
reset isis event-log graceful-restart chassis chassis-number slot slot-number
Views
User view
Predefined user roles
network-admin
mdc-admin
Parameters
slot slot-number: Specifies a card by its slot number. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument specifies the ID of the IRF member device. The slot-number argument specifies the slot number of the card. (In IRF mode.)
Examples
# Clear IS-IS GR log information.
<Sysname> reset isis event-log graceful-restart
# (In standalone mode.) Clear IS-IS GR log information for the specified slot.
<Sysname> reset isis event-log graceful-restart slot 1
reset isis event-log non-stop-routing
Use reset isis event-log non-stop-routing to clear IS-IS NSR log information.
Syntax
In standalone mode:
reset isis event-log non-stop-routing slot slot-number
In IRF mode:
reset isis event-log non-stop-routing chassis chassis-number slot slot-number
Views
User view
Predefined user roles
network-admin
mdc-admin
Parameters
slot slot-number: Specifies a card by its slot number. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument specifies the ID of the IRF member device. The slot-number argument specifies the slot number of the card. (In IRF mode.)
Examples
# (In standalone mode.) Clear IS-IS NSR log information for the specified slot.
<Sysname> reset isis event-log non-stop-routing slot 1
reset isis event-log spf
Use reset isis event-log spf to clear IS-IS route calculation log information.
Syntax
reset isis event-log spf [ process-id ]
Views
User view
Predefined user roles
network-admin
mdc-admin
Parameters
process-id: Specifies an IS-IS process by its ID in the range of 1 to 65535. If you do not specify this argument, the command clears route calculation log information for all IS-IS processes.
Examples
# Clear route calculation log information for IS-IS process 1.
<Sysname> reset isis event-log spf 1
Related commands
display isis event-log spf
reset isis packet
Use reset isis packet to clear IS-IS packet statistics.
Syntax
reset isis packet [ csnp | hello | lsp | psnp ] [ interface-type interface-number ] [ process-id ]
Views
User view
Predefined user roles
network-admin
mdc-admin
Parameters
csnp: Clears CSNP packet statistics.
hello: Clears hello packet statistics.
lsp: Clears LSP packet statistics.
psnp: Clears PSNP packet statistics.
interface-type interface-number: Specifies an interface by its type and number. If you do not specify this option, the command clears IS-IS packet statistics for all interfaces.
process-id: Specifies an IS-IS process by its ID in the range of 1 to 65535. If you do not specify this argument, the command clears IS-IS packet statistics for all IS-IS processes.
Examples
# Clear IS-IS packet statistics for all IS-IS processes.
<Sysname> reset isis packet
Related commands
display isis packet
reset isis peer
Use reset isis peer to clear data structure information for a specified IS-IS neighbor.
Syntax
reset isis peer system-id [ process-id ]
Views
User view
Predefined user roles
network-admin
mdc-admin
Parameters
system-id: Specifies an IS-IS neighbor by its system ID.
process-id: Specifies an IS-IS process by its ID in the range of 1 to 65535 to clear data structure information for the neighbor in the specified IS-IS process.
Usage guidelines
Use this command when you re-establish an IS-IS neighbor relationship.
Examples
# Clear the data structure information of the neighbor with the system ID 0000.0c11.1111.
<Sysname> reset isis peer 0000.0c11.1111
reset osi statistics
Use reset osi statistics to clear OSI packet statistics.
Syntax
reset osi statistics
Views
User view
Predefined user roles
network-admin
mdc-admin
Usage guidelines
To obtain OSI packet statistics from the specified time point, first clear the existing statistics.
Examples
# Clear OSI packet statistics.
<Sysname> reset osi statistics
Related commands
display osi statistics
set-att
Use set-att to set the ATT bit of Level-1 LSPs.
Use undo set-att to restore the default.
Syntax
set-att { always | never }
undo set-att
Default
The ATT bit is not set for Level-1 LSPs.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
always: Sets the ATT bit of Level-1 LSPs.
never: Keeps the ATT bit of Level-1 LSPs not set.
Examples
# Set the ATT bit of Level-1 LSPs.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] set-att always
set-overload
Use set-overload to set the overload bit.
Use undo set-overload to restore the default.
Syntax
set-overload [ on-startup [ [ start-from-nbr system-id [ timeout1 [ nbr-timeout ] ] ] | timeout2 | wait-for-bgp [ timeout3 ] ] ] [ allow { external | interlevel } * ]
undo set-overload
Default
The overload bit is not set.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
on-startup: Sets the overload bit upon system startup.
start-from-nbr system-id [ timeout1 [ nbr-timeout ] ]: Starts the nbr-timeout timer when the router begins to establish the neighbor relationship with the neighbor after system startup. If the neighbor relationship is formed within the nbr-timeout interval, IS-IS keeps the overload bit set. If not, the bit is cleared. IS-IS keeps the overload bit set within the timeout1 interval after the neighbor relationship is formed within the nbr-timeout interval.
· system-id—Specifies the neighbor.
· timeout1—The timeout1 interval is in the range of 5 to 86400 seconds, and the default is 600 seconds.
· nbr-timeout—The timer has an interval from 5 to 86400 seconds. The default is 1200 seconds.
timeout2: Sets the overload bit within the timeout2 interval after system startup. The interval is in the range of 5 to 86400 seconds, and the default is 600 seconds.
wait-for-bgp [ timeout3 ]: Starts the timeout3 timer for BGP convergence after system startup. If BGP is not converged within the timeout3 interval, IS-IS clears the overload bit. The value range for the timeout3 argument is 5 to 86400 seconds, and the default is 600 seconds.
allow: Allows advertising address prefixes. By default, no address prefixes are allowed to be advertised when the overload bit is set.
external: Allows advertising IP address prefixes redistributed from other routing protocols with the allow keyword specified.
interlevel: Allows advertising IP address prefixes learned from different IS-IS levels with the allow keyword specified.
Usage guidelines
If the on-startup keyword is specified, IS-IS sets the overload bit upon system startup and keeps it set within the timeout2 interval.
Examples
# Set overload flag on the current router.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] set-overload
snmp context-name
Use snmp context-name to set the context name for the SNMP object for managing IS-IS.
Use undo snmp context-name to restore the default.
Syntax
snmp context-name context-name
undo snmp context-name
Default
No context name is set for the SNMP object for managing IS-IS.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
context-name: Specifies a context name, a case-sensitive string of 1 to 32 characters.
Usage guidelines
TRILL shares the standard IS-IS MIB with IS-IS. The standard IS-IS MIB provides only single-instance MIB objects. For SNMP to correctly identify TRILL's management information in the standard IS-IS MIB, you must configure a unique context for TRILL.
Context is a method introduced to SNMPv3 for multiple-instance management. For SNMPv1/v2c, you must specify a community name as a context name for protocol identification.
Examples
# Configure the context name as isis for the SNMP object for managing IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] snmp context-name isis
snmp-agent trap enable isis
Use snmp-agent trap enable isis to enable IS-IS SNMP notifications.
Use undo snmp-agent trap enable isis to disable IS-IS SNMP notifications.
Syntax
snmp-agent trap enable isis [ adjacency-state-change | area-mismatch | authentication | authentication-type | buffsize-mismatch | id-length-mismatch | lsdboverload-state-change | lsp-corrupt | lsp-parse-error | lsp-size-exceeded | manual-address-drop | max-seq-exceeded | maxarea-mismatch | own-lsp-purge | protocol-support | rejected-adjacency | skip-sequence-number | version-skew ] *
undo snmp-agent trap enable isis [ adjacency-state-change | area-mismatch | authentication | authentication-type | buffsize-mismatch | id-length-mismatch | lsdboverload-state-change | lsp-corrupt | lsp-parse-error | lsp-size-exceeded | manual-address-drop | max-seq-exceeded | maxarea-mismatch | own-lsp-purge | protocol-support | rejected-adjacency | skip-sequence-number | version-skew ] *
Default
IS-IS SNMP notifications are enabled.
Views
System view
Predefined user roles
network-admin
mdc-admin
Parameters
adjacency-state-change: Specifies notifications about IS-IS adjacency status changes.
area-mismatch: Specifies notifications about area address mismatches between hello packets.
authentication: Specifies notifications about authentication failures of IS-IS packets.
authentication-type: Specifies notifications about authentication type errors of IS-IS packets.
buffsize-mismatch: Specifies notifications about buffer size mismatches for LSPs.
id-length-mismatch: Specifies notifications about system ID length mismatches of IS-IS packets.
lsdboverload-state-change: Specifies notifications about LSDB overload state changes.
lsp-corrupt: Specifies notifications about LSP checksum errors in the LSDB.
lsp-parse-error: Specifies notifications about LSP packet parse failures.
lsp-size-exceeded: Specifies notifications about propagation failures caused by oversized LSPs.
manual-address-drop: Specifies notifications about manually configured area addresses that have been dropped.
max-seq-exceeded: Specifies notifications about attempts to exceed the maximum LSP sequence number.
maxarea-mismatch: Specifies notifications about maximum area address mismatches of hello packets.
own-lsp-purge: Specifies notifications about attempts to remove the local LSP.
protocol-support: Specifies notifications about supported-protocol mismatches.
rejected-adjacency: Specifies notifications about adjacency creation failures.
skip-sequence-number: Specifies notifications about LSP sequence number duplications.
version-skew: Specifies notifications about hello packet version mismatches.
Usage guidelines
If you do not specify a notification, this command enables all IS-IS SNMP notifications.
If no IS-IS process exists, the configuration is not allowed.
This function does not take effect if all configured IS-IS processes are deleted.
Examples
# Disable IS-IS SNMP notifications.
<Sysname> system-view
[Sysname] undo snmp-agent trap enable isis
summary
Use summary to configure a summary route.
Use undo summary to remove a summary route.
Syntax
summary ip-address { mask-length | mask } [ avoid-feedback | generate_null0_route | [ level-1 | level-1-2 | level-2 ] | tag tag ] *
undo summary ip-address { mask-length | mask } [ level-1 | level-1-2 | level-2 ]
Default
No summary route is configured.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
mdc-admin
Parameters
ip-address: Specifies the destination IP address of the summary route.
mask-length: Specifies the mask length of the summary route, in the range of 0 to 32.
mask: Specifies the mask of the destination IP address, in dotted decimal notation.
avoid-feedback: Avoids learning summary routes by route calculation.
generate_null0_route: Generates the Null 0 route to avoid routing loops.
level-1: Summarizes only the routes redistributed to Level-1.
level-1-2: Summarizes the routes redistributed to both Level-1 and Level-2.
level-2: Summarizes only the routes redistributed to Level-2.
tag tag: Specifies a management tag in the range of 1 to 4294967295.
Usage guidelines
To reduce the size of the routing table, as well as the size of LSP and LSDB generated by the router, summarize multiple contiguous networks into a single network. You can summarize native IS-IS routes and redistributed routes. After summarization, the cost of the summary route is the smallest cost of the summarized routes.
If no level is specified, only level-2 routes are summarized.
The router summarizes only routes generated from local LSPs.
Examples
# Configure a summary route of 202.0.0.0/8.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] summary 202.0.0.0 255.0.0.0
timer lsp-generation
Use timer lsp-generation to set the LSP generation interval.
Use undo timer lsp-generation to remove the configuration.
Syntax
timer lsp-generation maximum-interval [ minimum-interval [ incremental-interval ] ] [ level-1 | level-2 ]
undo timer lsp-generation [ level-1 | level-2 ]
Default
The maximum interval is 5 seconds, the minimum interval is 50 milliseconds, and the incremental interval is 200 milliseconds.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
maximum-interval: Specifies the maximum interval in the range of 1 to 120 seconds.
minimum-interval: Specifies the minimum interval in the range of 10 to 60000 milliseconds.
incremental-interval: Specifies the incremental interval in the range of 10 to 60000 milliseconds.
level-1: Applies the intervals to Level-1.
level-2: Applies the intervals to Level-2. If no level is specified, the specified intervals apply to both Level-1 and Level-2.
Usage guidelines
By adjusting the LSP generation interval, you can prevent bandwidth and router resources from being over consumed due to frequent topology changes.
When network changes are not frequent, the minimum-interval is adopted. If network changes become frequent, the LSP generation interval is incremented by the incremental-interval each time a generation occurs until the maximum-interval is reached.
The minimum interval and the incremental interval cannot be greater than the maximum interval.
Examples
# Set the maximum interval, minimum interval, and incremental interval to 10 seconds, 100 milliseconds, and 200 milliseconds, respectively.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1]timer lsp-generation 10 100 200
timer lsp-max-age
Use timer lsp-max-age to set the LSP maximum age in the LSDB.
Use undo timer lsp-max-age to restore the default.
Syntax
timer lsp-max-age seconds
undo timer lsp-max-age
Default
The LSP maximum age is 1200 seconds.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
seconds: Specifies the LSP maximum aging time in the range of 1 to 65535 seconds.
Usage guidelines
Each LSP has an age that decreases in the LSDB. Any LSP with an age of 0 is deleted from the LSDB. You can adjust the age value based on the scale of a network.
Examples
# Set the maximum LSP age to 1500 seconds.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] timer lsp-max-age 1500
Related commands
timer lsp-refresh
timer lsp-refresh
Use timer lsp-refresh to set the LSP refresh interval.
Use undo timer lsp-refresh to restore the default.
Syntax
timer lsp-refresh seconds
undo timer lsp-refresh
Default
The default LSP refresh interval is 900 seconds.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
seconds: Specifies the LSP refresh interval in the range of 1 to 65534 seconds.
Usage guidelines
Each router refreshes its LSPs at a configurable interval and sends them to other routers to achieve the following purposes:
· Prevent valid routes from aging out.
· Synchronize LSPs in the network.
A smaller refresh interval speeds up network convergence but consumes more bandwidth.
To refresh LSPs before they are aged out, the interval configured by the timer lsp-refresh command must be smaller than that configured by the timer lsp-max-age command.
Examples
# Set the LSP refresh interval to 1500 seconds.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] timer lsp-refresh 1500
Related commands
timer lsp-max-age
timer spf
Use timer spf to set the SPF calculation interval.
Use undo timer spf to restore the default.
Syntax
timer spf maximum-interval [ minimum-interval [ incremental-interval ] ]
undo timer spf
Default
The maximum interval is 5 seconds, the minimum interval is 50 milliseconds, and the incremental interval is 200 milliseconds.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
maximum-interval: Specifies the maximum SPF calculation interval in the range of 1 to 120 seconds.
minimum-interval: Specifies the minimum SPF calculation interval in the range of 10 to 60000 milliseconds.
incremental-interval: Specifies the incremental SPF calculation interval in the range of 10 to 60000 milliseconds.
Usage guidelines
Based on the LSDB, an IS-IS router uses the SPF algorithm to calculate a shortest path tree with itself being the root, and uses the shortest path tree to determine the next hop to a destination network. By adjusting the SPF calculation interval, you can prevent bandwidth and router resources from being overused due to frequent topology changes.
When network changes are not frequent, the minimum-interval is adopted. If network changes become frequent, the SPF calculation interval is incremented by the incremental-interval each time a generation happens until the maximum-interval is reached.
The minimum interval and the incremental interval cannot be greater than the maximum interval.
Examples
# Set the maximum interval to 10 seconds, the minimum interval to 100 milliseconds, and the incremental interval to 300 milliseconds, respectively.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] timer spf 10 100 300
virtual-system
Use virtual-system to configure a virtual system ID for the IS-IS process.
Use undo virtual-system to remove a virtual system ID.
Syntax
virtual-system virtual-system-id
undo virtual-system virtual-system-id
Default
No virtual system ID is configured.
Views
IS-IS view
Predefined user roles
network-admin
mdc-admin
Parameters
virtual-system-id: Specifies a virtual system ID for the IS-IS process.
Examples
# Set a virtual system ID of 2222.2222.2222 for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] virtual-system 2222.2222.2222
