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01-SR-MPLS commands | 253.93 KB |
Contents
display bgp egress-engineering ipv4
display bgp segment-routing label-range
display isis segment-routing adjacency
display isis segment-routing global-block
display isis segment-routing prefix-sid-map
display mpls static-sr-mpls prefix
display ospf segment-routing adjacency
display ospf segment-routing global-block
display ospf segment-routing prefix-sid-map
display segment-routing label-block
display segment-routing mapping-server prefix-sid-map
fast-reroute microloop-avoidance enable
fast-reroute microloop-avoidance rib-update-delay
isis fast-reroute ti-lfa disable
isis member-port adjacency-sid
mpls te path-selection adjacency-sid
ospf fast-reroute ti-lfa disable
segment-routing adjacency enable
segment-routing mapping-server advertise-local
segment-routing mapping-server receive
segment-routing member-port adjacency enable
segment-routing microloop-avoidance enable
segment-routing microloop-avoidance rib-update-delay
SR-MPLS commands
display bgp egress-engineering ipv4
Use display bgp egress-engineering ipv4 to display BGP EPE segment information.
Syntax
display bgp [ instance instance-name ] egress-engineering ipv4 [ ipv4-address ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
instance instance-name: Specifies a BGP instance by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays information about the default BGP instance.
ipv4-address: Specifies the IPv4 address of an existing peer. If you do not specify this argument, the command displays information about all peers and peer groups.
Examples
# Display BGP EPE segment information.
<Sysname> display bgp egress-engineering ipv4
BGP peering segment type: Set
Nexthop : 192.168.1.2
Local AS number : 1
Remote AS number : 2
Local router ID : 1.1.1.3
Remote router ID : 1.1.1.4
OriginNextHop : 192.168.1.2
RelyNextHop : 192.168.1.2
Interface : HGE1/0/1
Label : 24002
# Display BGP EPE segment information for a peer.
<Sysname> display bgp egress-engineering ipv4 192.168.1.2
BGP peering segment type: Node
Nexthop : 192.168.1.2
Local AS number : 1
Remote Asnumber : 2
Local router ID : 1.1.1.3
Remote router ID : 1.1.1.4
OriginNextHop : 192.168.1.2
RelyNextHop : 192.168.1.2
Label : 24002
# Display BGP EPE segment information for a peer.
<Sysname> display bgp egress-engineering ipv4 192.168.1.5
BGP peering segment type: Adjacency
NextHop : 192.168.1.5
Local AS number : 1
Remote AS number : 2
Local router ID : 1.1.1.3
Remote router ID : 1.1.1.5
OriginNextHop : 192.168.1.5
RelyNextHop : 192.168.1.5
Interface : HGE1/0/5
Label : 24002
Table 1 Command output
Field |
Description |
Interface |
Interface on which the neighborship is established. |
OriginNextHop |
Original next hop. |
RelyNextHop |
Recursive next hop. |
display bgp segment-routing label-range
Use display bgp segment-routing label-range to display BGP SR label ranges.
Syntax
display bgp [ instance instance-name ] segment-routing label-range
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
instance instance-name: Specifies a BGP instance by its name, a case-sensitive string of 1 to 31 characters. If you do not specify this option, the command displays information about the default BGP instance.
Examples
# Display BGP SR label ranges.
<Sysname> display bgp segment-routing label-range
BGP peering segment labels:
56000-250000
Prefix labels:
16000-17000
display isis segment-routing adjacency
Use display isis segment-routing adjacency to display IS-IS SR adjacency SID information.
Syntax
display isis [ process-id ] segment-routing adjacency [ { member-port | non-member-port } | sid sid-value | vpn-instance vpn-instance-name ] *
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
process-id: Specifies an IS-IS process ID in the range of 1 to 65535. If you do not specify this argument, the command displays SR adjacency SID information about all IS-IS processes.
member-port: Displays SR adjacency SID information on Layer 3 aggregation group member interfaces.
non-member-port: Displays SR adjacency SID information on Layer 3 Ethernet interfaces except aggregation group member interfaces.
sid sid-value: Specifies an adjacency SID by its value. The value range is 15000 to 250000.
vpn-instance vpn-instance-name: Specifies an MPLS L3VPN instance by its name, a case-sensitive string of 1 to 31 characters.
Usage guidelines
If you do not specify the member-port or non-member-port keyword, this command displays SR adjacency SID information on all interfaces.
If you do not specify the sid sid-value option, this command displays information about all IS-IS SR adjacency SIDs.
If you do not specify the vpn-instance vpn-instance-name option, this command displays SR adjacency SID information on the public network.
Examples
# Display SR adjacency SID information about IS-IS process 1.
<Sysname> display isis 1 segment-routing adjacency
Adjacency SID: 15020 Type: Non-member-port Request result: Init
SystemID Interface NextHop State ProcessID
0000.0000.0000.00 HGE1/0/1 2.2.2.2 Inactive 1
Table 2 Command output
Field |
Description |
Adjacency SID |
Adjacency SID value. |
Type |
Type of the adjacency SID assigned to the adjacency link: · Member-port—Adjacency SID assigned to a Layer 3 aggregation group member interface. · Non-member-port—Adjacency SID assigned to a Layer 3 Ethernet interface that is not an aggregation group member interface. |
Request result |
Adjacency SID application result: · Succeeded—The application succeeded. · Conflicting—The adjacency SID is already used. · Init—The application is in progress or the adjacency SID allocation feature is not enabled. · Out-of-range—The adjacency SID is not the in the range of the SRLB. |
SystemID |
System ID of the neighbor. |
Interface |
Interface connected to the neighbor. |
Nexthop |
Next hop of the adjacency SID. |
State |
SID status: · Active—The SID is effective and is available for use. · Inactive—The SID is not effective and is not available for use. |
Process ID |
IS-IS process ID. |
display isis segment-routing global-block
Use display isis segment-routing global-block to display IS-IS SRGB information.
Syntax
display isis segment-routing global-block [ level-1 | level-2 ] [ process-id ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
level-1: Specifies Level-1 SRGB.
level-2: Specifies Level-2 SRGB.
process-id: Specifies an IS-IS process ID in the range of 1 to 65535. If you do not specify this argument, the command displays the SRGBs of all IS-IS processes.
Usage guidelines
If you do not specify the level-1 or level-2 keyword, the command displays information about both the Level-1 SRGB and Level-2 SRGB.
Examples
# Display information about the SRGBs for IS-IS process 1.
<Sysname> display isis segment-routing global-block 1
Segment routing global block information for IS-IS(1)
-----------------------------------------------------
Level-1 SRGB
-------------------------
System ID Base Range
-------------------------------------------------------------------------------
0000.0000.0011 16666 5557
0000.0000.0012 18012 4001
Table 3 Command output
Field |
Description |
System ID |
System ID of the neighbor. |
Base |
Minimum label value of the SRGB. |
Range |
Number of labels in the SRGB. |
Related commands
segment-routing global-block
display isis segment-routing prefix-sid-map
Use display isis segment-routing prefix-sid-map to display IS-IS SR prefix-SID mappings.
Syntax
display isis segment-routing prefix-sid-map [ active-policy | backup-policy ] [ process-id ] [ verbose ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
active-policy: Displays active prefix-SID mappings.
backup-policy: Displays backup prefix-SID mappings.
process-id: Specifies an IS-IS process ID in the range of 1 to 65535. If you do not specify this argument, the command displays information about all IS-IS processes.
verbose: Displays detailed information. If you do not specify this keyword, the command displays brief information.
Usage guidelines
If you do not specify the active-policy or backup-policy keyword, the command displays information about both active and backup prefix-SID mappings.
Examples
# Display active IS-IS SR prefix-SID mappings.
<Sysname> display isis segment-routing prefix-sid-map active-policy
ISIS 1 - Active policy
Number of mappings: 5
Prefix SID index Range Flags
2.2.2.2/32 10 10 -
3.3.3.3/32 300 1 -
8.8.8.8/32 600 20 -
11.11.11.11/32 100 10 -
12.12.12.1/32 44 3 -
# Display detailed information about active IS-IS SR prefix-SID mappings.
<Sysname> display isis segment-routing prefix-sid-map active-policy verbose
ISIS 1 - Active policy
Number of mappings: 2
Prefix 1.1.1.1 32
Source : Local
Router ID : 1010.1020.1030
Level : Not set
SID index : 100
Range : 1
Last prefix : 1.1.1.1/32
Last SID index: 100
Flags : -
Prefix 2.2.2.2 32
Source : Remote
Router ID : 1010.1020.1040
Level : L1
SID index : 200
Range : 1
Last prefix : 2.2.2.2/32
Last SID index: 200
Flags : -
# Display backup IS-IS SR prefix-SID mappings.
<Sysname> display isis segment-routing prefix-sid-map backup-policy
ISIS 1 - Backup policy
Number of mappings: 4
Prefix SID index Range Flags
2.2.2.2/32 200 30 -
12.12.12.1/32 44 3 -
8.8.8.8/32 600 20 -
2.2.2.2/32 10 10 -
# Display all IS-IS SR prefix-SID mappings.
<Sysname> display isis segment-routing prefix-sid-map
ISIS 1 – Both active policy and backup policy
Number of mappings: 9
Prefix SID index Range Flags
2.2.2.2/32 10 10 -
2.2.2.2/32 10 10 -
2.2.2.2/32 200 30 -
3.3.3.3/32 300 1 -
8.8.8.8/32 600 20 -
8.8.8.8/32 600 20 -
11.11.11.11/32 100 10 -
12.12.12.1/32 44 3 -
12.12.12.1/32 44 3 -
Table 4 Command output
Field |
Description |
SID index |
Start SID index value. |
Range |
Number of consecutive SIDs assigned. |
Flags |
Mapping flags. The A flag indicates that the peer specified by the prefix is directly connected to the device. If no flags are set, this field display a hyphen (-). |
Source |
Source of the prefix-SID mapping: · Local—The mapping is configured on the local device. · Remote—The mapping is configured on the remote device. |
Router ID |
ID of the route advertiser. |
Level |
Level of the route advertiser: · L1—Level-1 IS-IS route. · L2—Level-2 IS-IS route. · Not set—The route was locally advertised. |
display mpls static-sr-mpls
Use display mpls static-sr-mpls to display static SRLSP and adjacency segment information.
Syntax
display mpls static-sr-mpls { lsp [ lsp-name ] | adjacency [ adjacency-path-name ] }
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
lsp: Displays static SRLSP information.
lsp-name: Specifies a static SRLSP by its name, a case-sensitive string of 1 to 15 characters. If you do not specify this argument, the command displays information about all static SRLSPs.
adjacency: Displays static adjacency segment information.
adjacency-path-name: Specifies an adjacency segment by its name, a case-sensitive string of 1 to 15 characters. If you do not specify this argument, the command displays information about all adjacency segments.
Examples
# Display information about static SRLSP lsp1.
<Sysname> display mpls static-sr-mpls lsp lsp1
Name : lsp1
Type : LSP
In-Label : -
Out-Label : 60,70,80
Out-Interface : HGE1/0/1
Nexthop : 20.1.1.2
State : Up
Table 5 Command output
Field |
Description |
Name |
Name of the static SRLSP or adjacency segment. |
Type |
Information type: · LSP—Static SRLSP information. · Adjacency—Adjacency segment information. |
In-Label |
Incoming label. |
Out-Label |
Outgoing label. |
Out-Interface |
Output interface. |
Nexthop |
Next hop address. |
State |
Status of the static SRLSP or adjacency segment: · Down. · Up. |
Related commands
static-sr-mpls lsp
static-sr-mpls adjacency
display mpls static-sr-mpls prefix
Use display mpls static-sr-mpls prefix to display static prefix segment information.
Syntax
display mpls static-sr-mpls prefix [ path prefix-path-name | destination ip-address [ mask | mask-length ] ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
path prefix-path-name: Specifies a prefix segment by its name, a case-sensitive string of 1 to 15 characters.
destination ip-address: Specifies the destination IP address of the prefix segment.
mask: Specifies the mask.
mask-length: Specifies the mask length, in the range of 0 to 32.
Usage guidelines
If you do not specify any parameters, this command displays information about all static prefix segments.
Examples
# Display information about all static prefix segments.
<Sysname> display mpls static-sr-mpls prefix
Prefix Name : prefixname
Destination : 2.2.2.2/32
In-Label : 1024
Active : Yes(1)
Out-Interface : HGE1/0/1
Nexthop : 10.0.0.2
Out-Label : 600000
Status : up
Out-Interface : HGE1/0/2
Nexthop : 11.0.0.2
Out-Label : 600002
Status : down(No Route)
Out-Interface : HGE1/0/3
Nexthop : 12.0.0.2
Out-Label : 600001
Status : down(No Mpls)
Table 6 Command output
Field |
Description |
Prefix Name |
Name of the prefix segment. |
Destination |
Destination IP address of the prefix segment. |
In-Label |
Incoming label of the prefix segment. |
Active |
Status of the prefix segment: · Yes(count)—The prefix segment is active. The value of count represents the number of egresses in up status. · No—The prefix segment is inactive. |
Out-Label |
Outgoing label of the prefix segment. |
Status |
Status of the egress: · down—The egress is inactive. The cause is displayed in brackets, which can be No Route or No Mpls. No Route means that the device has no route to reach the destination IP address over the output interface. No Mpls means that MPLS is disabled on the output interface. · up—The egress is active. · duplicate—An egress conflict has occurred because the output interface is already used by another prefix segment. |
Related commands
static-sr-mpls prefix
display ospf segment-routing adjacency
Use display ospf segment-routing adjacency to display OSPF SR adjacency SID information.
Syntax
display ospf [ process-id ] segment-routing adjacency [ sid sid-value ] [ vpn-instance vpn-instance-name ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
process-id: Specifies an OSPF process ID in the range of 1 to 65535. If you do not specify this argument, the command displays SR adjacency SID information about all OSPF processes.
sid sid-value: Specifies an adjacency SID by its value. The value range is 15000 to 250000. If you do not specify an adjacency SID, this command displays information about all OSPF SR adjacency SIDs.
vpn-instance vpn-instance-name: Specifies an MPLS L3VPN instance by its name, a case-sensitive string of 1 to 31 characters. If you do not specify an MPLS L3VPN instance, this command displays SR adjacency SID information on the public network.
Examples
# Display SR adjacency SID information about OSPF process 1.
<Sysname> display ospf 1 segment-routing adjacency
Adjacency SID: 15040 Type: Non-member-port Request result: Init
NbrID Interface NextHop State ProcessID
2.2.2.2 HGE1/0/1 10.1.1.1 Inactive 1
Table 7 Command output
Field |
Description |
Adjacency SID |
Adjacency SID value. |
Type |
Type of the adjacency SID assigned to the adjacency link: · Member-port—Adjacency SID assigned to a Layer 3 Ethernet interface that is not an aggregation group member interface. This value is not supported in the current software version. · Non-member-port—Adjacency SID assigned to a Layer 3 aggregation group member interface. |
Request result |
Adjacency SID application result: · Succeeded—The application succeeded. · Conflicting—The adjacency SID is already used. · Init—The application is in progress or the adjacency SID allocation feature is not enabled. · Out-of-range—The adjacency SID is not the in the range of the SRLB. |
NbrID |
ID of the neighbor. |
Interface |
Interface connected to the neighbor. |
NextHop |
Next hop of the adjacency SID. |
State |
SID status: · Active—The SID is effective and is available for use. · Inactive—The SID is not effective and is not available for use. |
ProcessID |
OSPF process ID. |
display ospf segment-routing global-block
Use display ospf segment-routing global-block to display OSPF SRGB information.
Syntax
display ospf [ process-id ] [ area area-id ] segment-routing global-block
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
process-id: Specifies an OSPF process ID in the range of 1 to 65535. If you do not specify this argument, the command displays the SRGBs of all OSPF processes.
area area-id: Specifies an area by its ID. The area ID can be a value in dotted decimal notation or a decimal value in the range of 0 to 4294967295. If you specify a decimal value, the system automatically transforms it to a value in dotted decimal notation. If you do not specify this option, the command displays the SRGBs of all areas.
Examples
# Display the SRGBs of all OSPF processes.
<Sysname> display ospf segment-routing global-block
OSPF Process 1 with Router ID 1.1.1.1
Segment Routing Global Block
Area: 0.0.0.0
Router ID Min SID Max SID Total
1.1.1.1 16000 24000 8001
2.2.2.2 18000 18999 1000
3.3.3.3 16000 24000 8001
4.4.4.4 17000 17999 1000
5.5.5.5 16000 16999 1000
Table 8 Command output
Field |
Description |
Router ID |
Router ID of the device or the neighbor. |
Min SID |
Minimum label value of the SRGB. |
Max SID |
Maximum label value of the SRGB. |
Total |
Number of labels in the SRGB. |
Related commands
segment-routing global-block
display ospf segment-routing prefix-sid-map
Use display ospf segment-routing prefix-sid-map to display OSPF SR prefix-SID mappings.
Syntax
display ospf segment-routing prefix-sid-map [ active-policy | backup-policy ] [ process-id ] [ verbose ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
active-policy: Displays active prefix-SID mappings.
backup-policy: Displays backup prefix-SID mappings.
process-id: Specifies an OSPF process ID in the range of 1 to 65535. If you do not specify this argument, the command displays information about all OSPF processes.
verbose: Displays detailed information. If you do not specify this keyword, the command displays brief information.
Usage guidelines
If you do not specify the active-policy or backup-policy keyword, the command displays information about both active and backup prefix-SID mappings.
Examples
# Display active OSPF SR prefix-SID mappings.
<Sysname> display ospf segment-routing prefix-sid-map active-policy
OSPF 1 - Active policy
Flags: IA - Inter-Area, L – Local, R - Remote
Number of mappings: 2
Prefix SID index Range Flags
1.1.1.11/32 10 10 L/-
1.1.1.22/32 20 20 R/-
# Display detailed information about active OSPF SR prefix-SID mappings.
<Sysname> display ospf segment-routing prefix-sid-map active-policy verbose
OSPF 1 - Active policy
Number of mappings: 2
Prefix 1.1.1.11
Source : Local
Router ID : 10.1.1.1
Area ID : Not set
LS ID : Not set
SID index : 10
Range : 10
Last prefix : 1.1.1.20
Last SID index: 19
Flags : -
Prefix 1.1.1.22
Source : Remote
Router ID : 10.2.1.1
Area ID : 0.0.0.1
LS ID : 7.0.0.0
SID index : 20
Range : 20
Last prefix : 1.1.1.41
Last SID index: 39
Flags : -
# Display backup OSPF SR prefix-SID mappings.
<Sysname> display ospf segment-routing prefix-sid-map backup-policy
OSPF 1 - Backup policy
Flags: IA - Inter-Area, L – Local, R - Remote
Number of mappings: 1
Prefix SID index Range Flags
1.1.1.33/32 30 30 R/IA
# Display all OSPF SR prefix-SID mappings.
<Sysname> display ospf segment-routing prefix-sid-map
OSPF 1 - Both active policy and backup policy
Flags: IA - Inter-Area, L – Local, R - Remote
Number of mappings: 3
Prefix SID index Range Flags
1.1.1.11/32 10 10 L/-
1.1.1.22/32 20 20 R/-
1.1.1.33/32 30 30 R/IA
Table 9 Command output
Field |
Description |
SID index |
Start SID index value. |
Range |
Number of consecutive SIDs assigned. |
Flags |
Mapping flags: · IA—The prefix was from another area. · L—The mapping is a local mapping. · R—The mapping is a remote mapping. If no flags are set, this field display a hyphen (-). |
Source |
Source of the prefix-SID mapping: · Local—The mapping is configured on the local device. · Remote—The mapping is configured on the remote device. |
Router ID |
ID of the route advertiser. |
Area ID |
Area ID. If the mapping is a local mapping, this field displays Not set. |
LS ID |
Link state ID. If the mapping is a local mapping, this field displays Not set. |
display segment-routing label-block
Use display segment-routing label-block to display SR label block information.
Syntax
display segment-routing label–block [ protocol { isis | ospf } ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
protocol: Specifies a protocol. If you do not specify this keyword, the command displays SR label block information about all protocols.
isis: Displays IS-IS SR label block information.
ospf: Displays OSPF SR label block information.
Examples
# Display SR label block information about all protocols.
<Sysname> display segment-routing label-block
Default label block:
SRLB: 15000-15999
SRGB: 16000-55999
Configurate label block:
SRLB: 200000-210000
SRGB: 16000-17000
Type Protocol Process-ID Label range State
SRLB Global - 200000-210000 Active
SRGB Global - 16000-17000 Active
Table 10 Command output
Field |
Description |
Type |
Label block type, SRGB or SRLB. |
Protocol to which the label block belongs: · ISIS—A IS-IS process. · OSPF—An OSPF process. · Global—The label block is the global SRGB or SRLB, which is configured in segment routing view.. |
|
Process-ID |
ID of the protocol process that owns the label block. If label block is the global SRGB or SRLB, this field displays a hyphen (-). |
State |
Whether the label block is available for use: · Active—The label block is available for use. · Inactive—The label block is not available for use. |
display segment-routing mapping-server prefix-sid-map
Use display segment-routing mapping-server prefix-sid-map to display prefix-SID mappings.
Syntax
display segment-routing mapping-server prefix-sid-map [ ip-address mask-length | verbose ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
ip-address: Specifies an IPv4 address prefix in dotted decimal notation.
mask-length: Specifies the mask length, in the range of 1 to 32.
verbose: Displays detailed information about all configured prefix-SID mappings.
Usage guidelines
If you do not specify any parameters, this command displays brief information about all configured prefix-SID mappings.
Examples
# Display the prefix-SID mapping for prefix 1.1.1.1.
<Sysname> display segment-routing mapping-server prefix-sid-map 1.1.1.1 32
SRMS mappings
Prefix SID index Flags
1.1.1.1/32 10 A
# Display all configured prefix-SID mappings.
<Sysname> display segment-routing mapping-server prefix-sid-map
SRMS mappings
Number of mappings: 2
Prefix SID index Range Flags
1.1.1.1/32 10 100 A
2.2.2.2/32 256 520 -
# Display detailed information about all configured prefix-SID mappings.
<Sysname> display segment-routing mapping-server prefix-sid-map verbose
SRMS mappings
Number of mappings: 2
Prefix 1.1.1.1/32
SID index : 10
Range : 100
Last prefix : 1.1.1.100/24
Last SID index: 109
Flags : A
Prefix 2.2.2.2/32
SID index : 256
Range : 520
Last prefix : 2.2.4.9/24
Last SID index: 775
Flags : -
Table 11 Command output
Field |
Description |
SID index |
Start SID index value. |
Range |
Number of consecutive SIDs assigned. |
Flags |
Mapping flags. The A flag indicates that the peer specified by the prefix is directly connected to the device. If no flags are set, this field display a hyphen (-). |
Last Prefix |
Final prefix. |
Last SID index |
SID assigned to the final prefix. |
fast-reroute microloop-avoidance enable
Use fast-reroute microloop-avoidance enable to enable FRR microloop avoidance.
Use undo fast-reroute microloop-avoidance enable to disable FRR microloop avoidance.
Syntax
In IS-IS IPv4 unicast address family view:
fast-reroute microloop-avoidance enable [ level-1 | level-2 ]
undo fast-reroute microloop-avoidance enable [ level-1 | level-2 ]
In OSPF view:
fast-reroute microloop-avoidance enable
undo fast-reroute microloop-avoidance enable
Default
FRR microloop avoidance is disabled.
Views
IS-IS IPv4 unicast address family view
OSPF view
Predefined user roles
network-admin
Parameters
level-1: Specifies FRR microloop avoidance for IS-IS Level-1.
level-2: Specifies FRR microloop avoidance for IS-IS Level-2.
Usage guidelines
Use this command only on the source node.
On an network configured with TI-LFA FRR, if a node or link fails, traffic will be switched to the backup path calculated by TI-LFA. However, if a device along the backup path has not finished route convergence, traffic will be looped between the device and the source node (the node prior to the node or link that failed) until the device finishes route convergence.
To resolve this problem, configure microloop avoidance on the source node. Then, when a node or link fails, traffic will be switched to the backup path calculated by TI-LFA. The source node waits for a period of time for other devices to finish route convergence. After the delay time elapses, the source node starts route convergence.
If you do not specify the level-1 or level-2 keyword, the command enables or disables FRR microloop avoidance on all IS-IS levels.
Examples
# Enable FRR microloop avoidance for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] fast-reroute microloop-avoidance enable
# Enable FRR microloop avoidance for OSPF process 1.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] fast-reroute microloop-avoidance enable
Related commands
fast-reroute microloop-avoidance rib-update-delay
fast-reroute microloop-avoidance rib-update-delay
Use fast-reroute microloop-avoidance rib-update-delay to set the FRR microloop avoidance RIB-update-delay time.
Use undo fast-reroute microloop-avoidance rib-update-delay to restore the default.
Syntax
In IS-IS IPv4 unicast address family view:
fast-reroute microloop-avoidance rib-update-delay delay-time [ level-1 | level-2 ]
undo fast-reroute microloop-avoidance rib-update-delay [ level-1 | level-2 ]
In OSPF view:
fast-reroute microloop-avoidance rib-update-delay delay-time
undo fast-reroute microloop-avoidance rib-update-delay
Default
The FRR microloop avoidance RIB-update-delay time is 5000 ms.
Views
IS-IS IPv4 unicast address family view
OSPF view
Predefined user roles
network-admin
Parameters
delay-time: Specifies the FRR microloop avoidance RIB-update-delay time in milliseconds. The value range is 1 to 60000.
level-1: Specifies the FRR microloop avoidance RIB-update-delay time for IS-IS Level-1.
level-2: Specifies the FRR microloop avoidance RIB-update-delay time for IS-IS Level-2.
Usage guidelines
Use this command only on the source node.
If you do not specify the level-1 or level-2 keyword, the command sets the FRR microloop avoidance RIB-update-delay time for all IS-IS levels.
Examples
# Set the FRR microloop avoidance RIB-update-delay time to 6000 ms for Level-1 of IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] fast-reroute microloop-avoidance rib-update-delay 6000 level-1
# Set the FRR microloop avoidance RIB-update-delay time to 6000 ms for OSPF process 1.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] fast-reroute microloop-avoidance rib-update-delay 6000
Related commands
fast-reroute microloop-avoidance
fast-reroute ti-lfa
Use fast-reroute ti-lfa to enable Topology-Independent Loop-Free Alternate Fast Re-Route (TI-LFA FRR).
Use fast-reroute ti-lfa to disable TI-LFA FRR.
Syntax
In IS-IS IPv4 unicast address family view:
fast-reroute ti-lfa [ per-prefix ] [ route-policy route-policy-name | host ] [ level-1 | level-2 ]
undo fast-reroute ti-lfa [ level-1 | level-2 ]
In OSPF view:
fast-reroute ti-lfa [ per-prefix ] [ route-policy route-policy-name | host ]
undo fast-reroute ti-lfa
Default
TI-LFA FRR is disabled.
Views
IS-IS IPv4 unicast address family view
OSPF view
Predefined user roles
network-admin
Parameters
level-1: Specifies TI-LFA FRR for IS-IS Level-1.
level-2: Specifies TI-LFA FRR for IS-IS Level-2.
per-prefix: Calculates backup information for each advertising source of a route. Specify this keyword only if routes are advertised by multiple sources. If you do not specify this keyword, the device calculates backup information for each route.
route-policy route-policy-name: Enables TI-LFA FRR for prefixes identified by the routing policy. The route-policy-name argument specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters.
host: Enables TI-LFA for host routes.
Usage guidelines
TI-LFA FRR provides link and node protection for SR tunnels. When a link or node fails, TI-LFA FRR switches the traffic to the backup path to ensure continuous data forwarding.
Before configuring TI-LFA FRR, you must execute the following commands in IS-IS IPv4 unicast address family view or OSPF view:
· segment-routing mpls
· fast-reroute lfa
TI-LFA FRR takes effect only after you enable LFA FRR.
TI-LFA FRR operates in a level only after you enable LFA FRR for the level.
If you do not specify the level-1 or level-2 keyword, the command enables or disables TI-LFA FRR for all IS-IS levels.
If you do not specify the route-policy route-policy-name option or the host keyword, the device calculates backup information for all routes.
Examples
# Enable TI-LFA FRR for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] fast-reroute ti-lfa
# Enable TI-LFA FRR for OSPF process 1.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] fast-reroute ti-lfa
Related commands
fast-reroute (Layer 3—IP Routing Command Reference)
route-policy (Layer 3—IP Routing Command Reference)
segment-routing mpls
global-block
Use global-block to configure the global MPLS SRGB.
Use undo global-block to restore the default.
Syntax
global-block minimum-value maximum-value
undo global-block
Default
The global MPLS SRGB is from 16000 to 55999.
Views
Segment routing view
Predefined user roles
network-admin
Parameters
minimum-value: Specifies the minimum label value, in the range of 15000 to 249999.
maximum-value: Specifies the maximum label value, in the range of 15001 to 250000.
Usage guidelines
The global MPLS SRGB is used for static prefix segments and BGP prefix SIDs. If no MPLS SRGB is configured for a protocol process, the process uses the global MPLS SRGB.
If you have configured prefix SIDs when you configure the global MPLS SRGB, the global MPLS SRGB must contain the configured prefix SIDs.
Examples
# Configure the global MPLS SRGB to be from 200000 to 220000.
<Sysname> system-view
[Sysname] segment-routing
[Sysname-segment-routing] global-block 200000 220000
Related commands
segment-routing global-block
isis adjacency-sid
Use isis adjacency-sid to assign an IS-IS adjacency SID to an IS-IS adjacency.
Use undo isis adjacency-sid to reclaim an IS-IS adjacency SID.
Syntax
isis adjacency-sid { absolute absolute-value | index index-value } [ nexthop nexthop-address ]
undo isis adjacency-sid { absolute absolute-value | index index-value }
Default
An IS-IS adjacency does not have an adjacency SID.
Views
Interface view
Predefined user roles
network-admin
Parameters
absolute absolute-value: Specifies an absolute value as the adjacency SID. The value range for the absolute-value argument is 15000 to 250000.
index index-value: Specifies an adjacency SID index value in the range of 0 to 235000.
nexthop nexthop-address: Specifies a next hop by its IP address. If the network type of the interface is broadcast, you must specify this option. If the network type of the interface is P2P, you cannot specify this option.
Usage guidelines
After you enable SR-MPLS adjacency label allocation, the device randomly allocates adjacency SIDs to the links to its IGP neighbors. If the link to an IGP neighbor flaps, the adjacency SID of the link keeps changing. For a link to always use the same adjacency SID, use this command to assign a specific adjacency SID to the link.
You can assign adjacency SID by using absolute values or index values. If you use index values, the adjacency SID of a link is the base value of the SRLB plus the index value for the link.
Before assigning adjacency SIDs, execute the display mpls label command to display the usage status of the labels that you want to assign as adjacency SIDs. Make sure the labels are in Idle state. A label that is not in Idle state is being used by another protocol. If you assign it to a link as an adjacency SID, the adjacency SID is not available even if the status of the label changes to Idle later. To use the adjacency SID, you must remove the adjacency SID assignment and assign the adjacency SID again.
Before executing the isis adjacency-sid command on an interface, you must complete the following tasks:
· Enable IS-IS on the interface.
· Execute the segment-routing mpls and segment-routing adjacency enable commands.
If you execute the isis adjacency-sid command multiple times on an interface of the P2P network type, the most recent configuration takes effect.
If you execute the isis adjacency-sid command multiple times on an interface of the broadcast network type, the effective configuration varies depending on how you specify the next hop address:
· If you specify a different next hop address each time, all configurations take effect.
· If you specify the same next hop address each time, the most recent configuration takes effect.
To change the network type of an interface, execute the isis circuit-type p2p command before executing the isis adjacency-sid command on the interface. To change the network type of an interface after assigning an adjacency SID to the interface, you must remove the assignment first.
If you execute this command on an interface after enabling SR-MPLS adjacency label allocation for an IGP, the interface prefers the assigned adjacency SID.
Examples
# Set the absolute value of the adjacency SID to 20000 on interface HundredGigE 1/0/1. Specify 1.1.1.1 as the next hop.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] isis enable 1
[Sysname-HundredGigE1/0/1] isis adjacency-sid absolute 20000 nexthop 1.1.1.1
Related commands
display mpls label (MPLS Command Reference)
isis circuit-type p2p (Layer 3—IP Routing Command Reference)
isis enable (Layer 3—IP Routing Command Reference)
segment-routing adjacency enable
segment-routing mpls
isis adjacency-sid weight
Use isis adjacency-sid weight to set the load balancing weight for an IS-IS adjacency.
Use undo isis adjacency-sid weight to restore the default.
Syntax
isis adjacency-sid weight weight-value
undo isis adjacency-sid weight
Default
The load balancing weight for an IS-IS adjacency is not set.
Views
Interface view
Predefined user roles
network-admin
Parameters
weight-value: Specifies the load balancing weight for the IS-IS adjacency, in the range of 1 to 254.
Usage guidelines
If you use the isis adjacency-sid command to assign the same IS-IS adjacency SID to the IS-IS adjacencies on multiple interfaces, multiple forwarding paths are available for adjacency SID-based forwarding. By default, packets are assigned to the adjacencies evenly. If the adjacencies have different bandwidths, you can set the load balancing weights for the adjacencies to avoid congestion. The traffic ratio on an adjacency will be its load balancing weight divided by the total load balancing weights of the adjacencies with the same IS-IS adjacency SID.
Examples
# Set the load balancing weight to 10 for the IS-IS adjacency SID on interface HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] isis adjacency-sid weight 10
Related commands
isis adjacency-sid
isis fast-reroute ti-lfa disable
Use isis fast-reroute ti-lfa disable to disable an IS-IS interface from participating in TI-LFA calculation.
Use undo isis fast-reroute ti-lfa disable to enable an IS-IS interface to participate in TI-LFA calculation.
Syntax
isis fast-reroute ti-lfa disable [ level-1 | level-2 ]
undo isis fast-reroute ti-lfa disable [ level-1 | level-2 ]
Default
An IS-IS interface participates in TI-LFA calculation.
Views
Interface view
Predefined user roles
network-admin
Parameters
level-1: Specifies TI-LFA calculation on IS-IS Level-1.
level-2: Specifies TI-LFA calculation on IS-IS Level-2.
Usage guidelines
Disable the output interface to the primary next hop from participating in TI-LFA calculation.
If you do not specify the level-1 or level-2 keyword, the command disables or enables the interface to participate in TI-LFA calculation in any level.
Examples
# Disable interface HundredGigE 1/0/1 from participating in TI-LFA calculation.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] isis enable 1
[Sysname-HundredGigE1/0/1] isis fast-reroute ti-lfa disable
Related commands
fast-reroute ti-lfa
isis member-port adjacency-sid
Use isis member-port adjacency-sid to assign an IS-IS adjacency SID to an aggregation group member interface.
Use undo isis member-port adjacency-sid to restore the default.
Syntax
isis process-id member-port adjacency-sid { absolute absolute-value | index index-value } nexthop nexthop-address
undo isis process-id member-port adjacency-sid { absolute absolute-value | index index-value } nexthop nexthop-address
Default
An aggregation group member interface does not have an IS-IS adjacency SID.
Views
Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
process-id process-id: Specifies an IS-IS process by its process ID in the range of 1 to 65535.
absolute absolute-value: Specifies an absolute value as the adjacency SID. The value range for the absolute-value argument is 15000 to 250000.
index index-value: Specifies an index value as the adjacency SID. The value range for the index-value argument is 0 to 235000.
nexthop nexthop-address: Specifies a next hop by its IP address.
Usage guidelines
After you enable adjacency SID allocation for aggregation group member interfaces, the device randomly allocates adjacency SIDs to the links to its IGP neighbors on aggregation group member interfaces. If the link to a neighbor flaps, the adjacency SID of the link keeps changing. For a link to always use the same adjacency SID, use this command to assign a specific adjacency SID to the link.
You can assign adjacency SIDs by using absolute values or index values. If you use index values, the adjacency SID of a link is the base value of the SRLB plus the index value for the link.
Before assigning adjacency SIDs, execute the display mpls label command to display the usage status of the labels that you want to assign as adjacency SIDs. Make sure the labels are in Idle state. A label that is not in Idle state is being used by another protocol. If you assign it to a link as an adjacency SID, the adjacency SID is not available even if the status of the label changes to Idle later. To use the adjacency SID, you must remove the adjacency SID assignment and assign the adjacency SID again.
Before executing the isis member-port adjacency-sid command on an interface, you must complete the following tasks:
· Enable IS-IS on the interface.
· Execute the segment-routing mpls and segment-routing member-port adjacency enable commands.
If you execute the isis member-port adjacency-sid command multiple times on an interface, the most recent configuration takes effect.
You can assign the same adjacency SID on multiple interfaces.
Examples
# Set the adjacency SID to absolute value 20000 on aggregation group member interface HundredGigE 1/0/1 for IS-IS process 1. Set the next hop to 1.1.1.1
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] isis 1 member-port adjacency-sid absolute 20000 nexthop 1.1.1.1
Related commands
display mpls label (MPLS Command Reference)
segment-routing member-port adjacency enable
segment-routing mpls
isis prefix-sid
Use isis prefix-sid to configure an IS-IS prefix SID.
Use undo isis prefix-sid to restore the default.
Syntax
isis [ process-id process-id ] prefix-sid { absolute absolute-value | index index-value } [ n-flag-clear | { explicit-null | no-php } ] *
undo isis [ process-id process-id ] prefix-sid
Default
No IS-IS prefix SID is configured.
Views
Loopback interface view
Predefined user roles
network-admin
Parameters
process-id process-id: Specifies an IS-IS process by its process ID in the range of 1 to 65535.
absolute absolute-value: Specifies an absolute value as the prefix SID. The value range for the absolute-value argument is 15000 to 250000.
index index-value : Specifies an index value in the range of 0 to 235000.
n-flag-clear: Sets the Node-SID flag bit of the prefix SID to 0 to use the prefix SID for a group of SR nodes. If you do not specify this keyword, the flag bit is 1 and the prefix SID is used for a single SR node.
explicit-null: Sets the Explicit-null flag bit of the prefix SID to 1. This setting requires that the upstream neighbor uses an explicit null label to replace the prefix SID. If you do not specify this keyword, the flag bit is 0 and the upstream neighbor continues to forward the packet based on the prefix SID. For more information about the explicit null label, see MPLS basics configuration in MPLS Configuration Guide.
no-php: Sets the P-flag bit of the prefix SID to 1 so the penultimate hop does not pop out the SID. If you do not specify this keyword, the P-flag bit is 0 and the penultimate hop pops out the SID.
Usage guidelines
An absolute value used as the prefix SID takes effect only if it is in the SRGB of the node.
If you specify an index value, the sum of the index value and the SRGB base value is used as the prefix SID. The prefix SID takes effect only if it is in the SRGB of the node.
To use a prefix SID for a group of SR nodes in anycast scenarios, specify the n-flag-clear keyword to set the Node-SID flag bit of the prefix SID to 0.
To configure an IS-IS prefix SID, you must enable an IS-IS process on the loopback interface.
If you execute this command on an interface multiple times, the most recent configuration takes effect.
Examples
# Set the IS-IS prefix SID index value to 20 on loopback interface 1.
<Sysname> system-view
[Sysname] interface loopback 1
[Sysname-LoopBack1] isis enable 1
[Sysname-LoopBack1] isis prefix-sid index 20
local-block
Use local-block to configure the SRLB.
Use undo local-block to restore the default.
Syntax
local-block minimum-value maximum-value
undo local-block
Default
The SRLB is from 16000 to 55999.
Views
Segment routing view
Predefined user roles
network-admin
Parameters
minimum-value: Specifies the minimum label value, in the range of 15000 to 249999.
maximum-value: Specifies the maximum label value, in the range of 15001 to 250000.
Usage guidelines
The segment routing local block (SRLB) is the range of local labels dedicated for SR-MPLS adjacency SIDs.
Before executing this command, use the display mpls label command to display MPLS label usage information. Make sure that all labels in the specified range are idle. If a label in the range is not idle, the MPLS SRLB takes effect only after you save the running configuration and reboot the device.
Examples
# Configure the SRLB to be from 200000 to 220000.
<Sysname> system-view
[Sysname] segment-routing
[Sysname-segment-routing] local-block 200000 220000
Related commands
display mpls label
display mpls summary (MPLS Command Reference)
mapping-server prefix-sid-map
Use mapping-server prefix-sid-map to configure a prefix-SID mapping.
Use undo mapping-server prefix-sid-map to delete a prefix-SID mapping.
Syntax
mapping-server prefix-sid-map ip-address mask-length start-value [ range range-value ] [ attached ]
undo mapping-server prefix-sid-map ip-address mask-length
Default
No prefix-SID mappings exist.
Views
Segment routing view
Predefined user roles
network-admin
Parameters
ip-address: Specifies an IPv4 address prefix to be mapped or specifies the start IP prefix for a range of prefix-SID mappings, in dotted decimal notation.
mask-length: Specifies the mask length, in the range of 1 to 32.
start-value: Specifies the index value of the SID to be mapped to the specified prefix, or specifies the index value of the start SID for a range of prefix-SID mappings. The value range for this argument is 0 to 1048574.
range range-value: Specifies the number of prefix-SID mappings, in the range of 1 to 1048575. Specify this option if you want to configure more than one mapping by using a single command. The system creates the specified number of mappings, starting from the start IP prefix and SID index value. The increment step for the prefix and SID index value is 1.
attached: Specifies that the specified prefixes represent local networks.
Usage guidelines
The specified prefixes must not belong to any existing prefix-SID mappings.
Before you configure prefix-SID mappings in bulk, plan the number of mappings. Make sure there are enough mappings to use.
If you specify a value greater than 65535 for the range-value argument, the prefix-SID mappings cannot be advertised through IS-IS or OSPF.
Examples
# Map prefix 1.1.1.1/32 to SID index value 100.
<Sysname> system-view
[Sysname] segment-routing
[Sysname-segment-routing] mapping-server prefix-sid-map 1.1.1.1 32 100
# Configure two prefix-SID mappings, starting from prefix 10.1.1.1/32 and SID index value 200.
<Sysname> system-view
[Sysname] segment-routing
[Sysname-segment-routing] mapping-server prefix-sid-map 10.1.1.1 32 200 range 2
In the first mapping, the prefix is 10.1.1.1/32 and the SID is 200. In the second mapping, the prefix is 10.1.1.2/32 and the SID is 201.
mpls te path-selection adjacency-sid
Use mpls te path-selection adjacency-sid to configure a tunnel interface to perform CSPF calculation strictly based on adjacency SID information when establishing an SRLSP for an MPLS TE tunnel.
Use undo mpls te path-selection adjacency-sid to restore the default.
Syntax
mpls te path-selection adjacency-sid
undo mpls te path-selection adjacency-sid
Default
A tunnel interface does not perform CSPF calculation strictly based on adjacency SID information when establishing an SRLSP for an MPLS TE tunnel.
Views
Tunnel interface view
Predefined user roles
netw ork-admin
Usage guidelines
This command takes effect only on an MPLS TE tunnel established by using SR.
Before executing this command, you must enable SR-MPLS and SR-MPLS adjacency SID allocation on each node that the TE tunnel might traverse.
If an MPLS TE tunnel is already established when you execute this command, the tunnel interface calculates a new SRLSP based on adjacency SID information.
· If the new SRLSP is successfully established, the tunnel interface removes the old SRLSP and uses the new SRLSP to establish a new MPLS TE tunnel.
· If the new SRLSP fails to be established, the tunnel interface continues to use the old SRLSP.
Examples
# Configure a tunnel interface to perform CSPF calculation strictly based on adjacency SID information when establishing an SRLSP for an MPLS TE tunnel.
<Sysname> system-view
[Sysname] interface tunnel 1 mode mpls-te
[Sysname-Tunnel1] mpls te path-selection adjacency-sid
mpls te static-sr-mpls
Use mpls te static-sr-mpls to bind a static SRLSP to an MPLS TE tunnel interface.
Use undo mpls te static-sr-mpls to unbind a static SRLSP from an MPLS TE tunnel interface.
Syntax
mpls te static-sr-mpls lsp-name [ backup ]
undo mpls te static-sr-mpls lsp-name
Default
An MPLS TE tunnel interface does not use any static SRLSPs.
Views
Tunnel interface view
Predefined user roles
network-admin
Parameters
lsp-name: Specifies a static SRLSP by its name, a case-sensitive string of 1 to 15 characters. The specified static SRLSP must be already created by using the static-sr-mpls lsp command.
backup: Specifies the backup static SRLSP. If you do not specify this keyword, this command specifies the main static SRLSP.
Usage guidelines
This command takes effect only if you have configured the mpls te signaling static command in tunnel interface view.
Execute this command only on the ingress node of a static SRLSP.
If you execute the mpls te static-sr-mpls and mpls te static-cr-lsp commands on a device, only the mpls te static-cr-lsp command takes effect. For the mpls te static-sr-mpls command to take effect, execute the undo mpls te static-cr-lsp command.
Examples
# Bind static SRLSP static-sr-3 to MPLS TE tunnel interface 0.
<Sysname> system-view
[Sysname] interface tunnel 0 mode mpls-te
[Sysname-Tunnel0] mpls te static-sr-mpls static-sr-3
Related commands
display mpls te tunnel-interface
mpls te signaling
ospf adjacency-sid
Use ospf adjacency-sid to assign an OSPF adjacency SID to an OSPF adjacency.
Use undo ospf adjacency-sid to reclaim an OSPF adjacency SID.
Syntax
ospf adjacency-sid { absolute absolute-value | index index-value } [ nexthop nexthop-address ]
undo ospf adjacency-sid { absolute absolute-value | index index-value } [ nexthop nexthop-address ]
Default
An OSPF adjacency does not have an adjacency SID.
Views
Interface view
Predefined user roles
network-admin
Parameters
absolute absolute-value: Specifies an absolute value as the adjacency SID. The value range for the absolute-value argument is 15000 to 250000.
index index-value: Specifies an adjacency SID index value as the adjacency SID. The value range for the index-value argument is 0 to 235000.
nexthop nexthop-address: Specifies a next hop by its IP address. If the network type of the interface is not P2P, you must specify this option. If the network type of the interface is P2P, you cannot specify this option.
Usage guidelines
After you enable OSPF adjacency SID allocation, the device randomly allocates adjacency SIDs to the links to its OSPF neighbors. If the link to an OSPF neighbor flaps, the adjacency SID of the link keeps changing. For a link to always use the same adjacency SID, use this command to assign a specific adjacency SID to the link.
You can assign adjacency SIDs by using absolute values or index values. If you If you use index values, the adjacency SID of a link is the base value of the SRLB plus the index value for the link.
Before assigning adjacency SIDs, execute the display mpls label command to display the usage status of the labels that you want to assign as adjacency SIDs. Make sure the labels are in Idle state. A label that is not in Idle state is being used by another protocol. If you assign it to a link as an adjacency SID, the adjacency SID is not available even if the status of the label changes to Idle later. To use the adjacency SID, you must remove the adjacency SID assignment and assign the adjacency SID again.
The ospf adjacency-sid command takes effect only after you execute the segment-routing mpls and segment-routing adjacency enable commands.
You can assign the same adjacency SID on multiple interfaces.
If you execute the ospf adjacency-sid command multiple times on an interface of the P2P network type, the most recent configuration takes effect.
If you execute the ospf adjacency-sid command multiple times on an interface of the broadcast network type, the effective configuration varies depending on how you specify the next hop address:
· If you specify a different next hop address each time, all configurations take effect.
· If you specify the same next hop address each time, the most recent configuration takes effect.
To change the network type of an interface, execute the ospf network-type command.
Examples
# Set the absolute value of the adjacency ID to 20000 on interface HundredGigE 1/0/1. Specify 1.1.1.1 as the next hop.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] ospf adjacency-sid absolute 20000 nexthop 1.1.1.1
Related commands
display mpls label (MPLS Command Reference)
ospf network-type (Layer 3—IP Routing Command Reference)
segment-routing adjacency enable
segment-routing mpls
ospf adjacency-sid weight
Use ospf adjacency-sid weight to set the load balancing weight for an OSPF adjacency.
Use undo ospf adjacency-sid weight to restore the default.
Syntax
ospf adjacency-sid weight weight-value
undo ospf adjacency-sid weight
Default
The load balancing weight for an OSPF adjacency is not set.
Views
Interface view
Predefined user roles
network-admin
Parameters
weight-value: Specifies the load balancing weight for the OSPF adjacency, in the range of 1 to 254.
Usage guidelines
If you use the ospf adjacency-sid command to assign the same OSPF adjacency SID to the OSPF adjacencies on multiple interfaces, multiple forwarding paths are available for adjacency SID-based forwarding. By default, packets are assigned to the adjacencies evenly. If the adjacencies have different bandwidths, you can set the load balancing weights for the adjacencies to avoid congestion. The traffic ratio on an adjacency will be its load balancing weight divided by the total load balancing weights of the adjacencies with the same OSPF adjacency SID.
Examples
# Set the load balancing weight to 1 for the OSPF adjacency SID on interface HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] ospf adjacency-sid weight 1
Related commands
ospf adjacency-sid
ospf fast-reroute ti-lfa disable
Use ospf fast-reroute ti-lfa disable to disable an OSPF interface from participating in TI-LFA calculation.
Use undo ospf fast-reroute ti-lfa disable to enable an OSPF interface to participate in TI-LFA calculation.
Syntax
ospf fast-reroute ti-lfa disable
undo ospf fast-reroute ti-lfa disable
Default
An OSPF interface participates in TI-LFA calculation.
Views
Interface view
Predefined user roles
network-admin
Usage guidelines
On the source node, the route's output interface to the primary next hop might not be on the backup path calculated by TI-LFA. Disable TI-LFA on the interface to prevent it from participating in TI-LFA calculation.
Examples
# Disable interface HundredGigE 1/0/1 from participating in TI-LFA calculation.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] ospf fast-reroute ti-lfa disable
Related commands
fast-reroute ti-lfa (OSPF view)
ospf prefix-sid
Use ospf prefix-sid to configure an OSPF prefix SID.
Use undo ospf prefix-sid to restore the default.
Syntax
ospf process-id prefix-sid { absolute absolute-value | index index-value } [ n-flag-clear | { explicit-null | no-php } ] *
undo ospf process-id prefix-sid
Default
No OSPF prefix SID is configured.
Views
Loopback interface view
Predefined user roles
network-admin
Parameters
process-id: Specifies an OSPF process ID in the range of 1 to 65535.
absolute absolute-value: Specifies an absolute value as the prefix SID. The value range for the absolute-value argument is 15000 to 250000.
index index-value: Specifies an index value as the prefix SID. The value range for the index-value argument is 0 to 235000.
n-flag-clear: Sets the Node-SID flag bit of the prefix SID to 0 to use the prefix SID for a group of SR nodes. If you do not specify this keyword, the flag bit is 1 and the prefix SID is used for a single SR node.
explicit-null: Sets the Explicit-null flag bit of the prefix SID to 1. This setting requires that the upstream neighbor uses an explicit null label to replace the prefix SID. If you do not specify this keyword, the flag bit is 0 and the upstream neighbor continues to forward the packet based on the prefix SID. For more information about the explicit null label, see MPLS basics configuration in MPLS Configuration Guide.
no-php: Sets the P-flag bit of the prefix SID to 1 so the penultimate hop does not pop out the SID. If you do not specify this keyword, the P-flag bit is 0 and the penultimate hop pops out the SID.
Usage guidelines
An absolute value used as the prefix SID takes effect only if it is in the SRGB of the node.
If you specify an index value, the sum of the index value and the SRGB base value is used as the prefix SID. The prefix SID takes effect only if it is in the SRGB of the node.
To use a prefix SID for a group of SR nodes in anycast scenarios, specify the n-flag-clear keyword to set the Node-SID flag bit of the prefix SID to 0.
The configured OSPF prefix SID takes effect only if the OSPF process enabled on the loopback interface is the same as the OSPF process associated with the prefix SID.
If you execute this command on an interface multiple times, the most recent configuration takes effect.
Examples
# Set the OSPF prefix SID index value to 20 on loopback interface 1.
<Sysname> system-view
[Sysname] interface loopback 1
[Sysname-LoopBack1] ospf 1 prefix-sid index 20
peer egress-engineering
Use peer egress-engineering to enable BGP EPE for a peer or peer group and specify a routing policy to assign a label (SID) to the peer or peer group.
Use undo peer egress-engineering to restore the default for a peer or peer group.
Syntax
peer { group-name | ipv4-address [ mask-length ] } egress-engineering [ adjacency | set ] [ route-policy policy-name ]
undo peer { group-name | ipv4-address [ mask-length ] } egress-engineering
Default
BGP EPE is disabled.
Views
BGP instance view
Predefined user roles
network-admin
Parameters
group-name: Specifies an existing peer group by its name, a case-sensitive string of 1 to 47 characters.
ipv4-address: Specifies the IPv4 address of an existing peer.
mask-length: Specifies the mask length, in the range of 0 to 32. This argument and the ipv4-address argument together specify a subnet. If you specify this argument, the command applies to dynamic peers on the specified subnet.
adjacency: Assigns a Peer-Adjacency-SID.
set: Assigns a Peer-Set-SID.
route-policy route-policy-name: Specifies a routing policy by its name, a case-sensitive string of 1 to 63 characters. If you do not specify this option, the device assigns SIDs to neighbors randomly.
Usage guidelines
If you do not specify the adjacency or set keyword, the device assigns a Peer-Node-SID.
You cannot assign the same SID to multiple BGP peers or peer groups.
You can specify the same routing policy only when you assign set type SIDs to BGP peers or peer groups.
You can use if-match interface as a filtering condition only when you assign adjacency SIDs to BGP peers or peer groups.
Examples
# Enable BGP EPE for peer 1.1.1.1 and assign a Peer-Node-SID to the peer.
<Sysname> system-view
[Sysname] bgp 100
[Sysname-bgp-default] peer 1.1.1.1 egress-engineering
segment-routing
Use segment-routing to enable segment routing and enter segment routing view.
Use undo segment-routing to disable segment routing.
Syntax
segment-routing
undo segment-routing
Default
Segment routing is disabled.
Views
System view
Predefined user roles
network-admin
Usage guidelines
To configure the Segment Routing Mapping Server (SRMS) features, you must execute this command on the SRMS. The SRMS is an entity that advertises prefix-SID mappings in an IGP. By deploying an SRMS, you can allocate SIDs to devices that do not support SR-MPLS, allowing for SR-MPLS and LDP interworking.
Examples
# Enable segment routing and enter segment routing view.
<Sysname> system-view
[Sysname] segment-routing
[Sysname-segment-routing]
segment-routing adjacency enable
Use segment-routing adjacency enable to enable SR-MPLS adjacency label allocation.
Use undo segment-routing adjacency enable to disable SR-MPLS adjacency label allocation.
Syntax
segment-routing adjacency enable
undo segment-routing adjacency enable
Default
SR-MPLS adjacency label allocation is disabled.
Views
IS-IS IPv4 unicast address family view
OSPF view
Predefined user roles
network-admin
Usage guidelines
For this command to take effect, you must enable SR-MPLS.
Examples
# Enable SR-MPLS adjacency label allocation for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] segment-routing adjacency enable
# Enable SR-MPLS adjacency SID allocation for OSPF process 1.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] segment-routing adjacency enable
Related commands
segment-routing mpls
segment-routing global-block
Use segment-routing global-block to configure the MPLS SRGB.
Use undo segment-routing global-block to restore the default.
Syntax
segment-routing global-block minimum-value maximum-value
undo segment-routing global-block
Default
The MPLS SRGB for IS-IS is the same as the global MPLS SRGB configured in segment routing view.
Views
IS-IS view
OSPF view
Predefined user roles
network-admin
Parameters
minimum-value: Specifies the minimum label value, in the range of 15000 to 249999.
maximum-value: Specifies the maximum label value, in the range of 15001 to 250000.
Usage guidelines
If no MPLS SRGB is configured for an IS-IS or OSPF process, the process uses the global MPLS SRGB (the MPLS SRGB configured in segment routing view).
If you have configured prefix SIDs when you configure the SRGB, the SRGB must contain the configured prefix SIDs.
Examples
# Configure the MPLS SRGB to be from 17000 to 22000 for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] segment-routing global-block 17000 22000
# Configure the MPLS SRGB to be from 17000 to 22000 for OSPF process 1.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] segment-routing global-block 17000 22000
Related commands
global-block
segment-routing lsp-trigger
Use segment-routing lsp-trigger to configure the SRLSP establishment triggering policy.
Use undo segment-routing lsp-trigger to restore the default.
Syntax
segment-routing lsp-trigger { host | none | prefix-list prefix-name }
undo segment-routing lsp-trigger
Default
The device allows all FECs to trigger SRLSP establishment.
Views
OSPF view
Predefined user roles
network-admin
Parameters
host: Allows host FECs to trigger SRLSP establishment.
none: Allows no FECs to trigger SRLSP establishment.
prefix-list prefix-name: Allows FECs permitted by a prefix list to trigger SRLSP establishment. The prefix-name argument is a case-sensitive string of 1 to 63 characters.
Usage guidelines
To save system resources, you can configure the SRLSP establishment triggering policy to allow only certain FECs to trigger SRLSP establishment.
Examples
# Configure the SRLSP establishment triggering policy to allow only host FECs to trigger SRLSP establishment.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] segment-routing lsp-trigger host
segment-routing mapping-server advertise-local
Use segment-routing mapping-server advertise-local to enable advertisement of locally configured prefix-SID mappings.
Use undo segment-routing mapping-server advertise-local to disable advertisement of locally configured prefix-SID mappings.
Syntax
segment-routing mapping-server advertise-local
undo segment-routing mapping-server advertise-local
Default
Advertisement is disabled for locally configured prefix-SID mappings.
Views
IS-IS IPv4 unicast address family view
OSPF view
Predefined user roles
network-admin
Usage guidelines
In an SR to LDP interworking scenario, you must execute this command on the SRMS so the device advertises locally configured prefix-SID mappings to neighbors.
Examples
# Enable IS-IS to advertise locally configured prefix-SID mappings for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] segment-routing mapping-server advertise-local
# Enable OSPF to advertise locally configured prefix-SID mappings for OSPF process 1.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] segment-routing mapping-server advertise-local
Related commands
mapping-server prefix-sid-map
segment-routing mapping-server receive
Use segment-routing mapping-server receive to enable reception of prefix-SID mappings.
Use undo segment-routing mapping-server receive to disable reception of prefix-SID mappings.
Syntax
segment-routing mapping-server receive
undo segment-routing mapping-server receive
Default
Reception of prefix-SID mappings is enabled.
Views
IS-IS IPv4 unicast address family view
OSPF view
Predefined user roles
network-admin
Usage guidelines
In an SR to LDP interworking scenario, you must execute this command on the SRMCs so they can identify the prefix-SID mappings advertised by the SRMS.
Examples
# Disable reception of prefix-SID mappings for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] undo segment-routing mapping-server receive
# Disable reception of prefix-SID mappings for OSPF process 1.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] undo segment-routing mapping-server receive
Related commands
mapping-server prefix-sid-map
mapping-server prefix-sid-map advertise-local
segment-routing member-port adjacency enable
Use segment-routing member-port adjacency enable to enable SR-MPLS adjacency SID allocation for aggregation group member interfaces.
Use undo segment-routing member-port adjacency enable to disable SR-MPLS adjacency SID allocation for aggregation group member interfaces.
Syntax
segment-routing member-port adjacency enable
undo segment-routing member-port adjacency enable
Default
SR-MPLS adjacency SID allocation is disabled for aggregation group member interfaces.
Views
IS-IS IPv4 unicast address family view
Predefined user roles
network-admin
Usage guidelines
Before executing this command, you must execute the segment-routing mpls command.
After you execute this command, the device will automatically select and assign adjacency SIDs from the SRLB to links to its IGP neighbors on Layer 3 aggregation group member interfaces.
Examples
# Enable SR-MPLS adjacency SID allocation for aggregation group member interfaces in IPv4 unicast address family view of IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] segment-routing member-port adjacency enable
Related commands
segment-routing mpls
segment-routing microloop-avoidance enable
Use segment-routing microloop-avoidance enable to enable SR microloop avoidance.
Use undo segment-routing microloop-avoidance enable to disable SR microloop avoidance.
Syntax
In IS-IS IPv4 unicast address family view:
segment-routing microloop-avoidance enable [ level-1 | level-2 ]
undo segment-routing microloop-avoidance enable [ level-1 | level-2 ]
In OSPF view:
segment-routing microloop-avoidance enable
undo segment-routing microloop-avoidance enable
Default
SR microloop avoidance is disabled.
Views
IS-IS IPv4 unicast address family view
OSPF view
Predefined user roles
network-admin
Parameters
level-1: Specifies SR microloop avoidance for IS-IS Level-1.
level-2: Specifies SR microloop avoidance for IS-IS Level-2.
Usage guidelines
After a network failure occurs or recovers, route convergence occurs on relevant network devices. Because of non-simultaneous convergence on network devices, microloops might be formed. After you configure SR microloop avoidance, the devices will forward traffic along the specified path before route convergence is finished on all the relevant network devices. Because the forwarding path is independent of route convergence, microloops are avoided.
If you execute both this command and the fast-reroute microloop-avoidance enable command, this command takes effect.
If you do not specify the level-1 or level-2 keyword, the segment-routing microloop-avoidance enable command enables or disables SR microloop avoidance on all IS-IS levels.
Examples
# Enable SR microloop avoidance for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] segment-routing microloop-avoidance enable
# Enable SR microloop avoidance for OSPF process 1.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] segment-routing microloop-avoidance enable
Related commands
fast-reroute microloop-avoidance enable
segment-routing microloop-avoidance rib-update-delay
segment-routing microloop-avoidance rib-update-delay
Use segment-routing microloop-avoidance rib-update-delay to set the SR microloop avoidance RIB-update-delay time.
Use undo segment-routing microloop-avoidance rib-update-delay to restore the default.
Syntax
In IS-IS IPv4 unicast address family view:
segment-routing microloop-avoidance rib-update-delay delay-time [ level-1 | level-2 ]
undo segment-routing microloop-avoidance rib-update-delay [ level-1 | level-2 ]
In OSPF view:
segment-routing microloop-avoidance rib-update-delay delay-time
undo segment-routing microloop-avoidance rib-update-delay
Default
The SR microloop avoidance RIB-update-delay time is 5000 ms.
Views
IS-IS IPv4 unicast address family view
OSPF view
Predefined user roles
network-admin
Parameters
delay-time: Specifies the SR microloop avoidance RIB-update-delay time in milliseconds. The value range is 1 to 60000.
level-1: Specifies the SR microloop avoidance RIB-update-delay time for IS-IS Level-1.
level-2: Specifies the SR microloop avoidance RIB-update-delay time for IS-IS Level-2.
Usage guidelines
To leave sufficient time for IGP to finish route convergence, specify a proper value for the SR microloop avoidance RIB-update-delay timer. Before the timer expires, failure relevant devices will forward traffic along the specified path. After the timer expires, traffic will traverse the usual path.
If you do not specify the level-1 or level-2 keyword, this command sets the SR microloop avoidance RIB-update-delay time for all IS-IS levels.
Examples
# Set the SR microloop avoidance RIB-update-delay time to 6000 ms for IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] segment-routing microloop-avoidance rib-update-delay 6000
# Set the SR microloop avoidance RIB-update-delay time to 6000 ms for OSPF process 1.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] segment-routing microloop-avoidance rib-update-delay 6000
Related commands
segment-routing microloop-avoidance enable
segment-routing mpls
Use segment-routing mpls to enable SR-MPLS.
Use undo segment-routing mpls to disable SR-MPLS.
Syntax
segment-routing mpls
undo segment-routing mpls
Default
SR-MPLS is disabled.
Views
IS-IS IPv4 unicast address family view
OSPF view
Predefined user roles
network-admin
Usage guidelines
For SR-MPLS to take effect, perform the following tasks before configuring the IGP to support SR-MPLS:
· If the IGP is IS-IS, set the cost style to wide, compatible, or wide-compatible. For more information about the cost style, see IS-IS configuration in Layer 3—IP Routing Configuration Guide.
· If the IGP is OSPF, enable opaque LSA reception and advertisement capability. For more information about the capability, see OSPF configuration in Layer 3—IP Routing Configuration Guide.
Examples
# Enable SR-MPLS in IS-IS IPv4 unicast address family view of IS-IS process 1.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] cost-style wide
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] segment-routing mpls
# Enable SR-MPLS for OSPF process 1.
<Sysname> system-view
[Sysname] ospf 1
[Sysname-ospf-1] segment-routing mpls
Related commands
cost-style (Layer 3—IP Routing Command Reference)
opaque-capability enable (Layer 3—IP Routing Command Reference)
segment-routing sr-prefer
Use segment-routing sr-prefer to configure the device to prefer SRLSPs in traffic forwarding.
Use undo segment-routing sr-prefer to restore the default.
Syntax
segment-routing sr-prefer [ prefix-list prefix-list-name ]
undo segment-routing sr-prefer
Default
The device prefers LDP LSPs in traffic forwarding.
Views
IS-IS IPv4 unicast address family view
OSPF view
Predefined user roles
network-admin
Parameters
prefix-list prefix-list-name: Specifies an IP address prefix list by its name, a case-sensitive string of 1 to 63 characters. The device preferentially uses SRLSPs to forward traffic destined for addresses on the prefix list, and preferentially uses LDP LSPs to forward traffic destined for other addresses. If you do not specify an IP address prefix list, the device preferentially uses SRLSPs to forward all traffic.
Usage guidelines
This command determines whether the device prefers SRLSPs or LDP LSPs when both SRLSPs and LDP LSPs are available for traffic forwarding.
This command takes effect only when SR-MPLS is enabled and the SRLSPs use prefix SIDs.
Examples
# Configure the device to preferentially use SRLSPs established by IS-IS to forward all traffic.
<Sysname> system-view
[Sysname] isis 1
[Sysname-isis-1] address-family ipv4
[Sysname-isis-1-ipv4] segment-routing sr-prefer
# Configure the device to preferentially use SRLSPs established by OSPF to forward traffic that is identified by prefix list 8.
<Sysname> system-view
[Sysname] ip prefix-list 8 permit 4.4.4.4 32
[Sysname] ospf 1
[Sysname-ospf-1] segment-routing sr-prefer prefix-list 8
Related commands
ip prefix-list (Layer 3—IP Routing Command Reference)
segment-routing mpls
static-sr-mpls adjacency
Use static-sr-mpls adjacency to configure an adjacency segment for static SR.
Use undo static-sr-mpls adjacency to delete an adjacency segment.
Syntax
static-sr-mpls adjacency adjacency-path-name in-label label-value { nexthop ip-address | outgoing-interface interface-type interface-number }
undo static-sr-mpls adjacency adjacency-path-name
Default
No adjacency segments exist.
Views
System view
Predefined user roles
network-admin
Parameters
adjacency-path-name: Specifies the adjacency segment name, a case-sensitive string of 1 to 15 characters.
in-label label-value: Specifies the incoming label in the range of 16 to 14999.
nexthop ip-address: Specifies the next hop address.
outgoing-interface interface-type interface-number: Specifies an output interface by its type and number. The output interface must be a P2P interface.
Usage guidelines
Execute this command on all nodes of a static SRLSP.
If you specify the next hop address, make sure the following requirements are met:
· The device has a route to reach the next hop address.
· MPLS is enabled on the output interface of the route.
If you specify an output interface, make sure the following requirements are met:
· The interface is up.
· The interface can receive direct routes.
· MPLS is enabled on the interface.
On a device, the incoming label specified by this command must be different than other static LSPs and static CRLSPs. If not, the configured adjacency segment is unavailable. The adjacency segment cannot become available even if you change the incoming label of the static LSP or static CRLSP. To resolve this problem, you must delete the existing adjacency segment and configure a new one with a different incoming label.
Examples
# Configure adjacency segment adj1, and specify the incoming label as 100 and the next hop address as 12.2.1.2.
<Sysname> system-view
[Sysname] static-sr-mpls adjacency adj1 in-label 100 nexthop 12.2.1.2
Related commands
static-sr-mpls lsp
display static-sr-mpls
static-sr-mpls lsp
Use static-sr-mpls lsp to configure a static SRLSP.
Use undo static-sr-mpls lsp to delete a static SRLSP.
Syntax
static-sr-mpls lsp lsp-name out-label out-label-value&<1-15>
undo static-sr-mpls lsp lsp-name
Default
No static SRLSPs exist.
Views
System view
Predefined user roles
network-admin
Parameters
lsp-name: Specifies the static SRLSP name, a case-sensitive string of 1 to 15 characters.
out-label out-label-value&<1-15>: Specifies a space-separated list of up to 15 outgoing labels. The outgoing labels represent the incoming MPLS labels of the nodes that a static SRLSP traverses, from the nearest to the farthest away from the ingress node. The value range for the out-label-value argument is 0, 3, and 16 to 1048575.
Usage guidelines
Execute this command only on the ingress node of a static SRLSP.
Examples
# Configure static SRLSP lsp1, and specify the outgoing labels as 100, 200, and 300.
<Sysname> system-view
[Sysname] static-sr-mpls lsp lsp1 out-label 100 200 300
Related commands
static-sr-mpls adjacency
display static-sr-mpls
static-sr-mpls prefix
Use static-sr-mpls prefix to configure a prefix segment for static SR.
Use undo static-sr-mpls prefix to delete a prefix segment.
Syntax
static-sr-mpls prefix prefix-path-name destination ip-address { mask | mask-length } in-label in-label-value [ { nexthop ip-address | outgoing-interface interface-type interface-number } out-label out-label-value ]
undo static-sr-mpls prefix prefix-path-name [ destination ip-address { mask | mask-length } in-label in-label-value [ nexthop ip-address | outgoing-interface interface-type interface-number ] ]
Default
No prefix segments exist.
Views
System view
Predefined user roles
network-admin
Parameters
prefix-path-name: Specifies the prefix segment name, a case-sensitive string of 1 to 15 characters.
destination ip-address: Specifies the destination IP address.
mask: Specifies the mask.
mask-length: Specifies the mask length, in the range of 0 to 32.
in-label label-value: Specifies the incoming label in the range of 16000 to 55999.
nexthop ip-address: Specifies the next hop address.
outgoing-interface interface-type interface-number: Specifies an output interface by its type and number. The output interface must be a P2P interface.
out-label out-label-value: Specifies the outgoing label, in the range of 0, 3, and 16 to 1048575.
Usage guidelines
A prefix segment must use the next hop or output interface of the optimal route (non-BGP route) to the destination address of the prefix segment. You can configure multiple prefix segments to the destination address for load sharing if the optimal route has more than one next hops or output interfaces. To avoid configuration failure, make sure all prefix segments use the same prefix segment name, incoming label, and outgoing label.
Execute this command on all nodes of a static SRLSP.
If you specify only the prefix-path-name argument, the undo static-sr-mpls prefix command deletes all prefix segments with the specified name. If you specify all parameters, only the prefix segment that matches the specified name, destination IP address, and next hop or output interface is deleted.
Examples
# Configure prefix segment prefix1, specify the destination IP address, incoming label, outgoing label, and next hop as 2.2.2.2, 16000, 16001, and 10.0.0.2, respectively.
<Sysname> system-view
[Sysname] static-sr-mpls prefix prefix1 destination 2.2.2.2 32 in-label 16000 nexthop 10.0.0.2 out-label 16001
Related commands
display mpls static-sr-mpls prefix