Displaying static lsps, Static lsp configuration example, Network requirements – H3C Technologies H3C S6800 Series Switches User Manual

13

Step Command

Remarks

2.

Configure the
ingress node of the

static LSP.

static-lsp ingress lsp-name destination
dest-addr { mask | mask-length } { nexthop
next-hop-addr | outgoing-interface

interface-type interface-number } out-label

out-label

If you specify a next hop for the
static LSP, make sure the ingress

node has an active route to the
specified next hop address.

3.

Configure the

transit node of the
static LSP.

static-lsp transit lsp-name in-label in-label
{ nexthop next-hop-addr |
outgoing-interface interface-type

interface-number } out-label out-label

If you specify a next hop for the
static LSP, make sure the transit
node has an active route to the

specified next hop address.

4.

Configure the
egress node of the

static LSP.

static-lsp egress lsp-name in-label in-label

You do not need to configure this
command if the outgoing label

configured on the penultimate hop

of the static LSP is 0 or 3.

Displaying static LSPs

Execute display commands in any view.

Task Command

Display static LSP information.

display mpls static-lsp [ lsp-name lsp-name ]

Static LSP configuration example

Network requirements

Switch A, Switch B, and Switch C all support MPLS.
Establish static LSPs between Switch A and Switch C, so that subnets 11.1.1.0/24 and 21.1.1.0/24 can
access each other over MPLS.

Figure 8 Network diagram

Loop0

2.2.2.9/32

Vlan-int3
20.1.1.1/24

Loop0

3.3.3.9/32

Loop0

1.1.1.9/32

Vlan-int2
10.1.1.1/24

Vlan-int2

10.1.1.2/24

Vlan-int3

20.1.1.2/24

Switch A

Switch B

Switch C

11.1.1.0/24

21.1.1.0/24

Vlan-int4

11.1.1.1/24

Vlan-int5
21.1.1.1/24