136
# Configure MPLS TE to use a static CRLSP to establish the tunnel.
[SwitchA-Tunnel0] mpls te signaling static
[SwitchA-Tunnel0] quit
5.
Create a static CRLSP:
# Configure Switch A as the ingress node of the static CRLSP, specify the next hop address as
2.1.1.2 and outgoing label as 20.
[SwitchA] static-cr-lsp ingress static-cr-lsp-1 nexthop 2.1.1.2 out-label 20
# On Switch A, configure tunnel 0 to reference the static CRLSP
static-cr-lsp-1
.
[SwitchA] interface Tunnel0
[SwitchA-Tunnel0] mpls te static-cr-lsp static-cr-lsp-1
[SwitchA-Tunnel0] quit
# Configure Switch B as the transit node of the static CRLSP, specify the incoming label as 20, the
next hop address as 3.2.1.2 and outgoing label as 30.
[SwitchB] static-cr-lsp transit static-cr-lsp-1 in-label 20 nexthop 3.2.1.2 out-label
30
# Configure Switch C as the egress node of the static CRLSP, and specify the incoming label as 30.
[SwitchC] static-cr-lsp egress static-cr-lsp-1 in-label 30
6.
Configure a static route on Switch A to direct traffic destined for subnet 3.2.1.0/24 to MPLS TE
tunnel 0.
[SwitchA] ip route-static 3.2.1.2 24 tunnel 0 preference 1
Verifying the configuration
# Execute the
display interface tunnel
command on Switch A. The output shows that the tunnel interface
is up.
[SwitchA] display interface tunnel
Tunnel0
Current state: UP
Line protocol state: UP
Description: Tunnel0 Interface
Bandwidth: 64kbps
Maximum Transmit Unit: 1496
Internet Address is 6.1.1.1/24 Primary
Tunnel source unknown, destination 3.3.3.3
Tunnel TTL 255
Tunnel protocol/transport CR_LSP
Last clearing of counters: Never
Last 300 seconds input rate: 0 bytes/sec, 0 bits/sec, 0 packets/sec
Last 300 seconds output rate: 0 bytes/sec, 0 bits/sec, 0 packets/sec
Input: 0 packets, 0 bytes, 0 drops
Output: 0 packets, 0 bytes, 0 drops
# Execute the
display mpls te tunnel-interface
command on Switch A to display detailed information
about the MPLS TE tunnel.
[SwitchA] display mpls te tunnel-interface
Tunnel Name : Tunnel 0
Tunnel State : Up (Main CRLSP up)
Tunnel Attributes :