Mpls ldp over mpls te configuration example, Network requirements – H3C Technologies H3C SR8800 User Manual

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2 2.2.2.9 ISIS 1 Level-2 2

3 4.4.4.9 ISIS 1 Level-2 1

4 1.1.1.9 ISIS 1 Level-2 1

# Execute the display mpls te link-administration bandwidth-allocation command on Router A to
view interface bandwidth information.

[RouterA] display mpls te link-administration bandwidth-allocation interface

GigabitEthernet 3/1/1

Link ID: GigabitEthernet 3/1/1

Max Link Bandwidth : 10000 kbits/sec

Max Reservable Bandwidth PreStandard RDM : 0 kbits/sec

Max Reservable Bandwidth IETF RDM : 10000 kbits/sec

Max Reservable Bandwidth IETF MAM : 0 kbits/sec

Downstream LSP Count : 1

UpStream LSP Count : 1

Downstream Bandwidth : 4000 kbits/sec

Upstream Bandwidth : 0 kbits/sec

IPUpdown Link Status : UP

PhysicalUpdown Link Status : UP

BC PreStandard Mode RDM(kbps) IETF Mode RDM(kbps) IETF Mode MAM(kbps)

0 0 10000 0

1 0 8000 0

2 0 5000 0

3 0 2000 0

TE CLASS CLASS TYPE PRIORITY BW RESERVED(kbps) BW AVAILABLE(kbps)

0 0 7 0 6000

1 1 7 0 4000

2 2 7 0 1000

3 3 7 0 1000

4 0 0 0 6000

5 1 0 0 4000

6 2 0 4000 1000

7 3 0 0 1000

8.

Create a static route to import traffic into the MPLS TE tunnel

[RouterA] ip route-static 30.1.1.2 24 tunnel 1 preference 1

Execute the display ip routing-table command on Router A. There is a static route entry with
interface Tunnel1 as the outgoing interface.

MPLS LDP over MPLS TE configuration example

Network requirements

Router A through Router E all support MPLS and run OSPF as the IGP.
A local LDP session is established between Router A and Router B, as well as between Router C and

Router D. A remote LDP session is established between Router B and Router C. An MPLS TE tunnel is

established along Router B → Router E → Router C by using RSVP-TE.
Router B uses the SPE card to process MPLS L2VPN services.