GigabitEthernet2/0/0 VLANIF 40 30.1.1.1/24
Loopback0 - 3.3.3.9/32
CE1 GigabitEthernet1/0/0 VLANIF 10 100.1.1.1/24
CE2 GigabitEthernet1/0/0 VLANIF 60 100.1.1.2/24
Configuration Roadmap
The configuration roadmap is as follows:
1. Run an IGP protocol on the devices of the backbone network to implement connectivity.
2. Configure the basic MPLS functions on the backbone network and set up an LSP. Set up
MPLS LDP peer relations between U-PE1 and S-PE, and between U-PE2 and S-PE.
3. Create a PW template. Enable the CW and LSP ping function.
4. Create an MPLS L2VC connection between the two U-PEs.
5. Create a switching PW on the switching node S-PE.
Data Preparation
To complete the configuration, you need the following data:
l L2VC IDs on U-PE1 and U-PE2 (the L2VC IDs should be different)
l MPLS LSR-IDs of U-PE1, S-PE, and U-PE2
l IP addresses of the remote peers
l Encapsulation type of the switching PW
l Name and parameters of the PW template on U-PEs
Procedure
Step 1 Configure the IDs of the VLANs to which the interfaces belong according to Figure 5-13.
The configuration procedure is not mentioned.
NOTE
The S9300 only allows the CE to access the PE through a trunk.
Step 2 Assign an IP address to the interface connecting CE to PE.
The configuration procedure is not mentioned.
Step 3 Configure an IGP protocol on the MPLS backbone network.
Configure an IGP protocol on the MPLS backbone network. OSPF is used as the IGP protocol
in this example.
Configure interface addresses of the U-PE, S-PE, and P. When configuring OSPF, note that the
32-bit loopback interfaces of U-PE1, S-PE, and U-PE2 must be advertised.
The configuration procedure is not mentioned.
5 PWE3 Configuration
Quidway S9300 Terabit Routing Switch
Configuration Guide - VPN
5-52 Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
Issue 03 (2009-08-20)
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