Huawei NetEngine80E Configuration Manual - Reliability page 709
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Also See for NetEngine80E:
- Configuration manual - reliability (1432 pages) ,
- Configuration manual (1301 pages) ,
- Installation manual (169 pages)
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HUAWEI NetEngine80E/40E Router
Configuration Guide - Reliability
Configuration Roadmap
The configuration roadmap is as follows:
1.
2.
Data Preparation
To complete the configuration, you need the following data:
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Procedure
Step 1 Configure a bidirectional LSP.
For details about the bidirectional LSP built based on LSRs, see "Configuring a Static
Bidirectional LSP" in the
system-view
system-view
ping meg test
or information in the configuration files of this configuration example.
Step 2 Create an ME and bind it to a bidirectional LSP.
# Create an ME named test on LSRA and bind the ME to Tunnel 1/0/0.
[HUAWEI] sysname LSRA
[LSRA] mpls-tp meg test
[LSRA-mpls-tp-meg-test] me te interface tunnel 1/0/0 mep-id 1 rmep-id 2
[LSRA-mpls-tp-meg-test] return
# Create an ME named test on LSRC and bind the ME to Tunnel 2/0/0.
[HUAWEI] sysname LSRC
[LSRC] mpls-tp meg test
[LSRC-mpls-tp-meg-test] me te interface tunnel 2/0/0 mep-id 2 rmep-id 1
Step 3 Enable LB.
LB can be used to detect the connectivity between a MEP and its RMEP or a MIP. In this example, LB is used
to detect the connectivity between LSRA and LSRC.
Enable LB on LSRA.
PING test: 9 data bytes, press CTRL_C to break
--- ping statistics ---
----End
Configuration Files
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Issue 02 (2011-09-10)
Create an ME and bind it to a bidirectional LSP.
Enable LB.
MEG name
Name of the TE tunnel bound to the ME
NOTE
Reply from vsi: bytes=9, Sequence=1 time=100 ms
Reply from vsi: bytes=9, Sequence=2 time=90 ms
Reply from vsi: bytes=9, Sequence=3 time=100 ms
3 packet(s) transmitted
3 packet(s) received
0.00% packet loss
round-trip min/avg/max 90/96/100 ms
Configuration file of LSRA
#
sysname LSRA
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10 MPLS-TP OAM Configuration
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