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Example: Configuring a Remote LSP CCC over Aggregated Ethernet
See the topology in Figure 1. In this
topology, CE Router G has an aggregated Ethernet connection to PE
Router F. CE Router D has an aggregated Ethernet connection to PE
Router E. Router E and Router F have an MPLS LSP between them. With
remote CCC, you specify that the circuit from Router D is connected
to the circuit from Router G. The circuit from Router D is connected
to the LSP on Router E; the circuit from Router G is connected to
the LSP on Router F. In other words, ae0.0 and ae1.0 are connected using lsp1-2 and lsp2-1. You configure
Router D and Router G as standard aggregated Ethernet interfaces.
For more information about aggregated Ethernet, see Aggregated Ethernet Interfaces Overview.
Figure 1: Remote Interface-LSP-Interface Circuit
Cross-Connect over Aggregated Ethernet Interfaces
On Router D
[edit interface]ae0 {aggregated-ether-options {minimum-links 1;link-speed 1g;lacp {active;periodic fast;}}unit 0 {family inet {address 192.168.2.1/30;}}}
On Router E
[edit interfaces]ae0 {encapsulation ethernet-ccc;aggregated-ether-options {minimum-links 1;link-speed 100m;lacp {active;periodic fast;}}unit 0 {encapsulation vlan-ccc; # defaultfamily ccc; # default}}
[edit protocols]mpls {interface all;}
connections {remote-interface-switch remote-sw-1 {interface ae0.0;receive-lsp lsp2_1;transmit-lsp lsp1_2;}}
On Router F
[edit interfaces]ae1 {encapsulation ethernet-ccc;aggregated-ether-options {minimum-links 1;link-speed 100m;lacp {active;periodic fast;}}unit 0 {encapsulation vlan-ccc; # defaultfamily ccc; # default}}
[edit protocols]mpls {interface all;}
connections {remote-interface-switch remote-sw-2 {interface ae1.0;receive-lsp lsp1_2;transmit-lsp lsp2_1;}}
On Router G
[edit interface]ae1 {aggregated-ether-options {minimum-links 1;link-speed 1g;lacp {active;periodic fast;}}unit 0 {family inet {address 192.168.2.2/30;}}}
Published: 2013-08-01
