[RouterH-rrpp-domain1] control-vlan 4092
[RouterH-rrpp-domain1] protected-vlan reference-instance 1
# Configure Router H as the master node of subring 5, with GigabitEthernet 3/0/1 as the primary
port and GigabitEthernet 3/0/2 as the secondary port, and enable subring 5.
[RouterH-rrpp-domain1] ring 5 node-mode master primary-port gigabitethernet 3/0/1
secondary-port gigabitethernet 3/0/2 level 1
[RouterH-rrpp-domain1] ring 5 enable
[RouterH-rrpp-domain1] quit
# Enable RRPP.
[RouterH] rrpp enable
9.
Verify the configuration:
Use the display command to view RRPP configuration and operational information on each
device.
Load balanced intersecting-ring configuration example
Networking requirements
As shown in
•
Router A, Router B, Router C, Router D, and Router F form RRPP domain 1, and VLAN 100 is
the primary control VLAN of the RRPP domain. Router A is the master node of the primary ring,
Ring 1. Router D is the transit node of Ring 1. Router F is the master node of the subring Ring 3.
Router C is the edge node of the subring Ring 3. Router B is the assistant-edge node of the
subring Ring 3.
•
Router A, Router B, Router C, Router D, and Router E form RRPP domain 2, and VLAN 105 is
the primary control VLAN of the RRPP domain. Router A is the master node of the primary ring,
Ring 1. Router D is the transit node of Ring 1. Router E is the master node of the subring Ring
2. Router C is the edge node of the subring Ring 2. Router B is the assistant-edge node of the
subring Ring 2.
•
Specify VLAN 11 as the protected VLAN of domain 1, and VLAN 12 the protected VLAN of
domain 2. You can implement VLAN-based load balancing on Ring 1.
•
Because Ring 2 has the same edge node and assistant-edge node, and the two subrings have
the same SRPTs, you can add Ring 2 and Ring 3 to the RRPP ring group to reduce Edge-Hello
traffic.
Figure
27,
101