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Static Routing table Status : < Inactive>
Summary Count : 0
The output shows that Switch A communicates with Switch B through VLAN-interface 11.
BFD for IPv6 static routes configuration example (indirect next
hop)
Network requirements
In Figure 84, Switch A has a route to interface Loopback 1 (2::9/128) on Switch B, with the output
interface being VLAN-interface 10. Switch B has a route to interface Loopback 1 (1::9/128) on Switch A,
with the output interface being VLAN-interface 12. Switch D has a route to 1::9/128, with the output
interface being VLAN-interface 10, and a route to 2::9/128, with the output interface being
VLAN-interface 12.
Configure an IPv6 static route to subnet 120::/64 on Switch A, and configure an IPv6 static route to
subnet 121::/64 on Switch B. Enable BFD for both routes. Configure an IPv6 static route to subnet
120::/64 and an IPv6 static route to subnet 121::/64 on both Switch C and Switch D. When the link
between Switch A and Switch B through Switch D fails, BFD can detect the failure immediately and
Switch A and Switch B can communicate through Switch C.
Figure 84 Network diagram
Table 10 Interface and IP address assignment
Device Interface IPv6
address
Device
Interface
IPv6 address
Switch A Vlan-int10 12::1/64 Switch B Vlan-int12 11::2/64
Switch A Vlan-int11 10::102/64 Switch B Vlan-int13 13::1/64
Switch A Loop1 1::9/128 Switch B Loop1 2::9/128
Switch C Vlan-int11 10::100/64 Switch D Vlan-int10 12::2/64
Switch C Vlan-int13 13::2/64 Switch D Vlan-int12 11::1/64
Configuration procedure
1. Configure IPv6 addresses for interfaces. (Details not shown.)
2. Configure IPv6 static routes and BFD:
# Configure IPv6 static routes on Switch A and enable BFD control packet mode for the IPv6 static
route that traverses Switch D.
Switch A Switch B
Switch C
BFD
Vlan-int10
Vl
an-
int11
Vlan-int11 Vlan-int13
Vl
an-
int13
Vlan-int10
121::/64
120::/64
Switch D
Vlan-int12
Vlan-int12
Loop1
1::9/128
Loop1
2::9/128
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