Di Posting Oleh : Simple Learning
Kategori : IPv6
Prerequisites: CCNP level skills.
Topology
Pic 1. Topology Diagram.
Task 1
Using previous lab's IPv6 configuration, create new loopback interface on R1 and SW2. Use the following IPv6 addresses:
Enable IPv6 MP-BGP peering between R1 (AS100) and SW2 (AS800). Advertise IPv6 addresses configured on Loopback1 interface of both devices into IPv6 MP-BGP. Check the connectivity.
Solution
Task 1
Using previous lab's IPv6 configuration, create new loopback interface on R1 and SW2. Use the following IPv6 addresses:
!
interface Loopback1
no ip address
ipv6 address 2002:A00:101:1111::1/128
!
SW2 Config:
!
interface Loopback1
no ip address
ipv6 address 2002:A00:101:8888::8/128
!
Task 2
Enable IPv6 BGP peering between R1 (AS100) and SW2 (AS800). Advertise IPv6 addresses configured on Loopback1 interface of both devices into IPv6 MP-BGP. Check the connectivity.
R1 Config:
!
router bgp 100
no synchronization
bgp log-neighbor-changes
neighbor 2002:A00:101:D7::8 remote-as 800
no neighbor 2002:A00:101:D7::8 activate
no auto-summary
!
address-family ipv6
neighbor 2002:A00:101:D7::8 activate
network 2002:A00:101:1111::1/128
exit-address-family
!
NOTICE!
The configuration of IPv6 address family may be different on your router. It depends on the IOS version you use (neighbor and network statements should be configured in ipv6 address-family but may show like in my example).
SW2 Config:
!
router bgp 800
no synchronization
bgp log-neighbor-changes
neighbor 2002:A00:101:D7::1 remote-as 100
no neighbor 2002:A00:101:D7::1 activate
no auto-summary
!
address-family ipv6
neighbor 2002:A00:101:D7::1 activate
network 2002:A00:101:8888::8/128
exit-address-family
!
Verification:
Using previous lab's IPv6 configuration, create new loopback interface on R1 and SW2. Use the following IPv6 addresses:
- R1 - Loopback1 = 2002:a00:101:1111::1/128
- SW2 - Loopback1 = 2002:a00:101:8888::8/128
Enable IPv6 MP-BGP peering between R1 (AS100) and SW2 (AS800). Advertise IPv6 addresses configured on Loopback1 interface of both devices into IPv6 MP-BGP. Check the connectivity.
Solution
Task 1
Using previous lab's IPv6 configuration, create new loopback interface on R1 and SW2. Use the following IPv6 addresses:
- R1 - Loopback1 = 2002:a00:101:1111::1/128
- SW2 - Loopback1 = 2002:a00:101:8888::8/128
!
interface Loopback1
no ip address
ipv6 address 2002:A00:101:1111::1/128
!
SW2 Config:
!
interface Loopback1
no ip address
ipv6 address 2002:A00:101:8888::8/128
!
Task 2
Enable IPv6 BGP peering between R1 (AS100) and SW2 (AS800). Advertise IPv6 addresses configured on Loopback1 interface of both devices into IPv6 MP-BGP. Check the connectivity.
R1 Config:
!
router bgp 100
no synchronization
bgp log-neighbor-changes
neighbor 2002:A00:101:D7::8 remote-as 800
no neighbor 2002:A00:101:D7::8 activate
no auto-summary
!
address-family ipv6
neighbor 2002:A00:101:D7::8 activate
network 2002:A00:101:1111::1/128
exit-address-family
!
NOTICE!
The configuration of IPv6 address family may be different on your router. It depends on the IOS version you use (neighbor and network statements should be configured in ipv6 address-family but may show like in my example).
SW2 Config:
!
router bgp 800
no synchronization
bgp log-neighbor-changes
neighbor 2002:A00:101:D7::1 remote-as 100
no neighbor 2002:A00:101:D7::1 activate
no auto-summary
!
address-family ipv6
neighbor 2002:A00:101:D7::1 activate
network 2002:A00:101:8888::8/128
exit-address-family
!
Verification:
Pic. 2 - IPv6 MP-BGP Neighbor.
Pic. 3 - IPv6 MP-BGP Table.
Pic. 4 - Connectivity Test.
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