Ipv6 Mpls L3Vpn Packet Forwarding; Ipv6 Mpls L3Vpn Routing Information Advertisement - HP 10500 SERIES Configuration Manual
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Also See for 10500 SERIES:
- Security configuration manual (596 pages) ,
- Configuration manual (512 pages) ,
- Specifications (42 pages)
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IPv6 MPLS L3VPN packet forwarding
Figure 44 IPv6 MPLS L3VPN packet forwarding diagram
As shown in
The PC at Site 1 sends an IPv6 packet destined for 2001:2::1, the PC at Site 2. CE 1 transmits the
1.
packet to PE 1.
Based on the inbound interface and destination address of the packet, PE 1 searches the routing
2.
table of the VPN instance. Finding a matching entry, PE 1 labels the packet with both inner and
outer labels and forwards the packet out.
The MPLS backbone transmits the packet to PE 2 by outer label. The outer label is removed from
3.
the packet at the penultimate hop.
According to the inner label and destination address of the packet, PE 2 searches the routing table
4.
of the VPN instance to determine the outbound interface and then forwards the packet out the
interface to CE 2.
CE 2 forwards the packet to the destination by IPv6 forwarding.
5.
IPv6 MPLS L3VPN routing information advertisement
A route become available from the local CE to the remote CE after it is advertised from the local CE to
the ingress PE, from the ingress PE to the egress PE, and then from the egress PE to the remote peer CE.
Routing information exchange from the local CE to the ingress PE
After establishing an adjacency with the directly connected PE, a CE advertises its IPv6 VPN routes to the
PE.
The routes between a CE and a PE can be IPv6 static routes, RIPng routes, OSPFv3 routes, IPv6 IS-IS
routes, or EBGP routes. No matter which routing protocol is used, the CE always advertises standard IPv6
routes to the PE.
Routing information exchange from the ingress PE to the egress PE
After learning the IPv6 VPN routes from the CE, the ingress PE adds RDs and route targets for these
standard IPv6 routes to create VPN-IPv6 routes, saves them to the routing table of the VPN instance
created for the CE, and then triggers MPLS to assign VPN labels for them.
Then, the ingress PE advertises the VPN-IPv6 routes to the egress PE through MP-BGP.
Finally, the egress PE compares the export target attributes of the VPN-IPv6 routes with the import target
attributes that it maintains for the VPN instance and, if they are the same, adds the routes to the routing
table of the VPN instance.
Figure
44, the IPv6 MPLS L3VPN packet forwarding procedure is as follows:
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