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Before you configure the BGP-RTC for Legacy PE feature, you must configure the RT filter unicast address family type. For more information, see "Configuring BGP: RT Constrained Route Distribution" module in the IP Routing: BGP Configuration Guide.

The BGP—RTC for Legacy PE feature makes use of VPN unicast route exchange from the legacy provider edge (PE) devices to a new Boarder Gateway Protocol (BGP) speaker (route reflector [RR]) to signal route target (RT) membership. The legacy PEs announce a set of special routes with mapped RTs to the RR along with a standard community. The presence of the community triggers the RR to extract the RTs and build RT membership information.

In scenarios where VPN membership is normal, this functionality helps reduce the scaling requirements on the PE devices and the RRs. The PE devices need not to spend resources for filtering out unwanted routes. The BGP peers that have common outbound policies are grouped under a single format group. Separate replication groups are used within a format group to separate BGP peers with its own peer-based policies. The Route Target Constrain (RTC)-capable peers are placed in separate format groups. Each RTC peers have a separate replication group. When legacy RT is configured for a peer, then it must be treated the same way as the RTC peer except that there is no capability negotiation.

Each legacy Route Target Constrain (RTC) speaking neighbor is assigned a separate replication group. BGP checks the VPN table for any route with a reserved community value and uses it to create RTC network from the VPN prefix received from a legacy RTC peer with community values. The PE device uses the existing VPN advertisement mechanism to convey route target (RT) membership from the legacy provider edge (PE) devices. The route reflector (RR) processes advertisement mechanisms of RT membership information from legacy PE devices. RRs translate the legacy PE RT membership information to equivalent RTC Network Layer Reachability Information (NLRIs) to propagate to other RRs.

Route reflectors (RR) identify routes from legacy provider edge (PE) devices for retrieving route target (RT) membership information by the community value and filter VPN routes to legacy PE devices. RRs use the existing VPN advertisement mechanism to convey and process RT membership from the legacy PEs. The legacy PE RT membership information is translated into equivalent RT membership Network Layer Reachability Information (NLRI) from the client to propagate to other RRs. The RR then creates the route target filter list for each legacy client by collecting the entire set of route targets.

1.    enable


2.    configure terminal


3.    router bgp as-number


4.    address-family {vpnv4 | vpnv6 } unicast


5.    neighbor {ip-address | peer-group-name | ipv6-address} accept-route-legacy-rt


6.    address-family rtfilter


7.    end


8.    show ip bgp vpnv4 all update-group update-group


9.    show ip bgp vpnv4 all neighbors {ip-address | ipv6-address}


10.    show ip bgp vpnv4 all peer-group


11.    debug ip bgp all updates in

Device> enable

Device# configure terminal

Device(config)# router bgp 1

Device(config-router)# address-family vpnv4 unicast

Device(config-router-af)# neighbor 10.0.0.1 accept-route-legacy-rt

Device(config-router-af)# address-family rtfilter

Device(config-router-af)# end

Device# show ip bgp vpnv4 all update-group 2

Device# show ip bgp vpnv4 all neighbors 192.168.3.3

Device# show ip bgp vpnv4  all peer-group

Device# debug ip bgp all updates in