Configure Advertise Network and Static-Network on Tenant VRF

When you create L3 EPG or transition L2 EPG to L3 EPG, VRF gets instantiated on the switches based on the endpoints present in the EPG.

efa tenant vrf create --name <vrf-name> --tenant <tenant-name> 

                 --ipv4-network <device-ip,network> --ipv4-network-backdoor < device-ip,network,true|false> 
                 --ipv4-network-weight <device-ip,network,0-65535> --ipv4-network-route-map <device-ip,network,route-map>

                 --ipv4-static-network <device-ip,static-network> --ipv4-static-network-distance <device-ip,static-network,1-255>

                 --ipv6-network <device-ip,network> --ipv6-network-backdoor <device-ip,network,true|false> 
                 --ipv6-network-weight <device-ip,network,0-65535> --ipv6-network-route-map <device-ip,network,route-map>

When you trigger VRF update operation, VRF gets updated on the switches based on the endpoints present in the EPGs using the VRF.

efa tenant vrf update --name <vrf-name> --tenant <tenant-name> 

                 --operation network-add|network-delete|static-network-add|static-network-delete

                 --ipv4-network <device-ip,network> --ipv4-network-backdoor < device-ip,network,true|false> 
                 --ipv4-network-weight <device-ip,network,0-65535> --ipv4-network-route-map <device-ip,network,route-map>

                 --ipv4-static-network <device-ip,static-network> --ipv4-static-network-distance <device-ip,static-network,1-255>

                 --ipv6-network <device-ip,network> --ipv6-network-backdoor <device-ip,network,true|false> 
                 --ipv6-network-weight <device-ip,network,0-65535> --ipv6-network-route-map <device-ip,network,route-map>

Example efa tenant vrf create --name vrf1 --tenant tenant1 --ipv4-network 10.24.80.134,10.20.30.40/30 --ipv4-network 10.24.80.134,10.21.30.40/30 --ipv4-network-backdoor 10.24.80.134,10.21.30.40/30,true --ipv4-static-network 10.24.80.134,11.10.30.40/30 --ipv4-static-network 10.24.80.134,11.20.30.40/30 --ipv4-static-network-distance 10.24.80.134,11.20.30.40/30,169 --ipv6-network 10.24.80.135,11::22/128 --ipv6-network 10.24.80.135,11::23/128 --ipv6-network-backdoor 10.24.80.134,11::23/128,true --ipv6-network 10.24.80.135,11::24/128 --ipv6-network-weight 10.24.80.134,11::24/128,144 --ipv6-network 10.24.80.135,11::25/128 --ipv6-network-route-map 10.24.80.134,11::25/128,rmap1 efa tenant epg create --name ten1epg1 --tenant tenant1 --port 10.24.80.134[0/11],10.24.80.135[0/11] --switchport-mode trunk –ctag-range 11 --vrf vrf1 –anycast-ip 11:10.10.11.1/24 efa tenant vrf update –-name vrf1 –-tenant tenant1 --operation network-add --ipv4-network 10.24.80.134,10.22.30.40/30 --ipv4-network-weight 10.24.80.134,10.22.30.40/30,144 --ipv4-network 10.24.80.134,10.23.30.40/30 --ipv4-network-route-map 10.24.80.134,10.23.30.40/30,rmap1

Rack1-Device1# sh run router bgp address-family ipv4 unicast vrf vrf1 router bgp address-family ipv4 unicast vrf vrf1 redistribute connected static-network 11.10.30.40/30 static-network 11.20.30.40/30 distance 169 network 10.20.30.40/30 network 10.21.30.40/30 backdoor network 10.22.30.40/30 weight 144 network 10.23.30.40/30 route-map rmap1 ! address-family ipv6 unicast vrf vrf1 redistribute connected ! !

Rack1-Device2# sh run router bgp address-family ipv4 unicast vrf vrf1 router bgp address-family ipv4 unicast vrf vrf1 redistribute connected ! address-family ipv6 unicast vrf vrf1 redistribute connected network 11::22/128 network 11::23/128 backdoor network 11::24/128 weight 144 network 11::25/128 route-map rmap1 ! !