EVPN Multihoming Configuration Guide

introduction introduction evpn multihoming is similar to mc lag and provides support for master/master redundancy when the bgp evpn control plane is used, a host device is connected to two or more access switches evpn esi is configured on downstream interfaces to provide all active redundancy for load balancing and failover basic concepts basic concepts esi esi esi, ethernet segment identifier, 10 bytes when the downlink port of two devices is configured with the same esi, the two ports are the peers of evpn multihoming df election algorithm df election algorithm a designated forwarder selected by the switch for each es is called the df (designated forwarder) correspondingly, devices that have not been elected as df are called non df devices only df is allowed to forward flood traffic received over vxlan overlay to the downlink port with local esi configuration non df devices are not allowed to df election algorithm the evpn vtep with the highest df preference set in the same es will become df the default value of the df preference is 32767 if the preference is the same, the es with the minimum vtep ip address is selected as df the df election is generated by the type 4 route the df election algorithm can solve the remote bum traffic replication problem split horizon algorithm split horizon algorithm split horizon only bum traffic from remote sites is allowed to be forwarded to local sites this algorithm is used to prevent bum traffic loops and replication of the same esi evpn multihoming configuration evpn multihoming configuration table 1 overview of evpn multihoming configuration tasks table 1 overview of evpn multihoming configuration tasks true 120,203 73158434256376,116 0670911328791,221 20132452455715 left #4283c7 2 1 unhandled content type left #4283c7 unhandled content type left #4283c7 unhandled content type left 1 2 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left 1 3 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left unhandled content type left unhandled content type left unhandled content type evpn multihoming default setting evpn multihoming default setting the default setting of evpn multihoming is shown in the table below table 2 evpn multihoming default setting table 2 evpn multihoming default setting true 330,331 center #4283c7 unhandled content type center #4283c7 unhandled content type center unhandled content type center unhandled content type center #d8e5f5 unhandled content type center #d8e5f5 unhandled content type center unhandled content type center unhandled content type center #d8e5f5 unhandled content type center #d8e5f5 unhandled content type center unhandled content type center unhandled content type configure cross device aggregation groups configure cross device aggregation groups configure cross device aggregation groups for downlink ports table 3 configure cross device aggregation groups table 3 configure cross device aggregation groups true 188,207 4239449568306,265 5760550431694 left #4283c7 unhandled content type left #4283c7 unhandled content type left #4283c7 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left unhandled content type left unhandled content type left unhandled content type evpn multihoming global configuration evpn multihoming global configuration table 4 evpn multihoming global configuration table 4 evpn multihoming global configuration true 157,160 42857142857142,343 57142857142856 left #4283c7 unhandled content type left #4283c7 unhandled content type left #4283c7 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type configure esi configure esi esi supports two configuration formats configure a unique 10 bytes esi directly table 5 configure esi 1 table 5 configure esi 1 true 243,263 10888131918455,154 89111868081545 left #4283c7 unhandled content type left #4283c7 unhandled content type left #4283c7 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left unhandled content type left unhandled content type left unhandled content type configure es id and es sys mac, and form a unique 10 byte esi with reserved bits table 6 configure esi 2 table 6 configure esi 2 true 265,207 5941094925202,188 4058905074798 left #4283c7 unhandled content type left #4283c7 unhandled content type left #4283c7 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type configure df preference configure df preference switch with large df preference values will be elected as df table 7 configure df preference table 7 configure df preference true 274,171 34183673469386,215 65816326530614 left #4283c7 unhandled content type left #4283c7 unhandled content type left #4283c7 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left unhandled content type left unhandled content type left unhandled content type display and maintenance display and maintenance table 8 evpn multihoming display and maintenance table 8 evpn multihoming display and maintenance true 275,252 1801593237644,133 8198406762356 left #4283c7 unhandled content type left #4283c7 unhandled content type left #4283c7 unhandled content type left unhandled content type left unhandled content type left unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left #d8e5f5 unhandled content type left unhandled content type left unhandled content type left unhandled content type typical configuration example typical configuration example configure evpn multihoming typical scenario configure evpn multihoming typical scenario networking requirements an enterprise data center has deployed a large number of servers, each dual homed to leaf switches it is required to implement a vxlan distributed gateway using the evpn multihoming solution to ensure reliable communication among vms topology configuration roadmap (1) configure the switch interface ip addresses and the loopback0 ip address (2) configure the underlay bgp (3) configure the overlay bgp (4) configure downstream cross device link aggregation group (5) configure evpn and vxlan vni mapping (6) configure evpn multihoming (7) configure monitor link group (8) (optional) configure layer 3 interconnection with the access side device using the bgp protocol configuration procedure spine1 configure the switch interface ip addresses and the loopback0 ip address interface ethernet 0/0 description to leaf1 ip address 10 93 0 1/30 ! interface ethernet 0/4 description to leaf2 ip address 10 93 0 5/30 ! interface ethernet 0/8 description to leaf3 ip address 10 93 0 9/30 ! interface ethernet 0/12 description to leaf4 ip address 10 93 0 13/30 ! interface loopback 0 ip address 172 16 1 165/32 ! configure the underlay bgp route map advertise loopback permit 10 match ip address prefix list loopback exit ! ip prefix list loopback seq 10 permit 172 16 1 0/24 ge 24 ip prefix list loopback seq 20 permit 172 16 2 0/24 ge 24 ! router bgp 65165 bgp router id 172 16 1 165 no bgp ebgp requires policy bgp bestpath as path multipath relax bgp max med on startup 120 bgp graceful restart neighbor peer to leaf peer group neighbor peer to leaf remote as external neighbor peer to leaf bfd neighbor 10 93 0 2 peer group peer to leaf neighbor 10 93 0 6 peer group peer to leaf neighbor 10 93 0 10 peer group peer to leaf neighbor 10 93 0 14 peer group peer to leaf ! address family ipv4 unicast redistribute connected route map advertise loopback exit address family exit ! configure the overlay bgp router bgp 65165 neighbor peer to leaf evpn peer group neighbor peer to leaf evpn remote as external neighbor peer to leaf evpn ebgp multihop 5 neighbor peer to leaf evpn update source 172 16 1 165 neighbor 172 16 1 179 peer group peer to leaf evpn neighbor 172 16 1 166 peer group peer to leaf evpn neighbor 172 16 1 170 peer group peer to leaf evpn neighbor 172 16 1 162 peer group peer to leaf evpn ! address family ipv4 unicast no neighbor peer to leaf evpn activate exit address family ! address family l2vpn evpn neighbor peer to leaf evpn activate advertise all vni exit address family exit ! spine2 configure the switch interface ip addresses and the loopback0 ip address interface ethernet 0/0 description to leaf1 ip address 10 93 1 1/30 ! interface ethernet 0/4 description to leaf2 ip address 10 93 1 5/30 ! interface ethernet 0/8 description to leaf3 ip address 10 93 1 9/30 ! interface ethernet 0/12 description to leaf4 ip address 10 93 1 13/30 ! interface loopback 0 ip address 172 16 1 167/32 ! configure the underlay bgp route map advertise loopback permit 10 match ip address prefix list loopback exit ! ip prefix list loopback seq 10 permit 172 16 1 0/24 ge 24 ip prefix list loopback seq 20 permit 172 16 2 0/24 ge 24 ! router bgp 65165 bgp router id 172 16 1 167 no bgp ebgp requires policy bgp bestpath as path multipath relax bgp max med on startup 120 bgp graceful restart neighbor peer to leaf peer group neighbor peer to leaf remote as external neighbor peer to leaf bfd neighbor 10 93 1 2 peer group peer to leaf neighbor 10 93 1 6 peer group peer to leaf neighbor 10 93 1 10 peer group peer to leaf neighbor 10 93 1 14 peer group peer to leaf ! address family ipv4 unicast redistribute connected route map advertise loopback exit address family exit ! configure the overlay bgp router bgp 65165 neighbor peer to leaf evpn peer group neighbor peer to leaf evpn remote as external neighbor peer to leaf evpn ebgp multihop 5 neighbor peer to leaf evpn update source 172 16 1 167 neighbor 172 16 1 179 peer group peer to leaf evpn neighbor 172 16 1 166 peer group peer to leaf evpn neighbor 172 16 1 170 peer group peer to leaf evpn neighbor 172 16 1 162 peer group peer to leaf evpn ! address family ipv4 unicast no neighbor peer to leaf evpn activate exit address family ! address family l2vpn evpn neighbor peer to leaf evpn activate advertise all vni exit address family exit ! leaf1 configure the switch interface ip addresses and the loopback ip address interface ethernet 0/48 description to spine1 ip address 10 93 0 2/30 ! interface ethernet 0/52 description to spine2 ip address 10 93 1 2/30 ! interface loopback 0 ip address 172 16 1 179/32 ! interface loopback 1 ip address 172 16 2 179/32 ! configure the underlay bgp route map advertise loopback permit 10 match ip address prefix list loopback exit ! ip prefix list loopback seq 10 permit 172 16 1 0/24 ge 24 ip prefix list loopback seq 20 permit 172 16 2 0/24 ge 24 ! router bgp 65100 bgp router id 172 16 1 179 no bgp ebgp requires policy bgp bestpath as path multipath relax bgp max med on startup 120 bgp graceful restart neighbor peer to spine peer group neighbor peer to spine remote as external neighbor peer to spine bfd neighbor 10 93 0 1 peer group peer to spine neighbor 10 93 1 1 peer group peer to spine ! address family ipv4 unicast redistribute connected route map advertise loopback neighbor peer to spine route map advertise loopback out exit address family ! configure the overlay bgp router bgp 65100 neighbor peer to spine evpn peer group neighbor peer to spine evpn remote as external neighbor peer to spine evpn ebgp multihop 5 neighbor peer to spine evpn update source 172 16 1 179 neighbor 172 16 1 165 peer group peer to spine evpn neighbor 172 16 1 167 peer group peer to spine evpn ! address family ipv4 unicast no neighbor peer to spine evpn activate exit address family ! address family l2vpn evpn neighbor peer to spine evpn activate advertise all vni exit address family exit ! configure gateway and vrf instance, disable arp flooding, and enable arp proxy vlan 10 ! arp broadcast disable vrf 10123 ! interface vlan 10 mac address 00 00 00 10 00 00 vrf 10123 ip address 10 10 0 1/24 arp proxy mode evpn arp proxy extend reply arp proxy extend request ! configure downstream cross device link aggregation group and configure storm suppression interface link aggregation 100 lacp fast rate lacp system id 60\ eb 5a 00 00 01 commit lacp fallback commit switchport trunk vlan 10 ! interface ethernet 0/0 link aggregation group 100 storm suppress broadcast packets 1000 storm suppress multicast packets 1000 storm suppress unknown unicast packets 1000 ! configure evpn and vxlan vni mapping interface vxlan 0 source 172 16 2 179 exit ! vlan 10 vni 100 ! vrf 10123 vni 10000 exit vrf ! configure evpn multihoming evpn mh mac holdtime 180 evpn mh neigh holdtime 300 evpn mh redirect off ! interface link aggregation 100 evpn mh es id 100 evpn mh es sys mac 60\ eb 5a 00 00 01 ! configure monitor link group monitor link group evpn mh group 90 ! interface ethernet 0/48 monitor link evpn mh group uplink ! interface ethernet 0/52 monitor link evpn mh group uplink ! interface ethernet 0/0 monitor link evpn mh group downlink ! configure layer 3 interconnection with the access side device using the bgp protocol vlan 30 ! evpn unique ip vlan 30 ! evpn mh disable advertise svi mac ! interface link aggregation 101 lacp fast rate lacp system id 60\ eb 5a 00 00 02 commit switchport trunk vlan 30 evpn mh es id 101 evpn mh es sys mac 60\ eb 5a 00 00 02 exit ! interface ethernet 0/4 link aggregation group 101 exit ! interface vlan 30 mac address 00 00 00 30 00 00 vrf 10123 ip address 10 30 0 1/24 arp proxy mode evpn ! arp static 10 30 0 2 00 00 00 30 00 01 interface vlan 30 ! mac address static 00 00 00 30 00 01 vlan 30 vxlan vni 300 peer 172 16 2 166 ! router bgp 65100 vrf 10123 no bgp ebgp requires policy bgp max med on startup 120 neighbor peer to tor peer group neighbor peer to tor remote as external neighbor peer to tor bfd neighbor 10 30 0 3 peer group peer to tor ! address family l2vpn evpn advertise ipv4 unicast exit address family exit leaf2 configure the switch interface ip addresses and the loopback ip address interface ethernet 0/48 description to spine1 ip address 10 93 0 6/30 ! interface ethernet 0/52 description to spine2 ip address 10 93 1 6/30 ! interface loopback 0 ip address 172 16 1 166/32 ! interface loopback 1 ip address 172 16 2 166/32 ! configure the underlay bgp route map advertise loopback permit 10 match ip address prefix list loopback exit ! ip prefix list loopback seq 10 permit 172 16 1 0/24 ge 24 ip prefix list loopback seq 20 permit 172 16 2 0/24 ge 24 ! router bgp 65101 bgp router id 172 16 1 166 no bgp ebgp requires policy bgp bestpath as path multipath relax bgp max med on startup 120 bgp graceful restart neighbor peer to spine peer group neighbor peer to spine remote as external neighbor peer to spine bfd neighbor 10 93 0 5 peer group peer to spine neighbor 10 93 1 5 peer group peer to spine ! address family ipv4 unicast redistribute connected route map advertise loopback neighbor peer to spine route map advertise loopback out exit address family ! configure the overlay bgp router bgp 65101 neighbor peer to spine evpn peer group neighbor peer to spine evpn remote as external neighbor peer to spine evpn ebgp multihop 5 neighbor peer to spine evpn update source 172 16 1 166 neighbor 172 16 1 165 peer group peer to spine evpn neighbor 172 16 1 167 peer group peer to spine evpn ! address family ipv4 unicast no neighbor peer to spine evpn activate exit address family ! address family l2vpn evpn neighbor peer to spine evpn activate advertise all vni exit address family exit ! configure gateway and vrf instance, disable arp flooding, and enable arp proxy vlan 10 ! arp broadcast disable vrf 10123 ! interface vlan 10 mac address 00 00 00 10 00 00 vrf 10123 ip address 10 10 0 1/24 arp proxy mode evpn arp proxy extend reply arp proxy extend request ! configure downstream cross device link aggregation group and configure storm suppression interface link aggregation 100 lacp fast rate lacp system id 60\ eb 5a 00 00 01 commit switchport trunk vlan 10 ! interface ethernet 0/0 link aggregation group 100 storm suppress broadcast packets 1000 storm suppress multicast packets 1000 storm suppress unknown unicast packets 1000 ! configure evpn and vxlan vni mapping interface vxlan 0 source 172 16 2 166 exit ! vlan 10 vni 100 ! vrf 10123 vni 10000 exit vrf ! configure evpn multihoming evpn mh mac holdtime 180 evpn mh neigh holdtime 300 evpn mh redirect off ! interface link aggregation 100 evpn mh es id 100 evpn mh es sys mac 60\ eb 5a 00 00 01 ! configure monitor link group monitor link group evpn mh group 90 ! interface ethernet 0/48 monitor link evpn mh group uplink ! interface ethernet 0/52 monitor link evpn mh group uplink ! interface ethernet 0/0 monitor link evpn mh group downlink ! configure layer 3 interconnection with the access side device using the bgp protocol vlan 30 ! evpn unique ip vlan 30 ! evpn mh disable advertise svi mac ! interface link aggregation 101 lacp fast rate lacp system id 60\ eb 5a 00 00 02 commit switchport trunk vlan 30 evpn mh es id 101 evpn mh es sys mac 60\ eb 5a 00 00 02 exit ! interface ethernet 0/4 link aggregation group 101 exit ! interface vlan 30 mac address 00 00 00 30 00 01 vrf 10123 ip address 10 30 0 2/24 arp proxy mode evpn ! arp static 10 30 0 1 00 00 00 30 00 00 interface vlan 30 ! mac address static 00 00 00 30 00 00 vlan 30 vxlan vni 300 peer 172 16 2 179 ! router bgp 101 vrf 10123 no bgp ebgp requires policy bgp max med on startup 120 neighbor peer to tor peer group neighbor peer to tor remote as external neighbor peer to tor bfd neighbor 10 30 0 3 peer group peer to tor ! address family l2vpn evpn advertise ipv4 unicast exit address family exit leaf3 configure the switch interface ip addresses and the loopback ip address interface ethernet 0/48 description to spine1 ip address 10 93 0 10/30 ! interface ethernet 0/52 description to spine2 ip address 10 93 1 10/30 ! interface loopback 0 ip address 172 16 1 170/32 ! interface loopback 1 ip address 172 16 2 170/32 ! configure the underlay bgp route map advertise loopback permit 10 match ip address prefix list loopback exit ! ip prefix list loopback seq 10 permit 172 16 1 0/24 ge 24 ip prefix list loopback seq 20 permit 172 16 2 0/24 ge 24 ! router bgp 65102 bgp router id 172 16 1 170 no bgp ebgp requires policy bgp bestpath as path multipath relax bgp max med on startup 120 bgp graceful restart neighbor peer to spine peer group neighbor peer to spine remote as external neighbor peer to spine bfd neighbor 10 93 0 9 peer group peer to spine neighbor 10 93 1 9 peer group peer to spine ! address family ipv4 unicast redistribute connected route map advertise loopback neighbor peer to spine route map advertise loopback out exit address family ! configure the overlay bgp router bgp 65102 neighbor peer to spine evpn peer group neighbor peer to spine evpn remote as external neighbor peer to spine evpn ebgp multihop 5 neighbor peer to spine evpn update source 172 16 1 170 neighbor 172 16 1 165 peer group peer to spine evpn neighbor 172 16 1 167 peer group peer to spine evpn ! address family ipv4 unicast no neighbor peer to spine evpn activate exit address family ! address family l2vpn evpn neighbor peer to spine evpn activate advertise all vni exit address family exit ! configure gateway and vrf instance, disable arp flooding, and enable arp proxy vlan 10 ! arp broadcast disable vrf 10123 ! interface vlan 10 mac address 00 00 00 10 00 00 vrf 10123 ip address 10 10 0 1/24 arp proxy mode evpn arp proxy extend reply arp proxy extend request ! configure downstream cross device link aggregation group and configure storm suppression interface link aggregation 102 lacp fast rate lacp system id 60\ eb 5a 00 00 03 commit lacp fallback commit switchport trunk vlan 10 ! interface ethernet 0/0 link aggregation group 102 storm suppress broadcast packets 1000 storm suppress multicast packets 1000 storm suppress unknown unicast packets 1000 ! configure evpn and vxlan vni mapping interface vxlan 0 source 172 16 2 170 exit ! vlan 10 vni 100 ! vrf 10123 vni 10000 exit vrf ! configure evpn multihoming evpn mh mac holdtime 180 evpn mh neigh holdtime 300 evpn mh redirect off ! interface link aggregation 102 evpn mh es id 102 evpn mh es sys mac 60\ eb 5a 00 00 03 ! configure monitor link group monitor link group evpn mh group 90 ! interface ethernet 0/48 monitor link evpn mh group uplink ! interface ethernet 0/52 monitor link evpn mh group uplink ! interface ethernet 0/0 monitor link evpn mh group downlink ! interface link aggregation 103 lacp fast rate lacp system id 60\ eb 5a 00 00 04 commit switchport trunk vlan 10 evpn mh es id 103 evpn mh es sys mac 60\ eb 5a 00 00 04 exit ! interface ethernet 0/4 link aggregation group 103 exit leaf4 configure the switch interface ip addresses and the loopback ip address interface ethernet 0/48 description to spine1 ip address 10 93 0 14/30 ! interface ethernet 0/52 description to spine2 ip address 10 93 1 14/30 ! interface loopback 0 ip address 172 16 1 162/32 ! interface loopback 1 ip address 172 16 2 162/32 ! configure the underlay bgp route map advertise loopback permit 10 match ip address prefix list loopback exit ! ip prefix list loopback seq 10 permit 172 16 1 0/24 ge 24 ip prefix list loopback seq 20 permit 172 16 2 0/24 ge 24 ! router bgp 65103 bgp router id 172 16 1 162 no bgp ebgp requires policy bgp bestpath as path multipath relax bgp max med on startup 120 bgp graceful restart neighbor peer to spine peer group neighbor peer to spine remote as external neighbor peer to spine bfd neighbor 10 93 0 13 peer group peer to spine neighbor 10 93 1 13 peer group peer to spine ! address family ipv4 unicast redistribute connected route map advertise loopback neighbor peer to spine route map advertise loopback out exit address family ! configure the overlay bgp router bgp 65103 neighbor peer to spine evpn peer group neighbor peer to spine evpn remote as external neighbor peer to spine evpn ebgp multihop 5 neighbor peer to spine evpn update source 172 16 1 162 neighbor 172 16 1 165 peer group peer to spine evpn neighbor 172 16 1 167 peer group peer to spine evpn ! address family ipv4 unicast no neighbor peer to spine evpn activate exit address family ! address family l2vpn evpn neighbor peer to spine evpn activate advertise all vni exit address family exit ! configure gateway and vrf instance, disable arp flooding, and enable arp proxy vlan 10 ! arp broadcast disable vrf 10123 ! interface vlan 10 mac address 00 00 00 10 00 00 vrf 10123 ip address 10 10 0 1/24 arp proxy mode evpn arp proxy extend reply arp proxy extend request ! configure downstream cross device link aggregation group and configure storm suppression interface link aggregation 102 lacp fast rate lacp system id 60\ eb 5a 00 00 03 commit switchport trunk vlan 10 ! interface ethernet 0/0 link aggregation group 102 storm suppress broadcast packets 1000 storm suppress multicast packets 1000 storm suppress unknown unicast packets 1000 ! configure evpn and vxlan vni mapping interface vxlan 0 source 172 16 2 162 exit ! vlan 10 vni 100 ! vrf 10123 vni 10000 exit vrf ! configure evpn multihoming evpn mh mac holdtime 180 evpn mh neigh holdtime 300 evpn mh redirect off ! interface link aggregation 102 evpn mh es id 102 evpn mh es sys mac 60\ eb 5a 00 00 03 ! configure monitor link group monitor link group evpn mh group 90 ! interface ethernet 0/48 monitor link evpn mh group uplink ! interface ethernet 0/52 monitor link evpn mh group uplink ! interface ethernet 0/0 monitor link evpn mh group downlink ! interface link aggregation 103 lacp fast rate lacp system id 60\ eb 5a 00 00 04 commit switchport trunk vlan 10 evpn mh es id 103 evpn mh es sys mac 60\ eb 5a 00 00 04 exit ! interface ethernet 0/4 link aggregation group 103 exit verify the configuration (1) check the underlay bgp neighbors (leaf1) evpn mh leaf1# show ip bgp summary ipv4 unicast summary (vrf default) bgp router identifier 172 16 1 179, local as number 65100 vrf id 0 bgp table version 61822 rib entries 291, using 52 kib of memory peers 2, using 1447 kib of memory peer groups 2, using 128 bytes of memory neighbor v as msgrcvd msgsent tblver inq outq up/down state/pfxrcd pfxsnt desc 10 93 0 1 4 65165 3053 3302 0 0 0 17 57 16 142 146 n/a 10 93 1 1 4 65165 3405 3343 0 0 0 17 57 16 143 146 n/a total number of neighbors 2 (2) check the overlay bgp neighbors (leaf1) evpn mh leaf1# show bgp l2vpn evpn summary bgp router identifier 172 16 1 179, local as number 65100 vrf id 0 bgp table version 0 rib entries 65, using 12 kib of memory peers 2, using 1447 kib of memory peer groups 2, using 128 bytes of memory neighbor v as msgrcvd msgsent tblver inq outq up/down state/pfxrcd pfxsnt desc 172 16 1 165 4 65165 39398 47671 0 0 0 18 00 42 913 3916 n/a 172 16 1 167 4 65165 39316 48288 0 0 0 20 24 05 918 3916 n/a total number of neighbors 2 (3) check the link aggregation group (leaf1) evpnmh leaf 1# show link aggregation summary flags a active, i inactive, up up, dw down, n/a not available, s selected, d deselected, \\ not synced no team dev protocol ports description \ 0100 lag 100 lacp(a)(up) 0/0 (s) n/a 0101 lag 101 lacp(a)(up) 0/4 (s) n/a (4) check the vxlan tunnels evpnmh leaf 1# show vxlan tunnel + + + + + \| remotevtep | vni | vlan | vrf | +==============+=======+========+=======+ \| 172 16 2 166 | 100 | 10 | | + + + + + \| 172 16 2 166 | 10000 | | 10123 | + + + + + \| 172 16 2 162 | 100 | 10 | | + + + + + \| 172 16 2 162 | 10000 | | 10123 | + + + + + \| 172 16 2 170 | 100 | 10 | | + + + + + \| 172 16 2 170 | 10000 | | 10123 | + + + + + (5) check evpn es evpnmh leaf 1# show evpn es type b bypass, l local, r remote, n non df esi type es if vteps 03 60\ eb 5a 00 00 01 00 00 64 lrn link aggregation 100 172 16 2 166 03 60\ eb 5a 00 00 02 00 00 65 lrn link aggregation 101 172 16 2 166 03 60\ eb 5a 00 00 03 00 00\ c8 r 172 16 2 162,172 16 2 170 03 60\ eb 5a 00 00 04 00 00\ c9 r 172 16 2 162,172 16 2 170 (6) check the bgp neighbor status established with the access side device evpnmh leaf 1# show ip bgp vrf 10123 summary ipv4 unicast summary (vrf vrf 10123) bgp router identifier 10 200 0 1, local as number 65100 vrf id 211 bgp table version 671 rib entries 51, using 9384 bytes of memory peers 1, using 723 kib of memory peer groups 1, using 64 bytes of memory neighbor v as msgrcvd msgsent tblver inq outq up/down state/pfxrcd pfxsnt desc 10 30 0 3 4 65236 1872 1770 0 0 0 01 10 59 25 27 n/a total number of neighbors 1 (7) vms under each leaf can ping each other successfully