IRB provides the ability to route between a bridge group and a routed interface using a BVI. The BVI is a virtual interface within the router that acts like a normal routed interface. A BVI is associated with a single bridge domain and represents the link between the bridging and the routing domains on the router. To support receipt of packets from a bridged interface that are destined to a routed interface, the BVI must be configured with the appropriate IP addresses and relevant Layer 3 attributes.

The BVI is a virtual interface within the router that acts like a normal routed interface. The BVI does not support bridging itself, but acts as a gateway for the corresponding bridge-domain to a routed interface within the router.

BVI supports only Layer 3 attributes, and has the following characteristics:

• Uses a MAC address taken from the local chassis MAC address pool, unless overridden at the BVI interface.

• Is configured as an interface type using the interface bvi command and uses an IPv4 address that is in the same subnet as the hosts on the segments of the bridged domain. The BVI also supports secondary addresses.

• The BVI identifier is independent of the bridge-domain identifier. These identifiers do not need to correlate like they do in Cisco IOS software.

• Is associated to a bridge group using the routed interface bvi command.

• BVI interfaces support a number range of 1 to 4294967295.

• These interface commands are supported on a BVI:

  • arp purge-delay

  • arp timeout

  • bandwidth (The default is 10 Gbps and is used as the cost metric for routing protocols for the BVI)

  • ipv4

  • ipv6

  • mac-address

  • shutdown

• The BVI supports IP helper addressing and secondary IP addressing.

• BVI does not support MTU configuration using mtu command, which is for physical interfaces. However, ip mtu and ipv6 mtu commands, which are logical interface commands, are supported.

Like typical interface states on the router, a BVI has both an Interface and Line Protocol state.

• The BVI interface state is Up when the following occurs:

  • The BVI interface is created.

  • The bridge-domain that is configured with the routed interface bvi command has at least one available active bridge port (Attachment circuit [AC] or pseudowire [PW]).

    Note	A BVI will be moved to the Down state if all of the bridge ports (Ethernet flow points [EFPs]) associated with the bridge domain for that BVI are down. However, the BVI will remain up if at least one bridgeport is up, even if all EFPs are down.

• These characteristics determine when the the BVI line protocol state is up:

  • The bridge-domain is in Up state.

  • The BVI IP address is not in conflict with any other IP address on another active interface in the router.

You must be in a user group associated with a task group that includes the proper task IDs. The command reference guides include the task IDs required for each command. If you suspect user group assignment is preventing you from using a command, contact your AAA administrator for assistance.

Before configuring IRB, be sure that these tasks and conditions are met:

• Know the IP addressing and other Layer 3 information to be configured on the bridge virtual interface (BVI).

• Complete MAC address planning if you decide to override the common global MAC address for all BVIs.

• Be sure that the BVI network address is being advertised by running static or dynamic routing on the BVI interface.

Before configuring IRB, consider these restrictions:

• Only one BVI can be configured in any bridge domain.

• The same BVI can not be configured in multiple bridge domains.

• MTU configuration and fragmentation of packets is not supported on BVI interfaces.

• The following areas are not supported on the BVI:

  • Access Control Lists (ACLs). However, Layer 2 ACLs can be configured on each Layer 2 port of the bridge domain.

  • IP fast reroute (FRR)

  • TI-LFA

  • SR

  • LDP

  • NetFlow

  • MoFRR

  • Quality of Service (QoS)

  • Traffic mirroring

  • Unnumbered interface for BVI

  • Video monitoring (Vidmon)

  • IRB with 802.1ah (BVI and Provider Backbone Bridge (PBB) should not be configured in the same bridge domain).

  • PIM snooping. (Need to use selective flood.)

  • VRF-aware DHCP relay

• The following areas are not supported on the Layer2 bridging (with BVI):

  • Static mac entry configuration in Bridge.

  • Mac ageing configuration at global config mode.

  • MAC Learning Disable.

  • Vlan rewrite.

• QOS configuration on BVI interface is not supported for egress.

• Label allocation mode per-CE with BVI is not supported in an access network along with PE-CE protocols enabled.

This figure shows a simplified functional diagram of an IRB implementation to describe different packet flows between Host A, B, and C. In this example, Host C is on a network with a connection to the same router. In reality, another router could be between Host C and the router shown.

When IRB is configured on a router, the following processing happens:

• ARP requests are resolved between the hosts and BVI that are part of the bridge domain.

• All packets from a host on a bridged interface go to the BVI if the destination MAC address matches the BVI MAC address. Otherwise, the packets are bridged.

• For packets destined for a host on a routed network, the BVI forwards the packets to the routing engine before sending them out a routed interface.

• All packets either from or destined to a host on a bridged interface go to the BVI first (unless the packet is destined for a host on the bridge domain).

• For packets that are destined for a host on a segment in the bridge domain that come in to the router on a routed interface, the BVI forwards the packet to the bridging engine, which forwards it through the appropriate bridged interface.