VPLS Multihoming using BGP-MP expands on the BGP AD and BGP VPLS provisioning model. The addressing for the multihomed site is still independent from the addressing for the base VSI (VSI-ID or, respectively, VE-ID). Every multihomed CE is represented in the VPLS context through a site-ID, which is the same on the local PEs. The site-ID is unique within the scope of a VPLS. It serves to differentiate between the multihomed CEs connected to the same VPLS Instance (VSI). For example, in Figure 1, CE5 is assigned the same site-ID on both PE1 and PE4. For the same VPLS instance, different site-IDs are assigned for multihomed CE5 and CE6; for example, site-ID 5 is assigned for CE5 and site-ID 6 is assigned for CE6. The single-homed CEs (CE1, 2, 3, and 4) do not require allocation of a multihomed site-ID. They are associated with the addressing for the base VSI, either VSI-ID or VE-ID.
The new information model required changes to the BGP usage of the NLRI for VPLS. The extended MH NLRI for Multi-Homed VPLS is compared with the BGP AD and BGP VPLS NLRIs in Figure 1.
The BGP VPLS NLRI described in RFC 4761 is used to carry a 2-byte site-ID that identifies the MH site. The last seven bytes of the BGP VPLS NLRI used to instantiate the pseudowire are not used for BGP-MH and are zeroed out. This NLRI format translates into the following processing path in the receiving VPLS PE:
BGP VPLS PE: no label information means there is no need to set up a BGP pseudowire.
BGP AD for LDP VPLS: length =17 indicates a BGP VPLS NLRI that does not require any pseudowire LDP signaling.
The processing procedures described in this section start from the above identification of the BGP update as not destined for pseudowire signaling.
The RD ensures that the NLRIs associated with a specific site-ID on different PEs are seen as different by any of the intermediate BGP nodes (RRs) on the path between the multihomed PEs. That is, different RDs must be used on the MH PEs every time an RR or an ASBR is involved to guarantee the MH NLRIs reach the PEs involved in VPLS MH.
The L2-Info extended community from RFC 4761 is used in the BGP update for MH NLRI to initiate a MAC flush for blackhole avoidance, to indicate the operational and admin status for the MH site or the DF election status.
After the pseudowire infrastructure between VSIs is built using either RFC 4762, Virtual Private LAN Service (VPLS) Using Label Distribution Protocol (LDP) Signaling, or RFC 4761 procedures, or a mix of pseudowire signaling procedures, on activation of a multihomed site, an election algorithm must be run on the local and remote PEs to determine which site is the designated forwarder (DF). The end result is that all the related MH sites in a VPLS are placed in standby except for the site selected as DF. Nokia BGP-based multihoming solution uses the DF election procedure described in the IETF working group document draft-ietf-bess-vpls-multihoming-01. The implementation allows the use of BGP local preference and the received VPLS preference but does not support setting the VPLS preference to a non-zero value.