Inter-AS IP-VPN services have been driven by the popularity of IP services and service provider expansion beyond the borders of a single Autonomous System (AS) or the requirement for IP VPN services to cross the AS boundaries of multiple providers. Three options for supporting inter-AS IP-VPNs are described in RFC 4364, BGP/MPLS IP Virtual Private Networks (VPNs).
The first option, referred to as Option-A (shown in the following figure), is considered inherent in any implementation. This method uses a back-to-back connection between separate VPRN instances in each AS. As a result, each VPRN instance views the inter-AS connection as an external interface to a remote VPRN customer site. The back-to-back VRF connections between the ASBR nodes require individual sub-interfaces, one per VRF.
The second option, referred to as Option-B (Figure: Inter-AS Option-B), relies heavily on the AS Boundary Routers (ASBRs) as the interface between the autonomous systems. This approach enhances the scalability of the eBGP VRF-to-VRF solution by eliminating the need for per-VPRN configuration on the ASBRs. However it requires that the ASBRs provide a control plan and forwarding plane connection between the autonomous systems. The ASBRs are connected to the PE nodes in its local autonomous system using iBGP either directly or through route reflectors.
This means the ASBRs receive all the VPRN information and forwards these VPRN updates, VPN-IPV4, to all its EBGP peers, ASBRs, using itself as the next-hop. It also changes the label associated with the route. This means the ASBRs must maintain an associate mapping of labels received and labels issued for those routes. The peer ASBRs, in turn, forward those updates to all local IBGP peers.
This form of inter-AS VPRNs does not require instances of the VPRN to be created on the ASBR, as in option-A, as a result there is less management overhead. This is also the most common form of Inter-AS VPRNs used between different service providers as all routes advertised between autonomous systems can be controlled by route policies on the ASBRs.
The third option, referred to as Option-C (shown in the following figure), allows for a higher scale of VPRNs across AS boundaries but also expands the trust model between ASNs. As a result this model is typically used within a single company that may have multiple ASNs for various reasons.
This model differs from Option-B, in that in Option-B all direct knowledge of the remote AS is contained and limited to the ASBR. As a result, in option-B the ASBR performs all necessary mapping functions and the PE routers do not need perform any additional functions then in a non-Inter-AS VPRN.
With Option-C, knowledge from the remote AS is distributed throughout the local AS. This distribution allows for higher scalability but also requires all PEs and ASBRs involved in the Inter-AS VPRNs to participate in the exchange of inter-AS routing information.
In Option-C, the ASBRs distribute reachability information for remote PE system IP addresses only. This is done between the ASBRs by exchanging MP-eBGP labeled routes, using RFC 3107, Carrying Label Information in BGP-4.
Distribution of VPRN routing information is handled by either direct MP-BGP peering between PEs in the different ASNs or more likely by one or more route reflectors in ASN.