Brocade Multi-Service IronWare Routing Configuration Guide (Supporting R05.6.00) User Manual

Multi-Service IronWare Routing Configuration Guide

369

53-1003033-02

Overview of Multi-VRF

FIGURE 23

A Network deploying Multi-VRF

Multi-VRF and BGP or MPLS VPNs share some common aspects. For instance, in both cases the
edge router maintains a VRF for all directly connected sites that are part of the same VPN. Also in
both cases, the PE and CE routers share customer route information using a variety of PE-CE
routing protocols, such as OSPF, RIP, E-BGP or static routes. Overlapping address spaces among
different VPNs are allowed for both.

There are however, several differences between the two VPN technologies. The fundamental
difference between the two technologies is that Multi-VRF requires that peering PE routers be
directly connected at Layer 3. A Layer 2 network however, can be present between these
directly-connected PE routers. BGP or MPLS VPNs do not have this restriction. In BGP or MPLS
VPNs, the MPLS network determines the path to the peer router. In order to distinguish between
devices with overlapping IP addresses, route targets are used in BGP or MPLS VPNs. Multi-VRF
uses the input interface to uniquely identify the associated VPN, which is why the two PE routers
should be directly connected at Layer 3.

Table 61

compares Multi-VRF and BGP or MPLS VPNs in

more detail

TABLE 61

Comparison between Multi-VRF and BGP or MPLS VPNs

Multi-VRF

BGP or MPLS VPN

PE-PE Routing Protocol

BGP, OSPF, RIP or Static routing

BGP

PE-CE Routing Protocol

BGP, OSPF, RIP or Static routing

BGP, OSPF, RIP or Static routing

PE-PE Routing Connectivity

PE Routers should be directly
connected at Layer 3

PE Routers are interconnected
through an IP or MPLS Network

Determination of VRF Instance

Based on input interface only

Based on route target (network
interface) or input interface (CE)

Number of Routing Protocol
Instances (PE to PE)

Unique routing protocol instance for
each VRF instance

Single routing protocol instance

Controlling Advertisement of
Routes

No need for route targets to be
used. Advertisement on one VRF is
independent of advertisement in
other VRFs.

Route targets used to identify the
customer VPN in advertised routes.
The destination PE filters the routes
advertised from a peer PE by
comparing the route target with the
VPNs maintained locally on that PE.

Number of VRF Instances

Unique VRF instance for each VPN

Unique VRF instance for each VPN