Cisco Systems 3560

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Catalyst 3560 Switch Software Configuration Guide

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Chapter 36 Configuring IP Unicast Routing

Configuring Multi-VRF CE

• Provider routers or core routers are any routers in the service provider network that do not attach to

CE devices.

With multi-VRF CE, multiple customers can share one CE, and only one physical link is used between

the CE and the PE. The shared CE maintains separate VRF tables for each customer and switches or

routes packets for each customer based on its own routing table. Multi-VRF CE extends limited PE

functionality to a CE device, giving it the ability to maintain separate VRF tables to extend the privacy

and security of a VPN to the branch office.

Figure 36-6 shows a configuration using Catalyst 3560 switches as multiple virtual CEs. This scenario

is suited for customers who have low bandwidth requirements for their VPN service, for example, small

companies. In this case, multi-VRF CE support is required in the Catalyst 3560 switches. Because

multi-VRF CE is a Layer 3 feature, each interface in a VRF must be a Layer 3 interface.

Figure 36-6 Catalyst 3560 Switches Acting as Multiple Virtual CEs

When the CE switch receives a command to add a Layer 3 interface to a VRF, it sets up the appropriate

mapping between the VLAN ID and the policy label (PL) in multi-VRF-CE-related data structures and

adds the VLAN ID and PL to the VLAN database.

When multi-VRF CE is configured, the Layer 3 forwarding table is conceptually partitioned into two

sections:

• The multi-VRF CE routing section contains the routes from different VPNs.

• The global routing section contains routes to non-VPN networks, such as the Internet.

VLAN IDs from different VRFs are mapped into different policy labels, which are used to distinguish

the VRFs during processing. For each new VPN route learned, the Layer 3 setup function retrieves the

policy label by using the VLAN ID of the ingress port and inserts the policy label and new route to the

multi-VRF CE routing section. If the packet is received from a routed port, the port internal VLAN ID

number is used; if the packet is received from an SVI, the VLAN number is used.

This is the packet-forwarding process in a multi-VRF-CE-enabled network:

• When the switch receives a packet from a VPN, the switch looks up the routing table based on the

input policy label number. When a route is found, the switch forwards the packet to the PE.

• When the ingress PE receives a packet from the CE, it performs a VRF lookup. When a route is

found, the router adds a corresponding MPLS label to the packet and sends it to the MPLS network.

• When an egress PE receives a packet from the network, it strips the label and uses the label to

identify the correct VPN routing table. Then it performs the normal route lookup. When a route is

found, it forwards the packet to the correct adjacency.

• When a CE receives a packet from an egress PE, it uses the input policy label to look up the correct

VPN routing table. If a route is found, it forwards the packet within the VPN.

VPN 1

VPN 2

VPN 1

VPN 2

CE2PE1 PE2

Service

provider

CE1

CE = Customer-edge device

PE = Provider-edge device

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