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The Multi-VRF Support feature allows you to configure and maintain more than one instance of a routing and forwarding table
within the same customer edge (CE) device.
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see Bug Search Tool and the release notes for your platform and software release. To find information about the features documented in this module,
and to see a list of the releases in which each feature is supported, see the feature information table.
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Prerequisites for Multi-VRF Support
The network’s core and provider edge (PE) devices must be configured for Virtual Private Network (VPN) operation.
Restrictions for Multi-VRF Support
You can configure the Multi-VRF Support feature only on Layer 3 interfaces.
The Multi-VRF Support feature is not supported by Interior Gateway Routing Protocol (IGRP) nor Intermediate System to Intermediate
System (IS-IS).
Label distribution for a given VPN routing and forwarding (VRF) instance on a given device can be handled by either Border
Gateway Protocol (BGP) or Label Distribution Protocol (LDP), but not by both protocols at the same time.
Multicast cannot operate on a Layer 3 interface that is configured with the Multi-VRF Support feature.
Information About Multi-VRF Support
How the Multi-VRF Support Feature Works
The Multi-VRF Support feature enables a service provider to support two or more Virtual Private Networks (VPNs), where the
IP addresses can overlap several VPNs. The Multi-VRF Support feature uses input interfaces to distinguish routes for different
VPNs and forms virtual packet-forwarding tables by associating one or more Layer 3 interfaces with each virtual routing and
forwarding (VRF) instance. Interfaces in a VRF can be either physical, such as FastEthernet ports, or logical, such as VLAN
, but a Layer 3 interface cannot belong to more than one VRF at any one time. The Multi-VRF Support feature allows an operator
to support two or more routing domains on a customer edge (CE) device, with each routing domain having its own set of interfaces
and its own set of routing and forwarding tables. The Multi-VRF Support feature makes it possible to extend the label switched
paths (LSPs) to the CE and into each routing domain that the CE supports.
The Multi-VRF Support feature works as follows:
Each CE device advertises its site’s local routes to a provider edge (PE) device and learns the remote VPN routes from that
provider edge (PE) device.
PE devices exchange routing information with CE devices by using static routing or a routing protocol such as the Border
Gateway Protocol (BGP), Routing Information Protocol version 1 (RIPv1), or RIPv2.
PE devices exchange MPLS label information with CE devices through Label Distribution Protocol (LDP) or BGP.
The PE device needs to maintain VPN routes only for those VPNs to which it is directly attached, eliminating the requirement
that the PE maintain all of the service provider’s VPN routes. Each PE device maintains a VRF for each of its directly connected
sites. Two or more interfaces on a PE device can be associated with a single VRF if all the sites participate in the same
VPN. Each VPN is mapped to a specified VRF. After learning local VPN routes from CE devices, the PE device exchanges VPN routing
information with other PE devices through internal BGP (iBGP).
With the Multi-VRF Support feature, two or more customers can share one CE device, and only one physical link is used between
the CE and the PE devices. The shared CE device maintains separate VRF tables for each customer and routes packets for each
customer based on that customer’s own routing table. The Multi-VRF Support feature extends limited PE device functionality
to a CE device, giving it the ability, through the maintenance of separate VRF tables, to extend the privacy and security
of a VPN to the branch office.
The figure below shows a configuration where each CE device acts as if it were two CE devices. Because the Multi-VRF Support
feature is a Layer 3 feature, each interface associated with a VRF must be a Layer 3 interface.
How Packets Are Forwarded in a Network Using the Multi-VRF Support Feature
Following is the packet-forwarding process in an Multi-VRF customer edge (CE)-enabled network, as illustrated in the figure
above:
When the CE receives a packet from a Virtual Private Network (VPN), it looks up the routing table based on the input interface.
When a route is found, the CE imposes the Multiprotocol Label Switching (MPLS) label that it received from the provider edge
(PE) for that route and forwards the packet to the PE.
When the ingress PE receives a packet from the CE, it swaps the incoming label with the corresponding label stack and sends
the packet to the MPLS network.
When an egress PE receives a packet from the network, it swaps the VPN label with the label that it had earlier received
for the route from the CE, and it forwards the packet to the CE.
When a CE receives a packet from an egress PE, it uses the incoming label on the packet to forward the packet to the correct
VPN.
To configure Multi-VRF, you create a VRF table and then specify the Layer 3 interface associated with that VRF. Next, you
configure the routing protocols within the VPN, and between the CE and the PE. The Border Gateway Protocol (BGP) is the preferred
routing protocol for distributing VPN routing information across the provider’s backbone.
The Multi-VRF network has three major components:
VPN route target communities: These are lists of all other members of a VPN community. You must configure VPN route targets
for each VPN community member.
Multiprotocol BGP peering of VPN community PE devices: This propagates VRF reachability information to all members of a VPN
community. You must configure BGP peering in all PE devices within a VPN community.
VPN forwarding: This transports all traffic between VPN community members across a VPN service-provider network.
Considerations When Configuring the Multi-VRF Support Feature
A device with the Multi-VRF Support feature is shared by several customers, and each customer has its own routing table.
Because each customer uses a different virtual routing and forwarding (VRF) table, the same IP addresses can be reused. Overlapping
IP addresses are allowed in different Virtual Private Networks (VPNs).
The Multi-VRF Support feature lets several customers share the same physical link between the provider edge (PE) and the
customer edge (CE) devices. Trunk ports with several VLANs separate packets among the customers. Each customer has its own
VLAN.
For the PE device, there is no difference between using the Multi-VRF Support feature or using several CE devices.
The Multi-VRF Support feature does not affect the packet-switching rate.
How to Configure Multi-VRF Support
Configuring VRFs
To configure
virtual routing and forwarding (VRF) instances, complete the following
procedure. Be sure to configure VRFs on both the provider edge (PE) and
customer edge (CE) devices.
If a VRF has not
been configured, the device has the following default configuration:
No VRFs have
been defined.
No import maps,
export maps, or route maps have been defined.
No VRF maximum
routes exist.
Only the global
routing table exists on the interface.
The following are
the supported flavors of multicast over VRF on Cisco ASR 920 RSP2 module:
Multicast with
multi-VRF (MPLS VPN/MLDP)
Multicast
with GRE tunnel (MVPN GRE)
Multicast with
VRF-lite
Note
Multi-VRF/MVPN
GRE configured layer-3 interface cannot participate in more than one VRF at the
same time.
SUMMARY STEPS
enable
configure
terminal
ip
routing
ip vrf vrf-name
rd route-distinguisher
route-target {export |
import
|
both }
route-target-ext-community
import
map route-map
exit
interface typeslot/ subslot/ port[. subinterface]
ip vrf
forwarding vrf-name
end
show ip
vrf
DETAILED STEPS
Command or Action
Purpose
Step 1
enable
Example:
Device> enable
Enables
privileged EXEC mode.
Enter your
password if prompted.
Step 2
configure
terminal
Example:
Device# configure terminal
Enters global
configuration mode.
Step 3
ip
routing
Example:
Device(config)# ip routing
Enables IP
routing.
Step 4
ip vrf vrf-name
Example:
Device(config)# ip vrf v1
Names the VRF,
and enters VRF configuration mode.
Step 5
rd route-distinguisher
Example:
Device(config-vrf)# rd 100:1
Creates a VRF
table by specifying a route distinguisher.
Enter either an
autonomous system number and an arbitrary number (xxx:y), or an IP address and
an arbitrary number (A.B.C.D:y).
Step 6
route-target {export |
import
|
both }
route-target-ext-community
Example:
Device(config-vrf)# route-target export 100:1
Creates a list
of import, export, or import and export route target communities for the
specified VRF.
Enter either an
autonomous system number and an arbitrary number (xxx:y), or an IP address and
an arbitrary number (A.B.C.D:y).
Note
This command
works only if BGP is running.
Step 7
import
map route-map
Example:
Device(config-vrf)# import map importmap1
(Optional)
Associates a route map with the VRF.
Step 8
exit
Example:
Device(config-vrf)# exit
Returns to
global configuration mode.
Step 9
interface typeslot/ subslot/ port[. subinterface]
Example:
Device(config)# interface
Specifies the
Layer 3 interface to be associated with the VRF and enters interface
configuration mode.
The interface can be a routed port or an .
Step 10
ip vrf
forwarding vrf-name
Example:
Device(config-if)# ip vrf forwarding v1
Associates
the VRF with the Layer 3 interface.
Step 11
end
Example:
Device(config-if)# end
Returns to
privileged EXEC mode.
Step 12
show ip
vrf
Example:
Device# show ip vrf
Displays the
settings of the VRFs.
Configuring BGP as the Routing Protocol
Most routing protocols can be used between the customer edge (CE) and the provider edge (PE) devices. However, external BGP
(eBGP) is recommended, because:
BGP does not require more than one algorithm to communicate with many CE devices.
BGP is designed to pass routing information between systems run by different administrations.
BGP makes it easy to pass route attributes to the CE device.
When BGP is used as the routing protocol, it can also be used to handle the Multiprotocol Label Switching (MPLS) label exchange
between the PE and CE devices. By contrast, if Open Shortest Path First (OSPF), Enhanced Interior Gateway Routing Protocol
(EIGRP), Routing Information Protocol (RIP), or static routing is used, the Label Distribution Protocol (LDP) must be used
to signal labels.
To configure a BGP PE-to-CE routing session, perform the following steps on the CE and on the PE devices.
Identifies the name of the virtual routing and forwarding (VRF) instance that will be associated with the next two commands,
and enters VRF address-family mode.
Activates the advertisement of the IPv4 address-family neighbors.
Configuring PE-to-CE MPLS Forwarding and Signaling with BGP
If the Border Gateway Protocol (BGP) is used for routing between the provider edge (PE) and the customer edge (CE) devices,
configure BGP to signal the labels on the virtual routing and forwarding (VRF) interfaces of both the CE and the PE devices.
You must enable signalling globally at the router-configuration level and for each interface:
At the router-configuration level, to enable Multiprotocol Label Switching (MPLS) label signalling via BGP, use the
neighbor send-label command).
At the interface level, to enable MPLS forwarding on the interface used for the PE-to-CE external BGP (eBGP) session, use
the
mpls bgp forwarding command.
SUMMARY STEPS
enable
configure terminal
router bgp autonomous-system-number
address-family ipv4 vrf vrf-name
neighbor addresssend-label
neighbor addressactivate
end
configure terminal
interface typeslot/ subslot/ port[. subinterface]
mpls bgp forwarding
DETAILED STEPS
Command or Action
Purpose
Step 1
enable
Example:
Device> enable
Enables privileged EXEC mode.
Enter your password if prompted.
Step 2
configure terminal
Example:
Device# configure terminal
Enters global configuration mode.
Step 3
router bgp autonomous-system-number
Example:
Device(config)# router bgp 100
Configures the BGP routing process with the autonomous system number passed to other BGP devices and enters router configuration
mode.
Activates the advertisement of the IPv4 address-family neighbors.
Step 7
end
Example:
Device(config-router-af)# end
Returns to privileged EXEC mode.
Step 8
configure terminal
Example:
Device# configure terminal
Enters global configuration mode.
Step 9
interface typeslot/ subslot/ port[. subinterface]
Example:
Device(config)# interface
Enters interface configuration mode for the interface to be used for the BGP session.
The interface can be a routed port or an .
Step 10
mpls bgp forwarding
Example:
Device(config-if)# mpls bgp forwarding
Enables MPLS forwarding on the interface.
Configuring a Routing Protocol Other than BGP
You can use the Routing Information Protocol (RIP), Enhanced Interior Gateway Routing Protocol (EIGRP), Open Shortest Path
First (OSPF), or static routing. This configuration uses OSPF, but the process is the same for other protocols.
If you use OSPF as the routing protocol between the provider edge (PE) and the customer edge (CE) devices, issue the
capability vrf-lite command in router configuration mode.
Note
If RIP EIGRP, OSPF or static routing is used, the Label Distribution Protocol (LDP) must be used to signal labels.
The Multi-VRF Support feature is not supported by Interior Gateway Routing Protocol (IGRP) or Intermediate System-to-Intermediate
System (IS-IS).
Multicast cannot be configured on the same Layer 3 interface as the Multi-VRF Support feature is configured.
SUMMARY STEPS
enable
configure terminal
router ospf process-id [vrf vpn-name]
log-adjacency-changes
redistribute bgp autonomous-system-numbersubnets
network ip-addresssubnet-maskarea area-id
end
show ip ospf
DETAILED STEPS
Command or Action
Purpose
Step 1
enable
Example:
Device> enable
Enables privileged EXEC mode.
Enter your password if prompted.
Step 2
configure terminal
Example:
Device# configure terminal
Enters global configuration mode.
Step 3
router ospf process-id [vrf vpn-name]
Example:
Device(config)# router ospf 100 vrf v1
Enables OSPF routing, specifies a virtual routing and forwarding (VRF) table, and enters router configuration mode.
The following example shows how to configure on PE device, PE-to-CE connections using BGP for both routing and label exchange:
The following example shows how to configure on PE device, PE-to-CE connections using OSPF for routing and LDP for label exchange:
Example: Configuring Multi-VRF Support on the CE Device
The following example shows how to configure VRFs:
configure terminal
ip routing
ip vrf v11
rd 800:1
route-target export 800:1
route-target import 800:1
exit
ip vrf v12
rd 800:2
route-target export 800:2
route-target import 800:2
exit
The following example shows how to configure CE device VPN connections:
interface
ip vrf forwarding v11
ip address 10.0.0.8 255.255.255.0
exit
interface
ip vrf forwarding v12
ip address 10.0.0.8 255.255.255.0
exit
router ospf 1 vrf v11
network 10.0.0.0 255.255.255.0 area 0
network 10.0.0.0 255.255.255.0 area 0
exit
router ospf 2 vrf v12
network 10.0.0.0 255.255.255.0 area 0
network 10.0.0.0 255.255.255.0 area 0
exit
Note
If BGP is used for routing between the PE and CE devices, the BGP-learned routes from the PE device can be redistributed
into OSPF using the commands in the following example.
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The following table provides release information about the feature or features described in this module. This table lists
only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise,
subsequent releases of that software release train also support that feature.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco
Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Table 1. Feature Information for
Multi-VRF Support
Feature
Name
Releases
Feature
Information
Multi-VRF
Support
12.1(11)EA1
12.1(20)EW
12.2(4)T
12.2(8)YN
12.2(25)EWA
The
Multi-VRF Support feature allows you to configure and maintain more than one
instance of a routing and forwarding table within the same CE device.