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The Remote Access MPLS VPNs feature allows the service provider to offer a scalable end-to-end Virtual Private Network (VPN)
service to remote users. This feature integrates the Multiprotocol Label Switching (MPLS)-enabled backbone with broadband
access capabilities.
Finding Feature Information
Your software release may not support all the features documented in this module. For the latest caveats and feature information,
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.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature
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Prerequisites for Remote Access MPLS VPNs
Your network must be running the following Cisco services before you configure Virtual Private Network (VPN) operation:
Multiprotocol Label Switching (MPLS) in the service provider backbone devices
Tag Distribution Protocol (TDP) or the Label Distribution Protocol (LDP)
Border Gateway Protocol (BGP) in all devices providing a VPN service
Cisco Express Forwarding switching in each MPLS-enabled device
The provider edge (PE) devices that belong to the same VPN must be configured with the same VPN ID. The VPN ID must be unique
to the service provider network.
Restrictions for Remote Access MPLS VPNs
The Virtual Private Network (VPN) ID is not used to control the distribution of routing information or to associate IP addresses.
Information About Remote Access MPLS VPNs
Introduction to Remote Access MPLS VPNs
Multiprotocol Label Switching (MPLS)-based Virtual Private Networks (VPNs) allow service providers to deploy a scalable and
cost-effective VPN service that provides a stable and secure path through the network. An enterprise connects to geographically
dispersed sites in the Internet service provider’s (ISPs) network through use of an MPLS backbone. Sites are interconnected
to create an MPLS VPN.
The Remote Access MPLS VPNs feature allows the service provider to offer a scalable end-to-end VPN service to remote users.
The Remote Access MPLS VPNs feature integrates the MPLS-enabled backbone with broadband access capabilities. By integrating
access VPNs with MPLS VPNs, a service provider can:
Enable remote users and offices to seamlessly access their corporate networks
Offer equal access to a set of different ISPs or retail service providers
Integrate their broadband access networks with the MPLS-enabled backbone
Provide end-to-end VPN service to enterprise customers with remote access (RA) users and offices
Separate network access and connectivity functions from ISP functions
MPLS VPN Architecture
Multiprotocol Label Switching (MPLS) Virtual Private Network (VPN) architecture enables the service provider to build the
MPLS VPN network one time and add VPNs for new customers as needed, including them in the already established network. The
elements that comprise the MPLS VPN are:
Customer edge (CE) devices--The devices to which subscribers in a customer’s network connect. The CE device connects to a
service provider’s edge device (PE device). The CE device initiates the remote access session to the PE device.
Provider edge (PE) devices--The devices located at the edge of the service provider’s MPLS core network. The PE device connects
to one or more CE devices and has full knowledge of the routes to the VPNs associated with those CE devices. The PE device
does not have knowledge of the routes to VPNs whose associated CE devices are not connected to it.
Provider (P) devices--The service provider devices that comprise the provider’s core network. The P devices do not assign
VPN information and they do not have any knowledge of CE devices. Instead, the main focus of the P device is on label switching.
The figure below shows an example of MPLS VPN network architecture.
Figure 1. MPLS VPN Network Example
PPP over Ethernet to MPLS VPN
The figure below shows the topology of integrated PPP over Ethernet (PPPoE) access to an Multiprotocol Label Switching (MPLS)
Virtual Private Network (VPN).
Figure 2. PPPoE Access to MPLS VPN Topology
In the figure above, the service provider operates an MPLS VPN that interconnects all customer sites. The service provider’s
core network is an MPLS backbone with VPN service capability. The service provider provides all remote access operations to
its customer. The network-side interfaces are tagged interfaces, logically separated into multiple VPNs.
Remote access is provided using a PPPoE connection. In this model, when a remote user attempts to establish a connection
with a corporate network, a PPPoE session is initiated and is terminated on the service provider’s virtual home gateway (VHG)
or provider edge (PE) device. All remote hosts connected to a particular customer edge (CE) device must be part of the VPN
to which the CE device is connected.
The PPPoE to MPLS VPN architecture is a flexible architecture with the following characteristics:
A remote host can create multiple concurrent PPPoE sessions, each to a different VPN.
If multiple remote hosts exist behind the same CE device, each remote host can log in to a different VPN.
Any remote host can log in to any VPN at any time because each VHG or PE device has the virtual routing and forwarding (VRF)
instances for all possible VPNs preinstantiated on it. This configuration requires that the VRF be applied through the RADIUS
server, which can cause scalability issues.
The following events occur as the VHG or PE device processes the incoming PPPoE session:
A PPPoE session is initiated over the broadband access network.
The VHG/PE device accepts and terminates the PPPoE session.
The VHG/PE device obtains virtual access interface (VAI) configuration information:
The VHG/PE obtains a virtual template interface configuration information, which typically includes VRF mapping for sessions.
The VHG/PE sends a separate request to either the customer’s or service provider’s RADIUS server for the VPN to authenticate
the remote user.
The VPN’s VRF instance is instantiated on the VHG or PE. The VPN’s VRF contains a routing table and other information associated
with a specific VPN.
Typically, the customer RADIUS server is located within the customer VPN. To ensure that transactions between the VHG/PE
device and the customer RADIUS server occur over routes within the customer VPN, the VHG/PE device is assigned at least one
IP address that is valid within the VPN.
The VHG/PE device forwards accounting records to the service provider’s proxy RADIUS server, which in turn logs the accounting
records and forwards them to the appropriate customer RADIUS server.
The VHG/PE obtains an IP address for the CPE. The address is allocated from one of the following:
Local address pool
Service provider’s RADIUS server, which either specifies the address pool or directly provides the address
Service provider’s DHCP server
The CPE is now connected to the customer VPN. Packets can flow to and from the remote user.
How to Configure Remote Access MPLS VPNs
Configuring the MPLS Core Network
The Multiprotocol Label Switching (MPLS) core network is configured by enabling label switching of IP packets on interfaces,
configuring virtual routing and forwarding (VRF) instances, associating VRFs and configuring Multiprotocol Border Gateway
Protocol (BGP) provider edge (PE)-to-PE routing sessions.
Configuring PPPoE
Configuring a Virtual Template Interface
To create and configure a virtual template interface that can be configured and applied dynamically in creating virtual access
interfaces, perform the following steps.
Procedure
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
interface virtual-template number
Example:
Device(config)# interface virtual-template 1
Creates a virtual template interface and enters interface configuration mode.
Step 4
ip unnumbered ethernet number
Example:
Device(config-if)# ip unnumbered ethernet 1
Enables IP without assigning a specific IP address on the LAN.
Step 5
ppp authentication chap
Example:
Device(config-if)# ppp authentication chap
Enables PPP authentication on the virtual template interface.
Step 6
ppp ipcp address required
Example:
Device(config-if)# ppp ipcp address required
(Required for legacy dialup and DSL networks.) Prevents a PPP session from being configured with 0.0.0.0 remote ip address.
Configuring PPPoE in a Broadband Aggregation Group
To configure a broadband aggregation (BBA) group for PPP over Ethernet (PPPoE) and to link it to the appropriate virtual
template interface, perform the following steps.
Procedure
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
bba-group pppoe {name |
global }
Example:
Device(config)# bba-group pppoe bba1
Configures a BBA group to be used to establish PPPoE sessions and enters BBA configuration mode
The name argument identifies the BBA group. You can have multiple BBA groups.
The global keyword is the default BBA group used when a BBA group name is not specified.
Step 4
virtual-template template-number
Example:
Device(config-bba)# virtual-template 20
Specifies the virtual template interface to use to clone virtual access interfaces (VAIs).
Step 5
sessions per-mac limit per-mac-limit
Example:
Device(config-bba)# sessions per-mac limit 32000
(Optional) Specifies the maximum number of PPPoE sessions allowed per MAC address in a PPPoE profile.
Step 6
sessions max limit global-pppoe-session-limit
Example:
Device(config-bba)# sessions max limit 32000
(Optional) Specifies the maximum number of PPPoE sessions that will be permitted on a device and sets the PPPoE session-count
threshold
Specifies the interface to which you want to attach the BBA group.
Step 9
encapsulation dot1q vlan-id
Example:
Device(config-subif)# encapsulation dot1q 2
Creates an 802.1q sub-interface and specifies the VLAN id.
Step 10
pppoe enable [group group-name]
Example:
Device(config-subif)# pppoe enable group bba1
Attaches the BBA group to the VLAN.
Configuring and Associating Virtual Private Networks
A Virtual Private Network (VPN) service can be added to your Multiprotocol Label Switching (MPLS) configuration by configuring
VPNs and associating the VPNs with a virtual template interface.
Configuration Examples for Remote Access MPLS VPNs
Example: Configuring Remote Access MPLS VPNs with One VRF for PPPoE Sessions
The following example shows how to configure the Remote Access MPLS VPNs feature with one virtual routing and forwarding
(VRF) instance for PPP over Ethernet (PPPoE) sessions:
!
!Enables the AAA access control model.
aaa new-model
!
!Configures AAA accounting.
aaa authentication login default none
aaa authentication enable default none
aaa authentication ppp default group radius
aaa authorization config-commands
aaa authorization network default local
aaa session-id common
enable password cisco
!
username pppoe password 0 pppoe
username common password 0 common
!
!Creates the common VRF.
ip vrf common
rd 100:1000
route-target export 100:1000
route-target import 100:1000
!
!Specifies the BBA group to be used to establish PPPoE sessions and specifies the maximum
!number of PPPoE sessions to be established over a vlan.
bba-group pppoe
virtual-template 1
sessions per-mac limit 32000
!
no virtual-template snmp
!
!Configures the small buffer.
buffers small permanent 15000
!
!Defines the general loopback interface used for reachability to the router and as a
!source IP address for sessions (IBGP, TDP, and so on).
interface Loopback0
ip address 10.16.3.1 255.255.255.255
ip ospf network point-to-point
!
!Creates a loopback interface in the vpn1 VRF. You do this for each customer VRF you IP
!unnumber interfaces to.
interface Loopback1
ip vrf forwarding vpn1
ip address 10.24.1.1 255.255.255.255
!
interface Loopback2
ip vrf forwarding vpn2
ip address 10.8.1.2 255.255.255.255
!
interface gigaethernet 0/0/0
load-interval 30
negotiation auto
no cdp enable
interface gigaethernet 0/0/0.9
encapsulation dot1q 9
pppoe enable
no cdp enable
!
!Enables label switching of IP packets on the interface.
interface GigabitEthernet1/0/0
ip address 10.1.10.1 255.255.0.0
no ip redirects
load-interval 30
negotiation auto
tag-switching ip
!
!Defines the virtual template and associates the common VRF with it.
interface Virtual-Template1
ip vrf forwarding common
ip unnumbered Loopback1
peer default ip address pool common
ppp authentication chap
!
!Configures OSPF to advertise the networks.
router ospf 100
log-adjacency-changes
auto-cost reference-bandwidth 1000
network 10.16.3.1 0.0.0.0 area 0
network 10.1.0.0 0.0.255.255 area 0
!
router rip
version 2
!
!Enters address family configuration mode to configure the VRF for PE to CE routing
!sessions.
address-family ipv4 vrf common
version 2
network 10.0.0.0
no auto-summary
exit-address-family
!
!Configures BGP to advertise the networks for the VPN.
router bgp 100
no synchronization
no bgp default ipv4-unicast
bgp log-neighbor-changes
neighbor 172.16.1.4 remote-as 100
neighbor 172.16.1.4 activate
!
!Enters address family configuration mode to configure the common VRF for PE to CE routing
!sessions.
address-family ipv4 vrf common
no auto-summary
no synchronization
aggregate-address 10.10.0.0 255.255.0.0 summary-only
exit-address-family
!
address-family vpnv4
neighbor 172.16.1.4 activate
neighbor 172.16.1.4 send-community both
exit-address-family
!
!Specifies the IP local pool to use for the VRF address assignment.
ip local pool common 10.10.1.1 10.10.126.0
ip classless
!Enters routing information in the routing table for the VRF.
ip route 10.0.0.0 255.0.0.0 FastEthernet0/0/0 10.9.0.1
ip route vrf common 10.22.0.0 255.255.0.0 Null0
ip route vrf common 10.30.0.0 255.255.0.0 2.1.1.1 3
ip route vrf common 10.32.0.0 255.255.0.0 2.2.151.1 2
ip route vrf common 10.33.0.0 255.255.0.0 2.3.101.1 2
no ip http server
ip pim bidir-enable
!
no cdp run
!
!Specifies the RADIUS host and configures RADIUS accounting. radius-server retransmit is
!on by default and cannot be removed.
radius-server host 10.19.100.150 auth-port 1645 acct-port 1646
radius-server retransmit 3
radius-server key test
radius-server authorization permit missing Service-Type
radius-server vsa send authentication
call admission limit 90
!
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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 Remote Access MPLS VPNs
Feature Name
Releases
Feature Information
Remote Access MPLS VPNs
Cisco IOS XE Release 2.1
The Remote Access MPLS VPNs feature allows the service provider to offer a scalable end-to-end VPN service to remote users.
This feature integrates the MPLS-enabled backbone with broadband access capabilities.
In Cisco IOS XE Release 2.1, this feature was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.
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