Frame Relay over L2TPv3
Finding Feature Information
Prerequisites for Configuring Frame Relay over L2TPv3
Restrictions for Configuring Frame Relay over L2TPv3
Information About Configuring Frame Relay over L2TPv3
- Frame Relay over L2TPv3 Overview
How to Configure Frame Relay over L2TPv3
Configuration Examples for Frame Relay over L2TPv3
- Example: Frame Relay over L2TPv3 with LMI
- Examples: Frame Relay over L2TPv3 without LMI
Additional References for Frame Relay over L2TPv3
Feature Information for Frame Relay over L2TPv3

Frame Relay over L2TPv3

The Frame Relay over L2TPv3 (FRoL2TPv3) feature enables Frame Relay switching over Layer 2 Tunnel Protocol Version 3 (L2TPv3). The feature works with like interfaces and disparate interfaces (L2VPN interworking).

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 Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.

Prerequisites for Configuring Frame Relay over L2TPv3

Before configuring Frame Relay over L2TPv3, you should understand how to configure Layer 2 VPNs and Frame Relay. See the “Additional References” section in this chapter for pointers to the feature modules that explain how to configure and use Layer 2 VPNs and Frame Relay.

Restrictions for Configuring Frame Relay over L2TPv3

The following functionalities are not supported:

Frame Relay to 802.1Q/QinQ VLAN interworking
Frame Relay-to-Ethernet routed interworking
Frame Relay port-to-port switching
L2TPv3 pseudowire redundancy for Frame Relay

Information About Configuring Frame Relay over L2TPv3

Frame Relay over L2TPv3 Overview

Frame Relay over L2TPv3 enables provider edge (PE) devices to forward Frame Relay frames to pseudowires based on the receiving interface and the Data-Link Connection Identifier (DLCI) number. PE devices also provide Local Management Interface (LMI)-based signaling to customer edge (CE) devices, emulating Frame Relay switches.

In Frame Relay over L2TPv3, the Frame Relay header is retained at the ingress PE device. The device does not reconstruct the Frame Relay header before forwarding packets to the CE device.

The figure below shows a Frame Relay over L2TPv3 topology.

Frame Relay over L2TPv3 supports the following functionalities:

Frame Relay data-link connection identifier (DLCI)-to-Frame Relay DLCI
Frame Relay DLCI-to-Ethernet port / 802.1Q / QinQ bridged interworking
Local Management Interface (LMI)
L2TPv3 sequencing
L2TPv3 tunnel marking

How to Configure Frame Relay over L2TPv3

Configuring Frame Relay over L2TPv3 without LMI

This section explains how to configure Frame Relay over L2TPv3 without enabling Local Management Interface (LMI).

On CE1

SUMMARY STEPS

enable
configure terminal
interface type number
no ip address [ip-address mask ] [secondary ]
encapsulation frame-relay [cisco | ietf ]
no keepalive
frame-relay intf-type dce
exit
interface type number point-to-point
ip address ip-address mask
frame-relay interface-dlci dlci
end

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	interface `type` `number` Example: `Device(config)# interface serial3/1/0`	Specifies a serial interface and enters interface configuration mode.
Step 4	no ip address [`ip-address mask` ] [secondary ] Example: `Device(config-if)# no ip address`	Disables IP processing.
Step 5	encapsulation frame-relay [cisco \| ietf ] Example: `Device(config-if)# encapsulation frame-relay ietf`	Specifies Frame Relay encapsulation for the interface. You can specify different types of encapsulations. You can set one interface to Cisco encapsulation and the other interface to IETF encapsulation.
Step 6	no keepalive Example: `Device(config-if)# no keepalive`	Disables the keepalive configuration.
Step 7	frame-relay intf-type dce Example: `Device(config-if)# frame-relay intf-type dce`	Specifies that the interface is a DCE switch. You can also specify the interface to support Network-to-Network Interface (NNI) and DTE connections.
Step 8	exit Example: `Device(config-if)# exit`	Exits interface configuration mode and returns to global configuration mode.
Step 9	interface `type` `number` point-to-point Example: `Device(config)# interface serial 3/1/0.1 point-to-point`	Specifies a serial interface and enters interface configuration mode.
Step 10	ip address `ip-address` `mask` Example: `Device(config-if)# ip address 198.51.100.2 255.255.255.0`	Sets a primary or secondary IP address for an interface.
Step 11	frame-relay interface-dlci `dlci` Example: `Device(config-if)# frame-relay interface-dlci 25`	Assigns a data-link connection identifier (DLCI) to the Frame Relay interface.
Step 12	end Example: `Device(config-if)# end`	Exits interface configuration mode and returns to privileged EXEC mode. After configuring CE1, you can configure CE2 in a similar manner.

On PE1

The PE1 device forwards Frame Relay frames to the appropriate pseudowire, based on the receiving interface and DLCI number configured on the CE1 device.

SUMMARY STEPS

enable
configure terminal
interface type number
no ip address [ip-address mask ] [secondary ]
encapsulation frame-relay [cisco | ietf ]
no keepalive
pseudowire-class [pw-class-name ]
encapsulation l2tpv3
ip local interface loopback loopback id
connect connection-name interface dlci l2transport
xconnect peer-router-id vcid encapsulation l2tpv3 pw-class l2tpv3
end

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	interface `type` `number` Example: `Device(config)# interface serial3/1/0`	Specifies a serial interface and enters interface configuration mode.
Step 4	no ip address [`ip-address mask` ] [secondary ] Example: `Device(config-if)# no ip address`	Disables IP processing.
Step 5	encapsulation frame-relay [cisco \| ietf ] Example: `Device(config-if)# encapsulation frame-relay ietf`	Specifies Frame Relay encapsulation for the interface. You can specify different types of encapsulations. You can set one interface to Cisco encapsulation and the other interface to IETF encapsulation.
Step 6	no keepalive Example: `Device(config-if)# no keepalive`	Disables the keepalive configuration.
Step 7	pseudowire-class [`pw-class-name` ] Example: `Device(config)# pseudowire-class l2tpv3`	Specifies the name of a Layer 2 pseudowire class and enters pseudowire class configuration mode.
Step 8	encapsulation l2tpv3 Example: `Device(config-pw)# encapsulation l2tpv3`	Specifies the tunneling encapsulation as L2TPv3.
Step 9	ip local interface loopback `loopback id` Example: `Device(config-pw)# ip local interface Loopback0`	Specifies the local loopback interface on PE1 for the L2TPv3 tunnel.
Step 10	connect `connection-name` `interface` `dlci` l2transport Example: `Device(config)# connect fr1 serial5/0 1000 l2transport`	Defines connections between Frame Relay Permanent Virtual Circuits (PVCs) and enters connect configuration mode. Using the l2transport keyword specifies that the PVC is not a locally switched PVC, but is tunneled over the backbone network. The `connection-name` argument is a text string that you provide. The `interface` argument is the interface on which a PVC connection is defined. The `dlci` argument is the DLCI number of the PVC that is connected.
Step 11	xconnect `peer-router-id` `vcid` encapsulation l2tpv3 pw-class l2tpv3 Example: `Device(config-xconnect-conn-config)# xconnect 198.51.100.2 123 encapsulation l2tpv3 pw-class l2tpv3`	Creates the VC to transport the Layer 2 packets. In a DLCI-to DLCI connection type, Frame Relay over L2TPv3 uses the xconnect command in connect configuration mode. The `vcid` or identifier of the virtual circuit (VC) between the PE devices should be the same on both devices that are being connected.
Step 12	end Example: `Device(config-xconnect-conn-config)# end`	Exits connect configuration mode and returns to privileged EXEC mode. After configuring PE1, you can configure PE2 in a similar manner.

Configuring Frame Relay over L2TPv3 with LMI

This section explains how to configure Frame Relay over L2TPv3 with Local Management Interface (LMI) enabled.

On CE1

The CE1 device receives the Frame Relay frames forwarded by the PE1 device over the Frame Relay link. On CE1, configure an interface and a DLCI number based on which the PE1 device forwards traffic to the appropriate pseudowire. Local Management Interface (LMI) is also tunneled over the pseudowire. Therefore, you need to properly configure the customer edge (CE) device for LMI.

SUMMARY STEPS

enable
configure terminal
interface serial slot / subslot / port [. subinterface ]
no ip address [ip-address mask ] [secondary ]
encapsulation frame-relay [cisco | ietf ]
frame-relay intf-type dce
end

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	interface serial `slot` / `subslot` / `port` [. `subinterface` ] Example: `Device(config)# interface serial3/1/0`	Specifies a serial interface and enters interface configuration mode.
Step 4	no ip address [`ip-address mask` ] [secondary ] Example: `Device(config-if)# no ip address`	Disables IP processing.
Step 5	encapsulation frame-relay [cisco \| ietf ] Example: `Device(config-if)# encapsulation frame-relay ietf`	Specifies Frame Relay encapsulation for the interface. You can specify different types of encapsulations. You can set one interface to Cisco encapsulation and the other interface to IETF encapsulation.
Step 6	frame-relay intf-type dce Example: `Device(config-if)# frame-relay intf-type dce`	Specifies that the interface is a Data Communications Equipment (DCE) switch. You can also specify the interface to support Network-to-Network Interface (NNI) and Data Transmission Equipment (DTE) connections.
Step 7	end Example: `Device(config-if)# end`	Exits interface configuration mode and returns to privileged EXEC mode. After configuring CE1, you can configure CE2 in a similar manner.

On PE1

The PE1 device forwards Frame Relay frames to the CE1 device over the Frame Relay link. The PE1 device also provides Local Management Interface (LMI) signaling to the CE1 device.

SUMMARY STEPS

enable
configure terminal
interface serial slot / subslot / port [. subinterface ]
encapsulation frame-relay [cisco | ietf ]
pseudowire-class [pw-class-name ]
encapsulation l2tpv3
ip local interface loopback loopback id
connect connection-name interface dlci l2transport
xconnect peer-router-id vcid encapsulation l2tpv3 pw-class l2tpv3
end

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	interface serial `slot` / `subslot` / `port` [. `subinterface` ] Example: `Device(config)# interface serial3/1/0`	Specifies a serial interface and enters interface configuration mode.
Step 4	encapsulation frame-relay [cisco \| ietf ] Example: `Device(config-if)# encapsulation frame-relay ietf`	Specifies Frame Relay encapsulation for the interface. You can specify different types of encapsulations. You can set one interface to Cisco encapsulation and the other interface to IETF encapsulation.
Step 5	pseudowire-class [`pw-class-name` ] Example: `Device(config)# pseudowire-class l2tpv3`	Specifies the name of a Layer 2 pseudowire class and enters pseudowire class configuration mode.
Step 6	encapsulation l2tpv3 Example: `Device(config-pw)# encapsulation l2tpv3`	Specifies the tunneling encapsulation as L2TPv3.
Step 7	ip local interface loopback `loopback id` Example: `Device(config-pw)# ip local interface Loopback0`	Specifies the local loopback interface.
Step 8	connect `connection-name` `interface` `dlci` l2transport Example: `Device(config)# connect fr1 serial5/0 1000 l2transport`	Defines connections between Frame Relay Permanent Virtual Circuits (PVCs) and enters connect configuration mode. Using the l2transport keyword specifies that the PVC is not a locally switched PVC, but is tunneled over the backbone network. The `connection-name` argument is a text string that you provide. The `interface` argument is the interface on which a PVC connection is defined. The `dlci` argument is the DLCI number of the PVC that is connected.
Step 9	xconnect `peer-router-id` `vcid` encapsulation l2tpv3 pw-class l2tpv3 Example: `Device(config-fr-pw-switching)# xconnect 198.51.100.2 123 encapsulation l2tpv3 pw-class l2tpv3`	Creates the virtual circuit (VC) to transport the Layer 2 packets. In a DLCI-to-DLCI connection type, Frame Relay over L2TPv3 uses the xconnect command in connect configuration mode.
Step 10	end Example: `Device(config-fr-pw-switching)# end`	Exits connect configuration mode and returns to privileged EXEC mode. After configuring PE1, you can configure PE2 in a similar manner.

Configuring Frame Relay L2TPv3 Tunnel Marking

L2TPv3 Tunnel Marking introduces the capability to define and control the quality of service (QoS) for incoming customer traffic on the provider edge (PE) device in a service provider network.

SUMMARY STEPS

enable
configure terminal
class-map class-name
match fr-dlci dlci-number
policy-map dlci dlci-number
class class-name
set ip precedence tunnel precedence-value
interface serial slot / subslot / port [. subinterface ]
no ip address [ip-address mask ] [secondary ]
encapsulation frame-relay [cisco | ietf ]
no keepalive
service-policy input policy-name
end
pseudowire-class [pw-class-name ]
encapsulation l2tpv3
ip local interface loopback loopback id
connect connection-name interface dlci l2transport
xconnect peer-router-id vcid encapsulation l2tpv3 pw-class l2tpv3
end

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	class-map `class-name` Example: `Device(config)# class-map class1`	Specifies the user-defined name of the traffic class and enters class map configuration mode.
Step 4	match fr-dlci `dlci-number` Example: `Device(config-cmap)# match fr-dlci 50`	Specifies the number of the Data-Link Connection Identifier (DLCI) associated with the packet as a match criterion in the class map.
Step 5	policy-map dlci `dlci-number` Example: `Device(config-cmap)# policy-map dlci 50`	Specifies the type of policy map as DLCI and enters policy map configuration mode.
Step 6	class `class-name` Example: `Device(config-pmap)# class class1`	Specifies the name of a predefined traffic class, which was configured with the class-map command, used to classify traffic to the traffic policy and enters policy-map class configuration mode.
Step 7	set ip precedence tunnel `precedence-value` Example: `Device(config-pmap-c)# set ip precedence tunnel 2`	Sets the precedence value in the header of the L2TPv3 tunneled packet for tunnel marking.
Step 8	interface serial `slot` / `subslot` / `port` [. `subinterface` ] Example: `Device(config-pmap-c)# interface serial3/1/0`	Specifies a serial interface and enters interface configuration mode.
Step 9	no ip address [`ip-address mask` ] [secondary ] Example: `Device(config-if)# no ip address`	Disables IP processing.
Step 10	encapsulation frame-relay [cisco \| ietf ] Example: `Device(config-if)# encapsulation frame-relay ietf`	Specifies Frame Relay encapsulation for the interface. You can specify different types of encapsulations. You can set one interface to Cisco encapsulation and the other interface to IETF encapsulation.
Step 11	no keepalive Example: `Device(config-if)# no keepalive`	Disables the keepalive configuration.
Step 12	service-policy input `policy-name` Example: `Device(config-if)# service-policy input policy1`	Attaches a traffic policy to the interface.
Step 13	end Example: `Device(config-if)# end`	Exits connect configuration mode and returns to privileged EXEC mode.
Step 14	pseudowire-class [`pw-class-name` ] Example: `Device(config)# pseudowire-class l2tpv3`	Specifies the name of a Layer 2 pseudowire class and enters pseudowire class configuration mode.
Step 15	encapsulation l2tpv3 Example: `Device(config-pw)# encapsulation l2tpv3`	Specifies the tunneling encapsulation as L2TPv3.
Step 16	ip local interface loopback `loopback id` Example: `Device(config-pw)# ip local interface Loopback0`	Specifies the local loopback interface.
Step 17	connect `connection-name` `interface` `dlci` l2transport Example: `Device(config-pw)# connect fr1 serial5/0 1000 l2transport`	Defines connections between Frame Relay Permanent Virtual Circuits (PVCs) and enters connect configuration mode. Using the l2transport keyword specifies that the PVC is not a locally switched PVC, but is tunneled over the backbone network. The `connection-name` argument is a text string that you provide. The `interface` argument is the interface on which a PVC connection is defined. The `dlci` argument is the DLCI number of the PVC that is connected.
Step 18	xconnect `peer-router-id` `vcid` encapsulation l2tpv3 pw-class l2tpv3 Example: `Device(config-xconnect-conn-config)# xconnect 198.51.100.2 123 encapsulation l2tpv3 pw-class l2tpv3`	Creates the VC to transport the Layer 2 packets. In a DLCI-to-DLCI connection type, Frame Relay over L2TPv3 uses the xconnect command in connect configuration mode.
Step 19	end Example: `Device(config-xconnect-conn-config)# end`	Exits connect configuration mode and returns to privileged EXEC mode.

Verifying Frame Relay over L2TPv3 Configuration

You can use show commands to view information about a Frame Relay over L2TPv3 configuration.

SUMMARY STEPS

show xconnect all detail
show frame-relay pvc
show connection

DETAILED STEPS

Step 1

show xconnect all detail

The following example is sample output of the show xconnect all detail command:

Example:

Device# show xconnect all detail

Legend:    XC ST=Xconnect State  S1=Segment1 State  S2=Segment2 State
  UP=Up       DN=Down            AD=Admin Down      IA=Inactive
  SB=Standby  HS=Hot Standby     RV=Recovering      NH=No Hardware

XC ST  Segment 1                         S1 Segment 2                         S2
------+---------------------------------+--+---------------------------------+--
UP pri   ac Se0/2/0:0:16(FR DLCI)        UP l2tp 22.2.2.2:100                 UP
            Interworking: L2L                    Session ID: 306532470
                                                 Tunnel ID: 1381396806
                                                 Protocol State: UP
                                                 Remote Circuit State: UP
                                                 pw-class: fr_fr
UP pri   ac Se0/2/0:0:17(FR DLCI)        UP l2tp 22.2.2.2:101                 UP
            Interworking: Eth                    Session ID: 1373339282
                                                 Tunnel ID: 1381396806
                                                 Protocol State: UP
                                                 Remote Circuit State: UP
                                                 pw-class: fr_eth

Step 2

show frame-relay pvc

The following example is sample output of the show frame-relay pvc command:

Example:

Device# show frame-relay pvc

pseudowire100001 is up, VC status is up PW type: Ethernet
  Create time: 5d20h, last status change time: 5d20h
    Last label FSM state change time: 5d20h
  Destination address: 2.1.1.2 VC ID: 1234000
    Output interface: Et0/0, imposed label stack {2001}
  Preferred path: not configured
  Default path: active
  Next hop: 20.0.0.2
Member of xconnect service Et1/0.1-1001, group right
  Associated member Et1/0.1 is up, status is up
  Interworking type is Ethernet
  Service id: 0x6d000002
Signaling protocol: LDP, peer 2.1.1.2:0 up
  Targeted Hello: 1.1.1.1(LDP Id) -> 2.1.1.2, LDP is UP
  Graceful restart: not configured and not enabled
  Non stop routing: not configured and not enabled
  PWid FEC (128), VC ID: 1234000
  Status TLV support (local/remote) : enabled/supported
    LDP route watch : enabled
    Label/status state machine : established, LruRru
    Local dataplane status received : No fault
    BFD dataplane status received : Not sent
    BFD peer monitor status received : No fault
    Status received from access circuit : No fault
    Status sent to access circuit : No fault
    Status received from pseudowire i/f : No fault
    Status sent to network peer : No fault
    Status received from network peer : No fault
    Adjacency status of remote peer : No fault
Sequencing: receive disabled, send disabled
Bindings
Parameter    Local                          Remote
------------ ------------------------------ ------------------------------
Label        2007                           2001
Group ID     0                              6
Interface
MTU          1500                           1500
Control word on (configured: autosense)     on
PW type      Ethernet                       Ethernet
VCCV CV type 0x12                           0x12
               LSPV [2], BFD/Raw [5]          LSPV [2], BFD/Raw [5]
VCCV CC type 0x07                           0x07
             CW [1], RA [2], TTL [3]        CW [1], RA [2], TTL [3]
Status TLV   enabled                        supported
Dataplane:
  SSM segment/switch IDs: 12309/4115 (used), PWID: 1
Rx Counters
  106563 input transit packets, 9803650 bytes
  0 drops, 0 seq err
Tx Counters
  0 output transit packets, 0 bytes
  0 drops

Step 3

show connection

The following example is sample output of the show connection command:

Example:

Device# show connection

ID   Name            Segment 1              Segment 2                  State
================================================================================
1    fr_fr           Se0/2/0:0 16           22.2.2.2 100               UP
2    fr_eth          Se0/2/0:0 17           22.2.2.2 101               UP

--------------------------

Configuration Examples for Frame Relay over L2TPv3

Example: Frame Relay over L2TPv3 with LMI

The following example shows how to configure Frame Relay over L2TPv3 with Local Management Interface (LMI) enabled:

PE1 device	CE1 device
`configure terminal interface Serial 0/2/0:0 no ip address encapsulation frame-relay ! keepalive 15 frame-relay lmi-type cisco`	`configure terminal interface Serial 1/0:0 no ip address encapsulation frame-relay frame-relay intf-type dce ! keepalive 15 frame-relay lmi-type cisco interface Serial 1/0:0.100 point-to-point ip address 198.51.100.33 255.255.255.0 frame-relay interface-dlci 16`

PE1 device

CE1 device


configure terminal
 interface Serial 0/2/0:0
  no ip address
  encapsulation frame-relay
!
keepalive 15
frame-relay lmi-type cisco


configure terminal
 interface Serial 1/0:0
  no ip address
  encapsulation frame-relay
  frame-relay intf-type dce
!
keepalive 15
frame-relay lmi-type cisco
interface Serial 1/0:0.100 point-to-point
 ip address 198.51.100.33 255.255.255.0
 frame-relay interface-dlci 16

Examples: Frame Relay over L2TPv3 without LMI

The following example shows how to configure Frame Relay DLCI-to-Frame Relay DLCI over L2TPv3 without Local Management Interface (LMI) enabled:

PE1 device	CE1 device
`configure terminal interface Serial 0/1/0 encapsulation frame-relay ! pseudowire-class fr_l2tpv3 encapsulation l2tpv3 ip local interface Loopback0 ! connect FR Serial 0/1/0 100 l2transport xconnect 198.51.100.2 100 encapsulation l2tpv3 pw-class fr_l2tpv3`	`configure terminal interface Serial 0/0/0 encapsulation frame-relay exit ! interface Serial 0/0/0.100 point-to-point ip address 198.51.100.22 255.255.255.0 frame-relay interface-dlci 100`

PE1 device

CE1 device


configure terminal
 interface Serial 0/1/0
  encapsulation frame-relay
!
pseudowire-class fr_l2tpv3
 encapsulation l2tpv3
 ip local interface Loopback0
!
connect FR Serial 0/1/0 100 l2transport
 xconnect 198.51.100.2 100 encapsulation l2tpv3 pw-class fr_l2tpv3


configure terminal
 interface Serial 0/0/0
  encapsulation frame-relay
  exit
!
interface Serial 0/0/0.100 point-to-point
 ip address 198.51.100.22 255.255.255.0
 frame-relay interface-dlci 100

The following example shows how to configure Frame Relay DLCI-to-Ethernet Interworking over L2TPv3 without LMI enabled:

PE1 device	CE1 device
`configure terminal pseudowire-class fr_eth encapsulation l2tpv3 interworking ethernet ip local interface Loopback0 ! connect FR-Eth Serial 0/1/0 500 l2transport xconnect 198.51.100.27 500 encapsulation l2tpv3 pw-class fr_eth`	`configure terminal interface Serial 0/0/0.500 point-to-point frame-relay interface-dlci 500 ! interface BVI 200 ip address 198.51.100.29 255.255.255.0`

PE1 device

CE1 device


configure terminal
 pseudowire-class fr_eth
 encapsulation l2tpv3
 interworking ethernet
 ip local interface Loopback0
!
connect FR-Eth Serial 0/1/0 500 l2transport
 xconnect 198.51.100.27 500 encapsulation l2tpv3 pw-class fr_eth


configure terminal
 interface Serial 0/0/0.500 point-to-point
 frame-relay interface-dlci 500
!   
interface BVI 200
 ip address 198.51.100.29 255.255.255.0

Additional References for Frame Relay over L2TPv3

Related Topic	Document Title
Cisco IOS commands	Cisco IOS Master Command List, All Releases
MPLS commands	Multiprotocol Label Switching Command Reference
Configuring Frame Relay over MPLS	Configuring Frame Relay over MPLS
MPLS Layer 2 VPNs Configuration Guide	MPLS Layer 2 VPNs Configuration Guide

Standards and RFCs


Standard/RFC	Title
RFC 2427	Multiprotocol Interconnect over Frame Relay
RFC 4591	Frame Relay over Layer 2 Tunneling Protocol Version 3 (L2TPv3)

MIBs


MIB	MIBs Link
Cisco Frame Relay MIB (CISCO-FRAME-RELAY-MIB.my) Interfaces MIB (IF-MIB.my)	To locate and download MIBs for selected platforms, Cisco IOS releases, and feature sets, use Cisco MIB Locator found at the following URL: http://www.cisco.com/go/mibs

Technical Assistance


Description	Link
The Cisco Support website provides extensive online resources, including documentation and tools for troubleshooting and resolving technical issues with Cisco products and technologies. Access to most tools on the Cisco Support website requires a Cisco.com user ID and password. If you have a valid service contract but do not have a user ID or password, you can register on Cisco.com.	http://www.cisco.com/support

Feature Information for Frame Relay over L2TPv3

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.

Table 1. Feature Information for Frame Relay over L2TPv3
Feature Name	Releases	Feature Information
Frame Relay over L2TPv3	Cisco IOS XE Release 3.12S	This feature enables Frame Relay switching over Layer 2 Tunnel Protocol Version 3 (L2TPv3). The feature works with like interfaces and disparate interfaces (L2VPN interworking).

MPLS Layer 2 VPNs Configuration Guide, Cisco IOS XE Fuji 16.8.x

Bias-Free Language

Results

Chapter: Frame Relay over L2TPv3

Frame Relay over L2TPv3

Finding Feature Information

Prerequisites for Configuring Frame Relay over L2TPv3

Restrictions for Configuring Frame Relay over L2TPv3

Information About Configuring Frame Relay over L2TPv3

Frame Relay over L2TPv3 Overview

How to Configure Frame Relay over L2TPv3

Configuring Frame Relay over L2TPv3 without LMI

On CE1

SUMMARY STEPS

DETAILED STEPS

Example:

Example:

Example:

Example:

Example:

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On PE1

SUMMARY STEPS

DETAILED STEPS

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Configuring Frame Relay over L2TPv3 with LMI

On CE1

SUMMARY STEPS

DETAILED STEPS

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On PE1

SUMMARY STEPS

DETAILED STEPS

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Configuring Frame Relay L2TPv3 Tunnel Marking

SUMMARY STEPS

DETAILED STEPS

Example:

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