Related Documentation
- M, MX, PTX, T Series
- Layer 2 VPN Applications
- Using the Layer 2 Interworking Interface to Interconnect a Layer 2 Circuit to a Layer 2 VPN
- Interconnecting Layer 2 VPNs with Layer 3 VPNs Overview
- Example: Interconnecting a Layer 2 VPN with a Layer 2 VPN
- Example: Interconnecting a Layer 2 Circuit with a Layer 2 VPN
- M, MX, T Series
- Using the Layer 2 Interworking Interface to Interconnect a Layer 2 VPN to a Layer 2 VPN
- Example: Interconnecting a Layer 2 VPN with a Layer 3 VPN
Layer 2 VPN Overview
As the need to link different Layer 2 services to one another for expanded service offerings grows, Layer 2 Multiprotocol Label Switching (MPLS) VPN services are increasingly in demand.
Implementing a Layer 2 VPN on a router is similar to implementing a VPN using a Layer 2 technology, such as Asynchronous Transfer Mode (ATM). However, for a Layer 2 VPN on a router, traffic is forwarded to the router in a Layer 2 format. It is carried by MPLS over the service provider’s network, and then converted back to Layer 2 format at the receiving site. You can configure different Layer 2 formats at the sending and receiving sites. The security and privacy of an MPLS Layer 2 VPN are equal to those of an ATM or Frame Relay VPN. The service provisioned with Layer 2 VPNs is also known as Virtual Private Wire Service (VPWS).
On a Layer 2 VPN, routing typically occurs on the customer edge (CE) router. The CE router connected to a service provider on a Layer 2 VPN must select the appropriate circuit on which to send traffic. The provider edge (PE) router receiving the traffic sends the traffic across the service provider’s network to the PE router connected to the receiving site. The PE routers do not need to store or process the customer’s routes; they only need to be configured to send data to the appropriate tunnel. For a Layer 2 VPN, customers need to configure their own routers to carry all Layer 3 traffic. The service provider needs to know only how much traffic the Layer 2 VPN will need to carry. The service provider’s routers carry traffic between the customer’s sites using Layer 2 VPN interfaces. The VPN topology is determined by policies configured on the PE routers.
Because Layer 2 VPNs use BGP as the signaling protocol, they have a simpler design and require less overhead than traditional VPNs over Layer 2 circuits. BGP signaling also enables autodiscovery of Layer 2 VPN peers. Layer 2 VPNs are similar to BGP or MPLS VPNs and VPLS in many respects; all three types of services employ BGP for signaling.
Related Documentation
- M, MX, PTX, T Series
- Layer 2 VPN Applications
- Using the Layer 2 Interworking Interface to Interconnect a Layer 2 Circuit to a Layer 2 VPN
- Interconnecting Layer 2 VPNs with Layer 3 VPNs Overview
- Example: Interconnecting a Layer 2 VPN with a Layer 2 VPN
- Example: Interconnecting a Layer 2 Circuit with a Layer 2 VPN
- M, MX, T Series
- Using the Layer 2 Interworking Interface to Interconnect a Layer 2 VPN to a Layer 2 VPN
- Example: Interconnecting a Layer 2 VPN with a Layer 3 VPN
Published: 2012-11-29
Related Documentation
- M, MX, PTX, T Series
- Layer 2 VPN Applications
- Using the Layer 2 Interworking Interface to Interconnect a Layer 2 Circuit to a Layer 2 VPN
- Interconnecting Layer 2 VPNs with Layer 3 VPNs Overview
- Example: Interconnecting a Layer 2 VPN with a Layer 2 VPN
- Example: Interconnecting a Layer 2 Circuit with a Layer 2 VPN
- M, MX, T Series
- Using the Layer 2 Interworking Interface to Interconnect a Layer 2 VPN to a Layer 2 VPN
- Example: Interconnecting a Layer 2 VPN with a Layer 3 VPN
