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NE40E V800R010C00 Feature Description - VPN 01

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Huawei uses machine translation combined with human proofreading to translate this document to different languages in order to help you better understand the content of this document. Note: Even the most advanced machine translation cannot match the quality of professional translators. Huawei shall not bear any responsibility for translation accuracy and it is recommended that you refer to the English document (a link for which has been provided).
Enterprise Leased Line Service Bearer Using PWE3

Enterprise Leased Line Service Bearer Using PWE3

Service Overview

As globalization gains momentum, more and more enterprises set up branches in foreign countries and requirements for office flexibility are increasing. An urgent demand for carriers is to provide Layer 2 links for enterprises to set up their own enterprise networks, so that enterprise employees can conveniently visit enterprise intranets from outside their offices.

Various types of backbone networks have been constructed by carriers, using different technologies. For example, carriers construct backbone public switched telephone networks (PSTNs) to carry voice services, HDLC backbone networks to carry HDLC data, and ATM backbone networks to transmit ATM data. With the exponential growth of IP services, carriers have also constructed IP backbone networks. In addition to the backbone networks, diverse access networks are constructed, which are of different types and difficult to achieve interoperability. Therefore, it is a crucial task for carriers to find a method to effectively integrate these networks, enhance network utilization, and provide more types of services to users.

VPWS is a key technology to the MAN. VPWS enables the original access mode to be well integrated with existing IP backbone networks. This implementation reduces repetitious network construction and operational costs. With VPWS, the IP backbone network joins diverse access networks, achieving extension to and enhancement of the conventional data network. After the MPLS backbone network is constructed, the conventional data communications networks, such as HDLC and point-to-point protocol (PPP) networks, can function as access networks. Users, however, are not aware of such changes in the network architecture. In addition, VPWS enables access networks using different protocols to interwork with each other. For example, HDLC users and PPP users can communicate with each other.

Usage Scenario

Figure 8-36 shows a typical single-segment VPWS application, with the IP network being the backbone network. Different LANs access the backbone network.

A carrier constructs a national backbone network that provides VPWS services to a client with two branches, one in City A, and the other in City B. The branch in City A accesses the backbone network using PPP, whereas the branch in City B accesses the backbone network using HDLC or PPP. In this situation, the carrier can establish a VPWS connection between the two access points, that is, PE1 in City A and PE2 in City B.

In so doing, the carrier can provide the user point-to-point VPN services that traverse the Wide Area Network (WAN). Besides establishing a VPWS connection, no other special measures have to be taken by the carrier. With the simple and convenient VPWS solution, the user can enjoy point-to-point VPN services without having to modify the original intranet, and the carrier can implement smooth transition to the IP backbone network without having to modify existing access modes.

Figure 8-36  Typical VPWS application

Feature Deployment

  1. IP addresses and IGPs are configured on the carrier's MPLS backbone network for communication between PEs.
  2. MPLS is enabled on the carrier's backbone network. TE tunnels are configured between PE1 and PE2. Usually, two TE tunnels are configured between PE1 and PE2, one as the primary tunnel and the other as the backup tunnel.
  3. MPLS L2VPN is enabled on PE1 and PE2 and a remote MPLS LDP session is configured between PE1 and PE2.
  4. PWE3 is configured on the AC interfaces of PE1 and PE2, so that PE1 and PE2 can communicate over MPLS L2VCs.
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Updated: 2018-07-04

Document ID: EDOC1100027166

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