Pw full mesh and split horizon, H-vpls, H-vpls access modes – H3C Technologies H3C S6800 Series Switches User Manual

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Multicast and broadcast traffic forwarding and flooding

After a PE receives a multicast or broadcast packet from an AC, the PE floods the packet to all other ACs

and the PWs in the VSI bound to the AC.
After a PE receives a multicast or broadcast packet from a PW, the PE floods the packet to all ACs in the

VSI bound to the PW.

PW full mesh and split horizon

A loop prevention protocol such as STP is required in a Layer 2 network to avoid loops. However,
deploying a loop prevention protocol on PEs brings management and maintenance difficulties. Therefore,

VPLS uses the following methods to prevent loops:

•

Full mesh—Every two PEs in a VPLS instance must establish a PW to create a full mesh of PWs
among PEs in the VPLS instance.

•

Split horizon—A PE does not forward packets received from a PW to any other PW in the same VSI
but only forwards those packets to ACs.

H-VPLS

VPLS requires a full mesh of PWs among all PEs in a VPLS instance. In a large-scale network, however, a

full mesh of PWs causes very high PW signaling overhead and creates difficulties for network

management and expansion. Hierarchical VPLS (H-VPLS) reduces the number of PWs by dividing a VPLS
network into a backbone domain and edge domains.
Only static PWs and LDP PWs support H-VPLS.
In H-VPLS:

•

An edge domain provides access for a user network to the backbone domain.

•

The Network Provider Edge (NPE) devices are fully meshed in the backbone domain. A PW
between NPEs is referred to as an N-PW.

•

A User facing-Provider Edge (UPE) device only establishes a PW with the neighboring NPE. A PW
between a UPE and an NPE is referred to as a U-PW.

H-VPLS access modes

Two access modes are available in H-VPLS: MPLS access and Ethernet access.

Figure 96 H-VPLS using MPLS access

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