Multicast static routes, Changing an rpf route – H3C Technologies H3C S7500E Series Switches User Manual

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forwarding table on Router C contains the (S, G) entry, with Vlan-interface20 as the RPF

interface.

Figure 4-1 RPF check process

z

When a multicast packet arrives on Vlan-interface20 of Router C, as the interface is the

incoming interface of the (S, G) entry, the router forwards the packet to all outgoing

interfaces.

z

When a multicast packet arrives on Vlan-interface10 of Router C, as the interface is not the

incoming interface of the (S, G) entry, the router performs an RPF check on the packet: The

router searches its unicast routing table and finds that the outgoing interface to Source (the

RPF interface) is Vlan-interface20. This means the (S, G) entry is correct and packet

arrived along a wrong path. The RPF check fails and the packet is discarded.

Multicast Static Routes

A multicast static route is an important basis for RPF check. Depending on the application

environment, a multicast static route has the following two functions:

Changing an RPF route

Typically, the topology structure of a multicast network is the same as that of a unicast network,

and multicast traffic follows the same transmission path as unicast traffic does. By configuring a

multicast static route for a given multicast source, you can change the RPF route so as to

create a transmission path for multicast traffic different from that for unicast traffic.