Multicast models, Asm model, Sfm model – H3C Technologies H3C S12500-X Series Switches User Manual

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Multicast models

Based on how the receivers treat the multicast sources, the multicast models include any-source multicast
(ASM), source-filtered multicast (SFM), and source-specific multicast (SSM).

ASM model

In the ASM model, any sender can send information to a multicast group as a multicast source, and

receivers can join a multicast group identified by a group address and get multicast information
addressed to that multicast group. In this model, receivers do not know the positions of the multicast

sources in advance. However, they can join or leave the multicast group at any time.

SFM model

The SFM model is derived from the ASM model. To a sender, the two models appear to have the same

multicast membership architecture.
The SFM model functionally extends the ASM model. The upper-layer software checks the source address

of received multicast packets and permits or denies multicast traffic from specific sources. Therefore,

receivers can receive the multicast data from only part of the multicast sources. To a receiver, multicast

sources are not all valid, but are filtered.

SSM model

Users might be interested in the multicast data from only certain multicast sources. The SSM model

provides a transmission service that enables users to specify at the client side the multicast sources in

which they are interested.
The main difference between the SSM model and the ASM model is that in the SSM model, receivers
have already determined by some other means the locations of the multicast sources. In addition, the

SSM model uses a multicast address range that is different from the ASM/SFM model. Dedicated

multicast forwarding paths are established between receivers and the specified multicast sources.

Multicast architecture

IP multicast addresses the following issues:

•

Where should the multicast source transmit information to? (Multicast addressing.)

•

What receivers exist on the network? (Host registration.)

•

Where is the multicast source that will provide data to the receivers? (Multicast source discovery.)

•

How should information be transmitted to the receivers? (Multicast routing.)

IP multicast is an end-to-end service. The multicast architecture involves the following parts:

•

Addressing mechanism—A multicast source sends information to a group of receivers through a
multicast address.

•

Host registration—Receiver hosts can join and leave multicast groups dynamically. This mechanism
is the basis for management of group memberships.

•

Multicast routing—A multicast distribution tree (a forwarding path tree for multicast data on the
network) is constructed for delivering multicast data from a multicast source to receivers.

•

Multicast applications—A software system that supports multicast applications, such as video
conferencing, must be installed on multicast sources and receiver hosts. The TCP/IP stack must

support reception and transmission of multicast data.