3com S7906E 설치 설명서

 

1-6 

Figure 1-3 Network diagram for IGMP SSM mapping 

SSM

IGMPv1 report

IGMPv2 report

IGMPv3 report

Router A

Host A (IGMPv1)

Host B (IGMPv2)

Host C (IGMPv3)

 

 

As shown in 

, on an SSM network, Host A, Host B and Host C are running IGMPv1, IGMPv2 

and IGMPv3 respectively. To provide SSM service for all the hosts while it is infeasible to run IGMPv3 on 

Host A and Host B, you need to configure the IGMP SSM mapping feature on Router A. 

With the IGMP SSM mapping feature configured, when Router A receives an IGMPv1 or IGMPv2 report, 

it checks the multicast group address G carried in the message: 

z 

If G is not in the SSM group range, Router A cannot provide the SSM service but the ASM service. 

z 

If G is in the SSM group range but no IGMP SSM mappings corresponding to the multicast group G 

have been configured on Router A, Router A cannot provide SSM service and drops the message. 

z 

If G is in the SSM group range and the IGMP SSM mappings have been configured on Router A for 

multicast group G, Router A translates the (*, G) information in the IGMP report into (G, INCLUDE, 

(S1, S2...)) information based on the configured IGMP SSM mappings and provides SSM service 

accordingly. 

 

z 

The IGMP SSM mapping feature does not process IGMPv3 reports. 

z 

For more information about the SSM group range, refer to PIM Configuration in the IP Multicast 

Volume. 

 

In some simple tree-shaped topologies, it is not necessary to configure complex multicast routing 

protocols, such as PIM, on the boundary devices. Instead, you can configure IGMP proxying on these 

devices. With IGMP proxying configured, the device serves as a proxy for the downstream hosts to 

send IGMP messages, maintain group memberships, and implement multicast forwarding based on the 

memberships. In this case, each boundary device is a host but no longer a PIM neighbor to the 

upstream device.