How ipv6 pim-dm works, Neighbor discovery, Spt establishment – H3C Technologies H3C SecPath F1000-E User Manual

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IPv6 PIM-DM assumes that at least one IPv6 multicast group member exists on each subnet of a

network, and therefore IPv6 multicast data is flooded to all nodes on the network. Then, branches

without IPv6 multicast forwarding are pruned from the forwarding tree, leaving only those branches
that contain receivers. This “flood and prune” process takes place periodically, that is, pruned

branches resume IPv6 multicast forwarding when the pruned state times out and then data is

re-flooded down these branches, and then are pruned again.

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When a new receiver on a previously pruned branch joins an IPv6 multicast group, to reduce the
join latency, IPv6 PIM-DM uses the graft mechanism to resume IPv6 multicast data forwarding to

that branch.

Generally speaking, the IPv6 multicast forwarding path is a source tree, namely a forwarding tree with

the IPv6 multicast source as its “root” and IPv6 multicast group members as its “leaves”. Because the
source tree is the shortest path from the IPv6 multicast source to the receivers, it is also called shortest path

tree (SPT).

How IPv6 PIM-DM Works

The working mechanism of IPv6 PIM-DM is summarized as follows:

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Neighbor discovery

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SPT establishment

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Graft

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Assert

Neighbor discovery

In an IPv6 PIM domain, a PIM router discovers IPv6 PIM neighbors, maintains IPv6 PIM neighboring

relationships with other routers, and builds and maintains SPTs by periodically multicasting IPv6 PIM

hello messages (hereinafter referred to as “hello messages”) to all other IPv6 PIM routers.

NOTE:

Every IPv6 PIM enabled interface on a router sends hello messages periodically, and thus learns the IPv6
PIM neighboring information pertinent to the interface.

SPT establishment

The process of constructing an SPT is the “flood and prune” process.

1.

In an IPv6 PIM-DM domain, an IPv6 multicast source first floods IPv6 multicast packets when it
sends IPv6 multicast data to IPv6 multicast group G: The packet is subject to an RPF check. If the

packet passes the RPF check, the router creates an (S, G) entry and forwards the packet to all

downstream nodes in the network. In the flooding process, an (S, G) entry is created on all the

routers in the IPv6 PIM-DM domain.

2.

Then, nodes without downstream receivers are pruned: A router having no down stream receivers
sends a prune message to the upstream node to notify the upstream node to delete the

corresponding interface from the outgoing interface list in the (S, G) entry and stop forwarding

subsequent packets addressed to that IPv6 multicast group down to this node.