How rrpp works, Polling mechanism, Link down alarm mechanism – H3C Technologies H3C S12500 Series Switches User Manual

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How RRPP works

Polling mechanism

The polling mechanism is used by the master node of an RRPP ring to check the Health state of the ring

network.
The master node sends Hello packets out of its primary port periodically, and these Hello packets travel
through each transit node on the ring in turn.

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If the ring is complete, the secondary port of the master node will receive Hello packets before the
Fail timer expires and the master node will keep the secondary port blocked.

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If the ring is torn down, the secondary port of the master node will fail to receive Hello packets
before the Fail timer expires. The master node will release the secondary port from blocking data

VLANs and sending Common-Flush-FDB packets to instruct all transit nodes to update their own

MAC entries and ARP/ND entries.

Link down alarm mechanism

The transit node, the edge node or the assistant-edge node sends Link-Down packets to the master node

immediately when they find any of its own ports belonging to an RRPP domain is down. Upon the receipt

of a Link-Down packet, the master node releases the secondary port from blocking data VLANs and

sending Common-Flush-FDB packet to instruct all the transit nodes, the edge nodes and the
assistant-edge nodes to update their own MAC entries and ARP/ND entries. After each node updates its

own entries, traffic is switched to the normal link.

Ring recovery

The master node might find the ring is restored after a period of time after the ports belonging to the RRPP

domain on the transit nodes, the edge nodes, or the assistant-edge nodes are brought up again. A
temporary loop might arise in the data VLAN during this period. As a result, broadcast storm occurs.
To prevent temporary loops, non-master nodes block them immediately (and permit only the packets from

the control VLAN to pass through) when they find their ports accessing the ring are brought up again.

The blocked ports are activated only when the nodes are sure that no loop will be generated by these
ports.

Broadcast storm suppression mechanism in case of SRPT failure in a multi-homed subring

As shown in

Figure 15

, Ring 1 is the primary ring, and Ring 2 and Ring 3 are subrings. When the two

SRPTs between the edge node and the assistant-edge node are down, the master nodes of Ring 2 and

Ring 3 will open their respective secondary ports, generating a loop among Device B, Device C, Device
E, and Device F and causing a broadcast storm.
To prevent generating a loop, the edge node will temporarily block the edge port. The blocked edge port

is activated only when the edge node is sure that no loop will be generated when the edge port is

activated.

Load balancing

In a ring network, traffic from multiple VLANs might be transmitted at the same time. RRPP can implement

load balancing for the traffic by transmitting traffic from different VLANs along different paths.
By configuring an individual RRPP domain for transmitting the traffic from the specified VLANs (protected

VLANs) in a ring network, traffic from different VLANs can be transmitted according to different
topologies in the ring network for load balancing.