Rrpp timers – H3C Technologies H3C S10500 Series Switches User Manual

53

Type Description

Fast-Hello

The master node initiates Fast-Hello packets to fast detect the integrity of a ring in
a network.

Link-Down

The transit node, the edge node, or the assistant-edge node initiates Link-Down
packets to notify the master node of the disappearance of a ring in case of a link

failure.

Common-Flush-FDB

The master node initiates Common-Flush-FDB (FDB stands for Forwarding
Database) packets to instruct the transit nodes to update their own MAC entries

and ARP/ND entries when an RRPP ring transits to Disconnect state.

Complete-Flush-FDB

The master node initiates Complete-Flush-FDB packets to instruct the transit nodes
to update their own MAC entries and ARP/ND entries and release blocked ports

from being blocked temporarily when an RRPP ring transits to Health state.

Edge-Hello

The edge node initiates Edge-Hello packets to examine the SRPTs between the
edge node and the assistant-edge node.

Fast-Edge-Hello

The edge node initiates Fast-Edge-Hello packets to fast examine the SRPTs
between it and the assistant-edge node.

Major-Fault

The assistant-edge node initiates Major-Fault packets to notify the edge node of
SRPT failure when an SRPT between edge node and assistant-edge node is torn

down.

NOTE:

RRPPDUs of subrings are transmitted as data packets in the primary ring, and RRPPDUs of the primary ring
can only be transmitted within the primary ring.

RRPP timers

When RRPP checks the link state of an Ethernet ring, the master node sends Hello packets out the primary

port according to the Hello timer and determines whether its secondary port receives the Hello packets

based on the Fail timer.

•

The Hello timer specifies the interval at which the master node sends Hello packets out the primary
port.

•

The Fail timer specifies the maximum delay between the master node sending Hello packets out the
primary port and the secondary port receiving the Hello packets from the primary port. If the

secondary port receives the Hello packets sent by the local master node before the Fail timer expires,
the overall ring is in the Health state. Otherwise, the ring transits into the Disconnect state.

•

The Fast-Hello timer specifies the interval at which the master node sends Fast-Hello packets out the
primary port.

•

The Fast-Fail timer specifies the maximum delay between the master node sending Fast-Hello
packets out the primary port and the secondary port receiving the Fast-Hello packets from the

primary port. If the secondary port receives the Fast-Hello packets sent by the local master node

before the Fast-Fail timer expires, the entire ring is in the Health state. Otherwise, the ring transits

into the Disconnect state.