Circuit failover grouping, Circuit failover, Grouping – Brocade Network Advisor SAN + IP User Manual v12.1.0 User Manual

Brocade Network Advisor SAN + IP User Manual

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FCIP trunking

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If a low metric circuit becomes available again, the high metric circuits return to standby
status, and the available bandwidth is updated again as each circuit comes online. For
example, if circuit 0 is recovered, the available bandwidth is updated as 1 Gbps. If circuit 1 is
also recovered, the available bandwidth is updated as 1.5 Gbps.

Circuit Failover Grouping

With Circuit Failover Grouping you can better control which metric 1 circuits will be activated if a
metric 0 circuit fails. For this feature, you define a set of metric 0 and metric 1 circuits that are part
of the same failover group. When all metric 0 circuits in the group fail, metric 1 circuits will take
over data transfer, even if there are metric 0 circuits still active in other failover groups.

Typically, you would only define one metric 0 circuit in the group so that a specific metric 1 circuit
will take over data transfer when the metric 0 fails. This will also avoid the problem of the tunnel
operating in a degraded mode with less than the defined circuits before multiple metric 0 circuits
fail.

Configure failover groups using the Add FCIP Circuit dialog box. Refer to

“Adding an FCIP circuit”

on

page 1123 for instructions.

Considerations and limitations

Failover groups operate under the following conditions;

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Each failover group is independent and operates autonomously.

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All metric 0 circuits in a group must fail before the metric 1 circuits are used.

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All metric 1 circuits in a group are used if all metric 0 circuits in the group fail or there is no
metric 0 circuit in the group.

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Circuits can be part of only one failover group

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Failover circuit groups are only supported at Fabric OS v7.2.0 or greater.

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Both ends of the FCIP tunnel must have the same failover circuit groups defined for the feature
to function properly.

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When a tunnel activates or circuits are modified, tunnel and circuit states will indicate a
misconfiguration error if failover circuit group configurations are not valid.

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Modifying of the failover group ID is a disruptive operation, similar to modifying the metric.

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Circuit failover groups are not used to define load balancing over metric 0 circuits, (ONLY
failover rules). Circuits of metric 0 will be load balanced over regardless of failover grouping.

•

When no FCIP circuit failover groups are defined, failover reverts to default operation - all
metric 0 circuits must fail before failing over to metric 1 circuit(s). In order to change default
failover operation, a failover group should include at least one metric 0 and at least metric 1
circuit.

•

A valid failover group requires at least one metric 0 circuit and at least one metric 1 circuit. If
you do not configure these, a warning will display. If there is no metric 0 circuit and only a
metric 1 circuit, the metric 1 circuit will be used, regardless of whether there are metric 0
circuits in another failover group.

•

The number of valid failover groups defined per tunnel is limited by the number of circuits that
you can create for the switch model. For an 8 Gbps Extension Blade, you can configure up to 5
valid groups on an 10-circuit tunnel. On an 8 Gbps Extension Switch, you could have up to 3
valid groups because you can only configure 6 circuits per tunnel.