Splitting a stack, Appendix b, About switch stacking – Linksys SLM224G4S User Manual



About Switch Stacking

Appendix B

24/48-Port 10/100 + 4-Port Gigabit Resilient Clustering Smart Switch with 2 Combo SFPs

If the incoming unit already has an assigned Unit

ID, and that Unit ID is unused in the current stack,

the incoming unit will keep its assigned Unit ID

and the Master will apply to it any configuration

relevant to that Unit ID.
If the incoming unit already has an assigned Unit

ID, and that Unit ID conflicts with a unit ID in the

current stack, the Master will reallocate a new

Unit ID to the incoming unit, giving it the lowest

available Unit ID (assuming, of course, that the

incoming unit does not have a manually assigned

Unit ID, which the Master cannot change).
If the incoming unit cannot be assigned an

available Unit ID for any reason (in the case of unit

replacement that can only happen if the incoming

unit has a manually assigned Unit ID), then it will

be effectively shut down—that is, it will not be

joined to the stack.

The stack Master will now carry out Unit and port

configuration for the incoming unit.

Any configuration information the Master has

that is relevant to the number assigned to the

incoming unit will be applied. In particular, if the

incoming unit was assigned the same Unit ID of

the unit it replaces, then it will receive the same

configuration as the failed unit, to the extent

possible, as described in section “Replacing a

Failed Stack Member in a Running Stack“ above.

Splitting a Stack

In this example, let us assume that a working stack is

split into two groups, either by failure of a stacking link

connecting two units in the stack or by a failed unit in a

chain topology which causes disconnection between two

units in the stack. In this case we should consider each

subgroup as an independent running stack configuration.

For each subgroup three suboptions will be considered:

Both the Master unit and the Backup master unit are

part of the subgroup.
Either the Master unit or the Backup master unit are

part of the subgroup.
Neither the Master unit nor the Backup Master unit are

part of the subgroup.

The following describes what happens within each

subgroup for each of these three suboptions.

Subgroup Contains Both Master Unit and Backup Master Unit

Nothing changes, except the master sees the missing

units as having been removed, and routes traffic

around them, as described in section “Replacing a

Failed Stack Member in a Running Stack” above.

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3.

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Since this subgroup contains both master and backup,

the subgroup works, and the other subgroup will not

work. Refer to step 3 below for detailed information.
The sequence of actions is as follows:

The Master Discovery, Master Election and Unit ID

Allocation & Duplicate Unit ID Conflict Resolution

processes will be executed.
Any configuration information that the Master

has that is relevant to the units remaining in the

subgroup will remain unchanged.
Topology information (the information for each

unit on how to send traffic to any other unit in the

stack) managed by the master will include only

units that are reachable (connected) following the

split.
The subgroup continues to work as before, except

that the number of the unit is lower than prior to

the split.
No unit ID changes are made in either subgroup.
The Master notifies the system administrator (using

SYSLOG messages and SNMP traps) of the removed

units and ports which belong to the unreachable

units and will be reported as ‘not present’.

Subgroup Contains Either Master Unit or Backup Master Unit

If the Master unit remains in this subgroup,

this is the same as described in section

“Replacing a Failed Stack Member in a Running

Stack” above. If the Backup Master unit remains in

this subgroup, then this is the same as section “Stack

Master Failure and Replacement” above.
It should be emphasized that if the stack is split into

two parts, one with the master and one with the

backup, both parts will work.
The sequence of actions is as follows:

The Master Discovery, Master Election and Unit ID

Allocation & Duplicate Unit ID Conflict Resolution

processes will be executed.
If the subgroup contains the Master unit, the

stack Master notices (using the master detection

process) that some units no longer respond. At

the same time the stack Master notifies the system

administrator (using SYSLOG messages and SNMP

traps) of the removed units and ports which belong

to the unreachable units and will be reported as

‘not present’.
If the subgroup contains the Backup Master unit,

the Backup Master will see as a case of Master

failure and take over and manage the remaining

units as a stack, while keeping its number as it was

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a.

b.

c.

d.

e.
f.

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a.

b.

c.