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0 over 255-byte pkts, 7 over 511-byte pkts, 34 over 1023-byte pkts

70 Multicasts, 0 Broadcasts

0 runts, 0 giants, 0 throttles

0 CRC, 0 overrun, 0 discarded

Output Statistics:

438 packets, 270449 bytes, 0 underruns

0 64-byte pkts, 57 over 64-byte pkts, 181 over 127-byte pkts

54 over 255-byte pkts, 0 over 511-byte pkts, 146 over 1023-byte pkts

72 Multicasts, 0 Broadcasts, 221 Unicasts

0 throttles, 0 discarded, 0 collisions, 0 wredDrops

Rate info (interval 45 seconds):

Input 00.00 Mbits/sec, 0 packets/sec, 0.00% of line-rate

Output 00.00 Mbits/sec, 0 packets/sec, 0.00% of line-rate

Failure Scenarios

The following sections describe some of the common fault conditions that can happen in a switch stack and how they are resolved.

Stack Member Fails

• Problem: A unit that is not the stack master fails in an operational stack.

• Resolution: If a stack member fails in a daisy chain topology, a split stack occurs. If a member unit fails in a ring topology, traffic is re-

routed over existing stack links.

The following syslog messages are generated when a member unit fails:

Dell#May 31 01:46:17: %STKUNIT3-M:CP %IPC-2-STATUS: target stack unit 4 not responding

May 31 01:46:17: %STKUNIT3-M:CP %CHMGR-2-STACKUNIT_DOWN: Major alarm: Stack unit 4 down - IPC

timeout

Dell#May 31 01:46:17: %STKUNIT3-M:CP %IFMGR-1-DEL_PORT: Removed port: Te 4/1-32,41-48, Fo 4/

49,53

Dell#May 31 01:46:18: %STKUNIT5-S:CP %IFMGR-1-DEL_PORT: Removed port: Te 4/1-32,41-48, Fo 4/

49,53

Unplugged Stacking Cable

• Problem: A stacking cable is unplugged from a member switch. The stack loses half of its bandwidth from the disconnected switch.

• Resolution: Intra-stack traffic is re-routed on a another link using the redundant stacking port on the switch. A recalculation of control

plane and data plane connections is performed.

Master Switch Fails

• Problem: The master switch fails due to a hardware fault, software crash, or power loss.

• Resolution: A failover procedure begins:

1 Keep-alive messages from the Aggregator master switch time out after 60 seconds and the switch is removed from the stack.

2 The standby switch takes the master role. Data traffic on the new master switch is uninterrupted. Protocol traffic is managed by the

control plane.

3 A member switch is elected as the new standby. Data traffic on the new standby is uninterrupted. The control plane prepares for

operation in Warm Standby mode.

Stacking

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