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Cisco IOS Software Configuration Guide for Cisco Aironet Access Points
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Chapter8 Configuring Spanning Tree Protocol
Understanding Spanning Tree Protocol
it can create temporary data loops. Interfaces must wait for new topology information to propagate
through the LAN before starting to forward frames. They must allow the frame lifetime to expire for
forwarded frames that have used the old topology.
Each interface on a access point using spanning tree exists in one of these states:
Blocking—The interface does not participate in frame forwarding.
Listening—The first transitional state after the blocking state when the spanning tree determines
that the interface should participate in frame forwarding.
Learning—The interface prepares to participate in frame forwarding.
Forwarding—The interface forwards frames.
Disabled—The interface is not participating in spanning tree because of a shutdown port, no link on
the port, or no spanning-tree instance running on the port.
An interface moves through these states:
From initialization to blocking
From blocking to listening or to disabled
From listening to learning or to disabled
From learning to forwarding or to disabled
From forwarding to disabled
Figure 8-2 illustrates how an interface moves through the states.
Figure8-2 Spanning-Tree Interface States
When you enable STP on the access point, the Ethernet and radio interfaces go through the blocking state
and the transitory states of listening and learning. Spanning tree stabilizes each interface at the
forwarding or blocking state.
When the spanning-tree algorithm places a Layer 2 interface in the forwarding state, this process occurs:
1. The interface is in the listening state while spanning tree waits for protocol information to transition
the interface to the blocking state.
Power-on
initialization
Blocking
state
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Listening
state
Disabled
state
Learning
state
Forwarding
state