| Chapter
Review |
|
| Chapter
Overview |
|
| 5.1 |
Basic STP Operations
| 5.1.1 |
Usefulness of STP |
| 5.1.2 |
Broadcast
loops |
| 5.1.3 |
Bridge-table
corruption |
| 5.1.4 |
Bridge
identification |
| 5.1.5 |
Path cost |
| 5.1.6 |
Four-step STP
decision sequence |
|
|
| 5.2 |
STP Processes
| 5.2.1 |
Three steps
of initial STP convergence |
| 5.2.2 |
Root-bridge
elections |
| 5.2.3 |
Electing root
ports |
| 5.2.4 |
Electing
designated ports |
| 5.2.5 |
Spanning-Tree
port states |
| 5.2.6 |
STP timers |
| 5.2.7 |
Topology
changes and STP |
| 5.2.8 |
Spanning-Tree
example |
| 5.2.9 |
Enabling and
verifying Spanning Tree |
|
|
| 5.3 |
VLANs and STP
| 5.3.1 |
Per-VLAN STP |
| 5.3.2 |
Common STP |
| 5.3.3 |
Per-VLAN
Spanning Tree plus (PVST+) |
|
|
| 5.4 |
STP in the Campus Network
| 5.4.1 |
Establishing
a root bridge |
| 5.4.2 |
Determining
the best loop-free path to the root bridge |
| 5.4.3 |
Configure the
port cost |
| 5.4.4 |
Modifying
port priority |
| 5.4.5 |
Modifying
port priority by VLAN |
| 5.4.6 |
Modifying STP
timers |
|
|
| 5.5 |
Redundant Links
| 5.5.1 |
EtherChannel
technology |
| 5.5.2 |
Port
aggregation protocol |
| 5.5.3 |
EtherChannel
rules of the road |
| 5.5.4 |
Configuring
fast EtherChannel |
| 5.5.5 |
Configuring
PortFast |
| 5.5.6 |
Configuring
UplinkFast |
| 5.5.7 |
Configuring
BackboneFast |
|
|
| Chapter
Summary
Chapter Quiz
|
|