icnd210 s02l02
TRANSCRIPT
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© 2007 Cisco Systems, Inc. All rights reserved. ICND2 v1.0—2-1
Medium-Sized Switched Network Construction
Improving Performance with Spanning Tree
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© 2007 Cisco Systems, Inc. All rights reserved. ICND2 v1.0—2-2
Interconnection Technologies
Technology Use
Fast Ethernet Connects end-user devices to the access layer switch
Gigabit Ethernet Connects access switch to distribution switch and high use servers to switches
10-Gigabit Ethernet
Provides high-speed switch to switch links, backbones
EtherChannel Provides high-speed switch to switch links, backbones with redundancy
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Determining Equipment and Cabling Needs
Each link provides adequate bandwidth for the total aggregate traffic over that link.
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Advantages of EtherChannel
Logical aggregation of similar links between switches
Load-shares across links
Viewed as one logical port to STP
Redundancy
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Redundant Topology
Redundant topology eliminates single points of failure.
Redundant topology causes broadcast storms, multiple frame copies, and MAC address table instability problems.
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Station D sends a broadcast frame.
Broadcast frames are flooded to all ports except the originating port.
Broadcast Frames
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Broadcast Storms
Host X sends a broadcast. Switches continue to propagate
broadcast traffic over and over.
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Multiple Frame Copies
Host X sends a unicast frame to router Y. The MAC address of router Y has not been
learned by either switch. Router Y will receive two copies of the same frame.
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Host X sends a unicast frame to router Y. The MAC address of router Y has not been learned by either switch. Switches A and B learn the MAC address of host X on port 1. The frame to router Y is flooded. Switches A and B incorrectly learn the MAC address of host X on port 2.
MAC Database Instability
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Provides a loop-free redundant network topology by placing certain ports in the blocking state
Published in the IEEE 802.1D specification
Enhanced with the Cisco PVST+ implementation
Loop Resolution with STP
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Spanning-Tree Operation One root bridge per broadcast domain.
One root port per nonroot bridge.
One designated port per segment.
Nondesignated ports are unused.
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STP Root Bridge Selection
BPDU (default = sent every 2 seconds)
Root bridge = bridge with the lowest bridge ID
Bridge ID =BridgePriority
MACAddress
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Spanning tree transits each port through several different states:
Spanning-Tree Port States
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Describing PortFast
PortFast is configured on access ports, not trunk ports.
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Configuring and Verifying PortFast
spanning-tree portfast
SwitchX(config-if)#
Configures PortFast on an interface
spanning-tree portfast default
SwitchX(config)#
Enables PortFast on all non-trunking interfaces
show running-config interface interface
SwitchX#
Verifies that PortFast has been configured on an interface
OR
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Spanning-Tree Operation Example
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Spanning-Tree Path Cost
Link SpeedCost (Revised IEEE
Specification)Cost (Previous IEEE
Specification)
10 Gb/s 2 1
1 Gb/s 4 1
100 Mb/s 19 10
10 Mb/s 100 100
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Spanning-Tree Recalculation
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Per VLAN Spanning Tree Plus
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PVST+ Extended Bridge ID
Bridge ID without the extended system ID
Extended bridge ID with system ID
System ID = VLAN
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Rapid Spanning Tree Protocol
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Default Spanning-Tree Configuration
Cisco Catalyst switches support three types of STPs:
– PVST+
– PVRST+
– MSTP
The default STP for Cisco Catalyst switches is PVST+ :
– A separate STP instance for each VLAN
– One root bridge for each VLANs
– Load sharing
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PVRST+ Configuration Guidelines
1. Enable PVRST+.
2. Designate and configure a switch to be the root bridge.
3. Designate and configure a switch to be the secondary root bridge.
4. Verify the configuration.
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PVRST+ Implementation Commands
spanning-tree mode rapid-pvst
SwitchX(config)#
Configures PVRST+
show spanning-tree vlan vlan# [detail]
SwitchX#
Verifies the spanning-tree configuration
debug spanning-tree pvst+
SwitchX#
Displays PVST+ event debug messages
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Verifying PVRST+
The spanning-tree mode is set to PVRST.
SwitchX# show spanning-tree vlan 30 VLAN0030Spanning tree enabled protocol rstpRoot ID Priority 24606Address 00d0.047b.2800This bridge is the rootHello Time 2 sec Max Age 20 sec Forward Delay 15 secBridge ID Priority 24606 (priority 24576 sys-id-ext 30) Address 00d0.047b.2800Hello Time 2 sec Max Age 20 sec Forward Delay 15 secAging Time 300Interface Role Sts Cost Prio.Nbr Type-------- ----- --- --- -------- ----Gi1/1 Desg FWD 4 128.1 P2pGi1/2 Desg FWD 4 128.2 P2pGi5/1 Desg FWD 4 128.257 P2p
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Configuring the Root and Secondary Bridges
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Configuring the Root and Secondary Bridges: SwitchA
spanning-tree vlan 1 root primary
This command forces this switch to be the root for VLAN 1.
spanning-tree vlan 2 root secondary
This command configures this switch to be the secondary root for VLAN 2.
OR
spanning-tree vlan # priority priority
This command statically configures the priority (increments of 4096).
SwitchA(config)#
SwitchA(config)#
SwitchA(config)#
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Configuring the Root and Secondary Bridges: SwitchB
spanning-tree vlan 2 root primary
This command forces the switch to be the root for VLAN 2.
spanning-tree vlan 1 root secondary
This command configures the switch to be the secondary root VLAN 1.
OR
spanning-tree vlan # priority priority
This command statically configures the priority (increments of 4096).
SwitchB(config)#
SwitchB(config)#
SwitchB(config)#
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Summary
A redundant switched topology includes multihomed switches and EtherChannel.
A redundant switched topology causes looping issues such as broadcast storms.
The 802.1D STP establishes a loop-free network.
The original STP has been enhanced by PVST+ and RSTP.
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