Spanning Tree Protocol: Difference between revisions

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== __________WORK IN PROGRESS____________________WORK IN PROGRESS____________________WORK IN PROGRESS____________________WORK IN PROGRESS__________ ==
''The Spanning Tree Protocol’s purpose is preventing bridging loops and allows a network to quickly recover if the primary path fails. STP was invented by Radia Perlman from the Digital Equipment Corporation.




''The Spanning Tree Protocol’s purpose is preventing bridging loops and allows a network to quick recover if the primary path fails. STP was invented by Radia Perlman from the Digital Equipment Corporation.


''Spanning-Tree Protocol is a way to have redundant paths and stop loops from having. All Ethernet networks only work well if there is only one path between two points. Having many different paths will cause loops in a network. This is because frames might be duplicated. The Spanning-Tree protocol will define all switches in the network. The algorithm will automatically change the STP topology by activating or inactivating certain paths, so that only one path will be present between two points. The end-devices do not know if they are connected to one network or many networks.''




''Spanning-Tree Protocol is a way to have redundant paths and stop loops from having. All Ethernet networks only work well if there is only one path between two points. Having many different paths will cause loops in a network. This cause frames to be duplicated. The Spanning-Tree protocol will define all switches in the network. The algorithm will automatically change the STP topology by activating or inactivating certain paths, so that only one path will be present between two points. The end-devices do not know they are connected to one network or many networks.''


== '''Election of the Root Switch''' ==




'''Election of the Root Switch'''
''The switches in the network gather information with the exchange of data messages. These are called bridge protocol data units (BPDUs). There is an election for a root switch on every LAN segment. To stop loops STP puts redundant switches ports into a backup state. The root switch is the place where the STP algorithm runs. All other paths not needed to reach the root switch are put in to backup mode''
 
''The switches in the network gather information with the exchange of data messages. These are called bridge protocol data units (BPDUs). There is an election for a root switch on every LAN segment. To stop loops STP by putting redundant switches ports into a backup state. The root switch is the place where the STP algorithm runs. All other paths not needed to reach the root switch are put in to backup mode''




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|}
|}


'''Information a BPDU contains'''
 
== '''Information a BPDU contains''' ==
 
*MAC addresses
*MAC addresses
*Switch priority
*Switch priority
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'''STP Steps'''
*Elects a root bridge
*Only one bridge can exist per VLAN
*Designated ports send and receive traffic and configuration trafic called BPDUs
*The switch with the lowest priority will become the root bridge


*Selects the root port for all other switches
One port on all switches, that are not root bridges,
This port is the lowest cost path to the root bridge.
If two ports have the same priority, the lowest port number will become the root port.


== '''STP Steps''' ==


'''STP Steps'''
*Elects a root bridge  
*Elects a root bridge  
**Only one bridge can exist per VLAN
**Only one bridge can exist per VLAN
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*Selects the root port for all other switches
*Selects the root port for all other switches
**One port on all switches, that are not root bridges,
**One port on all switches, that are not root bridges
**This port is the lowest cost path to the root bridge.
**This port is the lowest cost path to the root bridge.
**If two ports have the same priority, the lowest port number will become the root port.
**If two ports have the same priority, the lowest port number will become the root port.


'''Port Roles on a Nondesignated Switch'''
 
 
 
'''Port Roles'''
{| {{table}}
{| {{table}}
| align="center" style="background:#f0f0f0;"|'''Port'''
| align="center" style="background:#f0f0f0;"|'''Port'''
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|  
|  
|-
|-
| '''Designated''' ||This port is on the root bridge and on the nonroot bridges. All switch ports are designated ports. There can only be one designated port per segment, unless it’s the root bridge where all the ports are designated ports. If there is more than one switch in the segment, an election will be held.  
| '''Designated''' ||This port is on the root bridge and on the nonroot bridges. There can only be one designated port per segment, unless it’s the root bridge where all the ports are designated ports. If there is more than one switch in the segment, an election will be held.  
|-
|-
|  
|  
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|  
|  
|-
|-
| '''Listening'''||According to the amount of BPDUs spanning tree tells this port it is able to forward traffic. The port is getting BPDUs it’s also making its own BPDUs to tell other switches that it preparing to forward frames. The default time in this state is 15 seconds (Forward Delay)
| '''Listening'''||According to the amount of BPDUs spanning tree tells this port it is able to forward traffic. This port is getting BPDUs, it’s also making it's own BPDUs to tell other switches that it preparing to forward frames. The default time in this state is 15 seconds (Forward Delay)
|-
|-
|  
|  
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''Rapid spanning tree is an enhanced version of STP. It most cases it performs considerably better. RSTP works similar to STP; however, it has only three port states.''
''Rapid spanning tree is an enhanced version of STP. It most cases it performs considerably better. RSTP works similar to STP; however, it has only three port states.''


== '''RSTP Port States''' ==


'''RSTP Port States'''
{| {{table}}
{| {{table}}
| align="center" style="background:#f0f0f0;"|'''Port'''
| align="center" style="background:#f0f0f0;"|'''Port'''
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'''RSTP Port Roles'''
 
== '''RSTP Port Roles''' ==
 


{|
{|
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'''The show version command in order to display the software version that the switch runs. '''
  Kevins-switch1> '''show version'''
  WS-C5505 Software, Version McpSW: 4.2(1) NmpSW: 4.2(1)
  Copyright (c) 1995-1998 by Cisco Systems
  NMP S/W compiled on Sep  8 1998, 10:30:21
  MCP S/W compiled on Sep 08 1998, 10:26:29
  System Bootstrap Version: 5.1(2)
  Hardware Version: 1.0  Model: WS-C5505  Serial #: 066509927
  Mod Port Model      Serial #  Versions
  --- ---- ---------- --------- ----------------------------------------
  1  0    WS-X5530  008676033 Hw : 2.3
  Fw : 5.1(2)
  Fw1: 4.4(1)
  Sw : 4.2(1)


'''This command is used to set the swtich as the root bridge for certain VLANS'''
'''This command is used to set the swtich as the root bridge for certain VLANS'''
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   Spantree ports 3/1-24 fast start enabled.
   Spantree ports 3/1-24 fast start enabled.
   Kevins-switch1>
   Kevins-switch1>
'''To show spanning tree information specific to a certain VLAN, use this command followed by the VLAN number'''
  Kevins-switch1> show spantree 1
  VLAN 1
  spanning-tree enabled
  spanning-tree type          ieee
  Designated Root            00-10-0d-b1-78-00
'''Use this command on all access ports to prevent rouge switches becoming the root bridge.'''
  Kevins-switch1(config)#interface FastEthernet 0/5
  Kevins-switch1(config-if)#spanning-tree bpduguard enable
== '''Trouble Shooting Spanning Tree''' ==
'''Unidirectional link failure'''
This can occur when I two-way link becomes a one-way link, similar to a duplex mismatch configuration. The port may able to send BPDUs, but not receive them. Using the “set udld aggressive-mode” command will put the port into err-disable state if this occurs.
'''Frame Corruption'''
While frame corruption isn’t common, it can still be a serious issue. This is usually caused by bad/incorrect cable or a cable that is too long. The BPDUs are not being received the port is put in the incorrect state and a loop may occur.
'''Resource Errors'''
If for any reason the CPU of a switch is over used or not functioning properly, there exists the possibility that it will be unable to send out BPDUs.
'''PortFast-related Errors'''
If a port that is a hub or switch accidently get PortFast enabled on it, a loop will form. This is because the forward delay will not occur.
==''' Flex Links '''==
''Flex links is an alternative to STP. This is achieved by having a backup link or Flex link associated with each other. The Flex links can be on the same switch or another on the stack. When ever one of the pairs is forwarding the other is in standby mode.''
[[File:Flex.gif]]
'''  Flex Links Guidelines '''
* You can configure only a single Flex Links backup link for any active link.
* A interface can only be part of one pair; so it must me active of standby, if it is a Flex Link
* None of the single links can be part of a EtherChannal pair, but you could configure two port-channels as Flex Links and you can also congigure a port-channel and a physical link as a interface as a Flex Link.
* STP is disabled on Flex Link ports. This is true even if VLANs are present on the port and configured for STP.
Kevins-SW# configure terminal
Kevins-SW(conf)# interface fastethernet0/1
Kevins-SW(conf-if)# switchport backup interface fastethernet0/2
Kevins-SW(conf-if)# end
Kevins-SW# show interface switchport backup
Switch Interface Backup Pairs:
Active Interface      Backup Interface      State
.....................................................................
FastEthernet0/1        FastEthernet0/2        Active Up/Backup Standby

Latest revision as of 05:10, 2 May 2012

The Spanning Tree Protocol’s purpose is preventing bridging loops and allows a network to quickly recover if the primary path fails. STP was invented by Radia Perlman from the Digital Equipment Corporation.


Spanning-Tree Protocol is a way to have redundant paths and stop loops from having. All Ethernet networks only work well if there is only one path between two points. Having many different paths will cause loops in a network. This is because frames might be duplicated. The Spanning-Tree protocol will define all switches in the network. The algorithm will automatically change the STP topology by activating or inactivating certain paths, so that only one path will be present between two points. The end-devices do not know if they are connected to one network or many networks.


Election of the Root Switch

The switches in the network gather information with the exchange of data messages. These are called bridge protocol data units (BPDUs). There is an election for a root switch on every LAN segment. To stop loops STP puts redundant switches ports into a backup state. The root switch is the place where the STP algorithm runs. All other paths not needed to reach the root switch are put in to backup mode


Root Switch Variables

Variable Description
Hello Time How often a hello is broadcasted to the other switches, so the switch knows the other switches are functioning.
Maximum Age Timer Defines how long a bridge or switch should wait after the last received hello message before believing that the network topology has changed.
Forward Delay Timer Time the switch has spent learning/listening before it begins forwarding traffic.


Information a BPDU contains

  • MAC addresses
  • Switch priority
  • Port priority
  • Port cost



STP Steps

  • Elects a root bridge
    • Only one bridge can exist per VLAN
    • Designated ports send and receive traffic and configuration trafic called BPDUs
    • The switch with the lowest priority will become the root bridge
  • Selects the root port for all other switches
    • One port on all switches, that are not root bridges
    • This port is the lowest cost path to the root bridge.
    • If two ports have the same priority, the lowest port number will become the root port.



Port Roles

Port Description
Root The port is on nonroot bridges. It is considered to be the best path. The root port is able to send traffic in the direction of the root bridge. This port will add entries to its MAC address table. There is only one root port per bridge.
Designated This port is on the root bridge and on the nonroot bridges. There can only be one designated port per segment, unless it’s the root bridge where all the ports are designated ports. If there is more than one switch in the segment, an election will be held.
Nondesignated The nondesignated port is in the blocking state. It will not add new entries to its MAC address table.
Disabled The port is shutdown.


Layer 2 port States

Port Description
Blocking The port is non-designated and does not forward taffic. The BPDU’s that the port gets are used to determine the root bridge. The maximum age of this state is 20 seconds by default (max age).
Listening According to the amount of BPDUs spanning tree tells this port it is able to forward traffic. This port is getting BPDUs, it’s also making it's own BPDUs to tell other switches that it preparing to forward frames. The default time in this state is 15 seconds (Forward Delay)
Learning The port is getting ready to participate in forwarding traffic. It begins to populate the CAM, or MAC address table. The default time for this state is 15 seconds. (Forward delay).
Forwarding The port is forwarding traffic and sending and receiving BPDUs
Disabled The port does not forward traffic or is part of STP.


Km1.jpg


Rapid spanning tree is an enhanced version of STP. It most cases it performs considerably better. RSTP works similar to STP; however, it has only three port states.

RSTP Port States

Port Description
Discarding The port discards frames and is not forwarding traffic to prevent layer 2 loops.
Learning Data frames are accepted and new MAC addresses entries are added.
Forwarding The topology of the port determines the topology of STPT the port is able to forward traffic.


RSTP Port Roles

Port Role Description
Root The port is on nonroot bridges. It is considered to be the best path. The root port is able to send traffic in the direction of the root bridge. This port will add entries to its MAC address table. There is only one root port per bridge.
Designated This port is on the root bridge and on the nonroot bridges. All switch ports are designated ports. There can only be one designated port per segment, unless it’s the root bridge where all the ports are designated ports. If there is more than one switch in the segment, an election will be held.
Alternate The alternative port is a port that has an alternative path toward the root bridge. The alternative port does the job of the discarding state. The alterative port is on a non-designated switch. The alternative port will take over forwarding traffic if the designated port fails.
Backup A backup port is a switch port on a designated switch that is the backup to for the segment for that designated switch. The backup switch will have a higher port ID then the designated port.
Disabled This port does not participate in STP.



This command is used to set the swtich as the root bridge for certain VLANS

 Kevins-switch1> set spantree root 1,200-204 
 VLANs 1,200-204 bridge priority set to 8189.
 VLANs 1,200-204 bridge max aging time set to 20.
 VLANs 1,200-204 bridge hello time set to 2.
 VLANs 1,200-204 bridge forward delay set to 15.
 Switch is now the root switch for active VLANs 1,200-204.
 Kevins-switch1>

Use this command to enable portfast on access ports that do not require forward delay.

 Kevins-switch1> set spantree portfast 3/1-24 enable
 Warning: Spantree port fast start should only be enabled on ports connected
 to a single host.  Connecting hubs, concentrators, switches, bridges, etc. to
 a fast start port can cause temporary spanning-tree loops.  Use with caution.
 Spantree ports 3/1-24 fast start enabled.
 Kevins-switch1>

To show spanning tree information specific to a certain VLAN, use this command followed by the VLAN number

 Kevins-switch1> show spantree 1
 VLAN 1
 spanning-tree enabled
 spanning-tree type          ieee
 Designated Root             00-10-0d-b1-78-00

Use this command on all access ports to prevent rouge switches becoming the root bridge.

 Kevins-switch1(config)#interface FastEthernet 0/5 
 Kevins-switch1(config-if)#spanning-tree bpduguard enable

Trouble Shooting Spanning Tree

Unidirectional link failure This can occur when I two-way link becomes a one-way link, similar to a duplex mismatch configuration. The port may able to send BPDUs, but not receive them. Using the “set udld aggressive-mode” command will put the port into err-disable state if this occurs.

Frame Corruption While frame corruption isn’t common, it can still be a serious issue. This is usually caused by bad/incorrect cable or a cable that is too long. The BPDUs are not being received the port is put in the incorrect state and a loop may occur.

Resource Errors If for any reason the CPU of a switch is over used or not functioning properly, there exists the possibility that it will be unable to send out BPDUs.

PortFast-related Errors If a port that is a hub or switch accidently get PortFast enabled on it, a loop will form. This is because the forward delay will not occur.


Flex Links

Flex links is an alternative to STP. This is achieved by having a backup link or Flex link associated with each other. The Flex links can be on the same switch or another on the stack. When ever one of the pairs is forwarding the other is in standby mode.

Flex.gif

Flex Links Guidelines


  • You can configure only a single Flex Links backup link for any active link.
  • A interface can only be part of one pair; so it must me active of standby, if it is a Flex Link
  • None of the single links can be part of a EtherChannal pair, but you could configure two port-channels as Flex Links and you can also congigure a port-channel and a physical link as a interface as a Flex Link.
  • STP is disabled on Flex Link ports. This is true even if VLANs are present on the port and configured for STP.


Kevins-SW# configure terminal
Kevins-SW(conf)# interface fastethernet0/1
Kevins-SW(conf-if)# switchport backup interface fastethernet0/2
Kevins-SW(conf-if)# end
Kevins-SW# show interface switchport backup
Switch Interface Backup Pairs:
Active Interface       Backup Interface       State
.....................................................................
FastEthernet0/1        FastEthernet0/2        Active Up/Backup Standby