STP RSTP MSTP PVST+ѧϰ (1)
2007-08-18 18:52:01
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BPDU bridge protocol data units
802.1d STP 802.1w RSTP 802.1s MSTP
STP spanning-tree protocol
RSTP rapid spanning-tree protocol
MSTP multilayer spanning-tree protocol
SSTP single spanning-tree protcol
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SPA spanning-tree algorithm Éú³ÉÊ÷Ëã·¨
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path cost ·¾¶³É±¾ port priority ¶Ë¿ÚÓÅÏȼ¶ disabled ¹Ø±Õ blocking Ëø¶¨
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blocking start ×èÈû״̬
bridge ID ÍøÇÅID
CST common spanning tree ¹«¹²Éú³ÉÊ÷
Edge port ±ßÔµ¶Ë¿Ú
EtherChannel ÒÔÌ«ÐŵÀ
forward delay ת·¢ÑÓʱ
forwarding state ת·¢×´Ì¬
link aggregation control protcol Á´Â·»ã¾Û¿ØÖÆÐÒé
MST mono spanning tree µ¥Éú³ÉÊ÷
multiple instance of spanning tree protocol MISTP ¶àʵÀýÉú³ÉÊ÷ÐÒé
per-vlan spanning-tree PVST ÿVLANÉú³ÉÊ÷
prot aggreation protocol PagP ¶Ë¿Ú¾ÛºÏÐÒé
port number ¶Ë¿ÚºÅ
port priority ¶Ë¿ÚÓÅÏȼ¶
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STP Overview
STP is a layer 2 link management protocol that provides path redundancy while preventing loops in the network.
STP ÊÇÔÚÊý¾ÝÁ´Â·²ãÌṩÈßÓಢԤ·À»·Â·µÄ¹ÜÀíÐÒé
For Layer 2 Ethernet network to function proerly , only one active path can exist between any two stations.
STPÐÒéʹÁ½¸öÕ¾µã¼äÖ»ÓÐÒ»Ìõ»îÔ¾µÄÁ´Â·
Multiple active paths among end stations cause loops in the network.
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If a loop exists in the network,end stations might receive duplicate messages.
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Switches might also learn end-staion MAC address on multiple Layer 2 interface.
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These conditions result in an unstable network.
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Spanning-tree operation is transparent to end stations,which cannot detect whether they are connected to a single LAN segment or a switched LAN of multiple segments.
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The STP uses a spanning-tree algorithm to select one switch of a redundantly connected network as the root of the spanning tree.
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The alogorithm calculates the best loop-free path through a switched Layer 2 network by assigning
a role to each port based on the role of the prot in the acitve topology:
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Root A forwarding port elected for the spanning-tree topology
¸ù Ñ¡¾Ù³öµÄת·¢¶Ë¿Ú
Designated A forwarding port elected for every switched LAN segement
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Alternate A blocked port providing an alternate path to root bridge in the spanning tree
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Backup A blocked port in a loopback configuration
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enable state enable on VLAN1
spanning-tree mode PVST+ (rapid PVST+ and MSTP are desabled)
switch priority 32768
spanning-tree port priority (configurable on a per-interface basis) 128
spanning-tree port cost (configurable on a per-interface basis) 1000mb/s 4
100mb/s 19
10 mb/s 100
spanning-tree VLAN port priority (configurable on a per-vlan basis) 128
spanning-tree VLAN port cost(confgiurable on a per-vlan basis) 1000mb/s 4
100mb/s 19
10mb/s 100
spanning-tree timers hello time 2 seconds
forward-delay time 15 seconds
maximum-aging time 20 seconds
transmit hold count 6 BPDUS
Bridge ID, switch priority and extended system id
The IEEE 802.1D standard requires that each switch has an unique birdge identifier (bridge ID).
IEEE 802.1D ÐèҪÿ¸ö½»»»»ú¶¼ÓÐΨһµÄÇÅID
controls the selection of the root swtich.
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Because each VLAN is considered as a different logical bridege with PVST+ and rapid PVST+,the
same switch must have a different bridge IDs for each configured VLAN.
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Each VLAN on the switch has a unique 8-byte bridge ID .
ÿ¸öVLAN ¶¼ÐèÒªÓÐΨһµÄ8byteµÄÇÅID
The 2 most-significant byte are used for the switch priority , and the remaining 6 byte are derived from the switch MACaddress.
2 ¸ö×Ö½ÚÀ´±íʾÓÅÏȼ¶¡£6¸ñ×Ö½ÚΪ½»»»»úµÄMACµØÖ·
The switch support the IEEE802.1t spanning-tree extensions, and some of the bits previously used for the switch priority are now used as the vlan identifier.
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The result is that fewer MAC addresses are reserved for the switch.and a larger range of VLAN IDs can be supportd. all while maintaining the uniqueness of the bridge ID .
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the 2 bytes previously used for the switch priority are reallocated into a 4-bit priority value and a
12-bit extended system ID value equal to the vlan ID.
4bit µÄ½»»»»úÓÅÏȼ¶+12 bit À©Õ¹ÏµÍ³ID£¬ 12bit À©Õ¹ÏµÍ³IDµÈÓÚVLAN ID
 spanning-tree users the extended system ID, the switch priority, and the allocated spanning-tree MAC address to make the bridge ID unique for each VLAN.
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support for the extended system ID affects how you manually configure the root switch, the secondary root switch, and the switch priority of a VLAN.
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