思科ospf介绍(思科CCNP企业基础架构交换-Rapid-pvst与MSTP的实验解析)
思科CCNP企业基础架构交换-Rapid-pvst与mstP的实验解析
-WOLFLAB网络实验室
需求描述
1. 实验室交换机架登陆:
Rack 99 192.168.9.99
Rack 98 192.168.9.98
Rack 100 192.168.9.100
做实验之前,请重启设备,做完实验后,请勿保存。想要通过外网登陆机架,从WOLFLAB获取登陆方式。
2. 配置sw2成为vlan 1的root。
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SW2: spanning-tree vlan 1 root primary |
3. 在sw1上开启debug spanning-tree events,将F0/1接口shutdown,然后再no shutdown,观察F0/1接口的状态。
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SW1:
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SW3: interface f0/23 shutdown 02:04:47: STP: VLAN0001 Fa0/13 -> listening 02:05:02: STP: VLAN0001 Fa0/13 -> learning 02:05:17: STP: VLAN0001 Fa0/13 -> forwarding //此接口从Block状态到RP forwarding状态需要30s SW3#show spanning-tree vlan 1 VLAN0001 Aging Time 300 Interface Role Sts Cost Prio.Nbr Type ---------------- ---- --- --------- -------- -------------------------------- Fa0/13 Root FWD 19 128.13 P2p |
5. 将sw3的F0/23接口no shutdown。然后将sw1的F0/11-12接口shutdown。在sw3上观察F0/13接口的状态。
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SW3: interface f0/23 no shutdown SW1: interface range f0/11-12 shutdown |
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SW3: 02:14:10: STP: VLAN0001 heard root 28673-000b.5f01.4380 on Fa0/13 02:14:10: STP: VLAN0001 heard root 28673-000b.5f01.4380 on Fa0/13 …. 02:14:28: STP: VLAN0001 heard root 28673-000b.5f01.4380 on Fa0/13 //sw3连续收到SW1发送的次级BPDU,sw3等待之前收到的BPDU老化,才会响应次级BPDU,BPDU的老化时间为20秒。 02:14:28: STP: VLAN0001 Fa0/13 -> listening 02:14:43: STP: VLAN0001 Fa0/13 -> learning 02:14:58: STP: VLAN0001 Fa0/13 -> forwarding //此接口从Block状态到DP forwarding状态需要50s |
6. 在sw1的F0/1接口开启端口加速,将F0/1接口shutdown,然后再no shutdown,观察F0/1接口的状态。
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SW1: interface FastEthernet0/1 spanning-tree portfast shutdown no shutdown 02:21:21: set portid: VLAN0001 Fa0/1: new port id 8001 02:21:21: STP: VLAN0001 Fa0/1 ->jump to forwarding from blocking //直接跳转到forwarding状态 |
7. 在sw3上,开启uplinkfast,将sw3的F0/23接口shutdown,观察F0/13接口的状态。
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SW3: spanning-tree uplinkfast 02:24:41: setting bridge id (which=1) prio 49153 prio cfg 49152 sysid 1 (on) id C001.000c.8577.3240 //开启uplinkfast以后,priority会增加至49152,接口的cost增加3000。 interface FastEthernet0/23 shutdown 02:26:49: %SPANTREE_FAST-7-PORT_FWD_UPLINK: VLAN0001 FastEthernet0/13 moved to Forwarding (UplinkFast). //F0/13接口跳过listening与learning状态,直接跳转到forwarding状态。 SW3#show spanning-tree vlan 1 VLAN0001 Aging Time 300 Interface Role Sts Cost Prio.Nbr Type ---------------- ---- --- --------- -------- -------------------------------- Fa0/13 Root FWD 19 128.13 P2p |
8. 在sw1 sw2 sw3上开启backbonefast特性。将sw1的F0/11-12接口shutdown。在sw3上观察F0/13接口的状态。
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SW1 SW2 SW3: spanning-tree backbonefast |
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02:33:09: STP: VLAN0001 heard root 28673-000b.5f01.4380 on Fa0/13 //收到次级BPDU,会向Root发出RLQ的请求,收到Root回复的RLQ的Reply,立刻响应次级BPDU。 02:14:28: STP: VLAN0001 Fa0/13 -> listening 02:14:43: STP: VLAN0001 Fa0/13 -> learning 02:14:58: STP: VLAN0001 Fa0/13 -> forwarding //此接口从Block状态到DP forwarding状态需要30s Fa0/13 Desg FWD 19 128.13 P2p |
9. 在sw1 sw2 sw3上,将STP的类型配置为rapid-pvst。show spanning-tree vlan 1 观察STP选路。
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SW1 SW2 SW3: spanning-tree mode rapid-pvst 解析:此时在sw1 sw2 sw3上看到rapid-pvst选路的结果,与生成树类型为pvst选路的结果是一致。只是rapid-pvst相对于PVST,可以在拓扑变更的时候在更短的时间内完成收敛。可以重新按照第8题和第9题的需求来操作,观察现象,比较与之前生成树类型为PVST时的区别。 |
10. 在sw1 sw2 sw3上,创建vlan 2-7,将vlan2-4划入instance 1,将vlan 5-7划入instance 2,将生成树类型配置为mst。
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SW1 SW2 SW3: vlan 2-7 spanning-tree mst configuration name WOLF revision 10 instance 1 vlan 2-4 instance 2 vlan 5-7 spanning-tree mode mst |
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