This document explains the PortFast Bridge Protocol Data Unit (BPDU) guard feature. This feature is one of the Spanning Tree Protocol (STP) enhancements that a.viettingame.vn created. This feature enhances switch network reliability, manageability, and security.
Chúng ta đang xem: Bpdu guard, bpdu filter, root guard, loop guard & udld
There are no specific requirements for this document.
These software versions introduced the STP PortFast BPDU guard:
Catalyst OS (CatOS) software version 5.4.1 for the Catalyst 4500/4000 (Supervisor Engine II), 5500/5000, 6500/6000, 2926, 2926G, 2948G, and 2980G platforms
a.viettingame.vn IOS® Software Release 12.0(7)XE for the Catalyst 6500/6000 platforms
a.viettingame.vn IOS Software Release 12.1(8a)EW for the Catalyst 4500/4000 Supervisor Engine III
a.viettingame.vn IOS Software Release 12.1(12c)EW for the Catalyst 4500/4000 Supervisor Engine IV
a.viettingame.vn IOS Software Release 12.0(5)WC5 for the Catalyst 2900XL and 3500XL series
a.viettingame.vn IOS Software Release 12.1(11)AX for the Catalyst 3750 series switches
a.viettingame.vn IOS Software Release 12.1(14)AX for the Catalyst 3750 Metro switches
a.viettingame.vn IOS Software Release 12.1(19)EA1 for the Catalyst 3560 series switches
a.viettingame.vn IOS Software Release 12.1(4)EA1 for the Catalyst 3550 series switches
a.viettingame.vn IOS Software Release 12.1(11)AX for the Catalyst 2970 series switches
a.viettingame.vn IOS Software Release 12.1(12c)EA1 for the Catalyst 2955 series switches
a.viettingame.vn IOS Software Release 12.1(6)EA2 for the Catalyst 2950 series switches
a.viettingame.vn IOS Software Release 12.1(11)EA1 for the Catalyst 2950 Long-Reach Ethernet (LRE) switches
a.viettingame.vn IOS Software Release 12.1(13)AY for the Catalyst 2940 series switches
Note:STP PortFast BPDU guard is not available for the Catalyst 8500 series, 2948G-L3, or 4908G-L3 switches.
The information in this document was created from the devices in a specific lab environment. All of the devices used in this document started with a cleared (default) configuration. If your network is live, make sure that you understand the potential impact of any command.
Refer to a.viettingame.vn Technical Tips Conventions for more information on document conventions.
STP configures meshed topology into a loop-free, tree-like topology. When the link on a bridge port goes up, STP calculation occurs on that port. The result of the calculation is the transition of the port into forwarding or blocking state. The result depends on the position of the port in the network and the STP parameters. This calculation and transition period usually takes about 30 to 50 seconds. At that time, no user data pass via the port. Some user applications can time out during the period.
In order to allow immediate transition of the port into forwarding state, enable the STP PortFast feature. PortFast immediately transitions the port into STP forwarding mode upon linkup. The port still participates in STP. So if the port is to be a part of the loop, the port eventually transitions into STP blocking mode.
As long as the port participates in STP, some device can assume the root bridge function and affect active STP topology. To assume the root bridge function, the device would be attached to the port and would run STP with a lower bridge priority than that of the current root bridge. If another device assumes the root bridge function in this way, it renders the network suboptimal. This is a simple form of a denial of service (DoS) attack on the network. The temporary introduction and subsequent removal of STP devices with low (0) bridge priority cause a permanent STP recalculation.
The STP PortFast BPDU guard enhancement allows network designers to enforce the STP domain borders and keep the active topology predictable. The devices behind the ports that have STP PortFast enabled are not able to influence the STP topology. At the reception of BPDUs, the BPDU guard operation disables the port that has PortFast configured. The BPDU guard transitions the port into errdisable state, and a message appears on the console. This message is an example:
2000 May 12 15:13:32 %SPANTREE-2-RX_PORTFAST:Received BPDU on PortFast enable port. Disabling 2/1 2000 May 12 15:13:32 %PAGP-5-PORTFROMSTP:Port 2/1 left bridge port 2/1 Consider this example:
Bridge A has priority 8192 and is the root for the VLAN. Bridge B has priority 16384 and is the backup root bridge for the same VLAN. Bridges A and B, which a Gigabit Ethernet link connects, make up a core of the network. Bridge C is an access switch and has PortFast configured on the port that connects to device D. If the other STP parameters are default, the bridge C port that connects to bridge B is in STP blocking state. Device D (PC) does not participate in STP. The dashed arrows indicate the flow of STP BPDUs.
In Figure 2, device D has started to participate in STP. For example, a Linux-based bridge application is launched on a PC. If the priority of the software bridge is 0 or any value below the priority of the root bridge, the software bridge takes over the root bridge function. The Gigabit Ethernet link that connects the two core switches transitions into blocking mode. The transition causes all the data in that VLAN to flow via the 100-Mbps link. If more data flow via the core in the VLAN than the link can accommodate, the drop of frames occurs. The frame drop leads to a connectivity outage.
The STP PortFast BPDU guard feature prevents such a situation. The feature disables the port as soon as bridge C receives the STP BPDU from device D.
You can enable or disable STP PortFast BPDU guard on a global basis, which affects all ports that have PortFast configured. By default, STP BPDU guard is disabled. Issue this command in order to enable STP PortFast BPDU guard on the switch:
Consolevàgt; (enable) set spantree portfast bpdu-guard enable Spantree portfast bpdu-guard enabled on this switch. Consolevàgt; (enable) a.viettingame.vn IOS Software Command CatSwitch-IOS(config)# spanning-tree portfast bpduguard CatSwitch-IOS(config) When STP BPDU guard disables the port, the port remains in the disabled state unless the port is enabled manually. You can configure a port to reenable itself automatically from the errdisable state. Issue these commands, which set the errdisable-timeout interval and enable the timeout feature:
Consolevàgt; (enable) set errdisable-timeout interval 400 Consolevàgt; (enable) set errdisable-timeout enable bpdu-guard a.viettingame.vn IOS Software Commands CatSwitch-IOS(config)# errdisable recovery cause bpduguardCatSwitch-IOS(config)# errdisable recovery interval 400 Note:The default timeout interval is 300 seconds and, by default, the timeout feature is disabled.
In order to verify whether the feature is enabled or disabled, issue this command:
Consolevàgt; (enable) show spantree summaryRoot switch for vlans: 3-4.Portfast bpdu-guard enabled for bridge.
Uplinkfast disabled for bridge.Backbonefast disabled for bridge.Summary of Connected Spanning Tree Ports By VLAN: Vlan Blocking Listening Learning Forwarding STP Active —– ——– ——— ——– ———- ———- 1 0 0 0 1 1 3 0 0 0 1 1 4 0 0 0 1 1 20 0 0 0 1 1 Blocking Listening Learning Forwarding STP Active —– ——– ——— ——– ———- ———- Total 0 0 0 4 4 Consolevàgt; (enable) a.viettingame.vn IOS Software Command CatSwitch-IOS# show spanning-tree summary totals Root bridge for: none.PortFast BPDU Guard is enabledUplinkFast is disabledBackboneFast is disabledSpanning tree default pathcost method used is shortName Blocking Listening Learning Forwarding STP Active——————– ——– ——— ——– ———- ———- 1 VLAN 0 0 0 1 1 CatSwitch-IOS#
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