Service intermittence occurs based on the network of MSTP&VRRP. |
Possible Causes 1) A switch receives massive TC packets and frequently clear address tables, which causes network flapping. 2) The CPU usage on a switch is too high, which causes that protocol packets cannot be processed in time and then causes network flapping. 3) BPDU packets sent to the CPU of a switch are lost, which causes network flapping. 4) VRRP packets sent to the CPU of a switch are lost, which causes network flapping. Troubleshooting ProcedureStep1:Check whether a switch receives massive TC packets. Run the show logging command tocheck whether the switch receives massive TC packets. --->>If massive TC packets are received in network flapping, the network flapping may be caused by the TC packets. You need to configure TC protection by using the spanning-treetc-protection command on the switch and identify the source of the TCpackets. Step2: Check whether the CPU usage of a switch is toohigh. --->> If the CPU usage exceeds 90%, the network flapping may be caused by the high CPU usage. Because of that corresponding protocol packets cannot be processed in time and then causes network flapping.You need to check the processes that cause the high CPU usage. Step3: Check whether BPDU packets sent to the CPU of a switchare lost. (1) Check whether the BPDU packets sent to the CPU of themanagement board are lost. --->> If this value is greater than 0 and increases, it indicates that BPDU packets sent to the CPU of the management board are lost, which may be the cause for network flapping. (2) Check whether the BPDU packets sent to the CPU of the line card are lost. --->> If this value is greater than 0 andincreases, it indicates that BPDU packets sent to the CPU of the line card arel ost, which may be the cause for network oscillation. If the BPDU packets sent to the CPU are lost, it is recommended to set the CPP threshold for BPDU packets to a larger value. In addition, you need to check whether the number of BPDU packets in the environment meets the expectation. Step4: Check whether VRRP packets sent to the CPU of aswitch are lost. (1) Check whether the VRRP packets sent to the CPU of the management boardare lost. --->> If this value is greater than 0 and increases, it indicates that VRRP packets sent to the CPU of the managementboard are lost, which may be the cause for network flapping. (2) Check whether the VRRP packets sent to the CPU of the line card arelost. --->> If this value is greater than 0 andincreases, it indicates that VRRP packets sent to the CPU of the line card arelost, which may be the cause for network flapping. If the VRRP packets sent to the CPU are lost, it is recommended to set the CPP threshold for VRRP packets to a larger value. In addition, you need to check whether the number of VRRP packets in the environment meet the expectation. Step5:Fault Information CollectionCollect log information (pay attention to the time stamp and the time accuracy) for background analysis. show logging showcpu showcpu-protect mb show cpu-protect slot X //X indicates the slot ID, such as use this command onSlot 4 of the stand-alone Switch8610: show cpu-pro slot 4;on Slot 4 of Chassis2in the VSU: show cpu-pro slot 2/4. |
This site contains user submitted content, comments and opinions and is for informational purposes only. Ruijie may provide or recommend responses as a possible solution based on the information provided; every potential issue may involve several factors not detailed in the conversations captured in an electronic forum and Ruijie can therefore provide no guarantee as to the efficacy of any proposed solutions on the community forums. Ruijie disclaims any and all liability for the acts, omissions and conduct of any third parties in connection with or related to your use of the site. All postings and use of the content on this site are subject to the Ruijie Community Terms of Use.
More ways to get help: Visit Support Videos, call us via Service Hotline, Facebook or Live Chat.
©2000-2023 Ruijie Networks Co,Ltd