I had to solve a small hardware incompatibility. HP-VG (Voice Grade) 100Mbit network is not fast Ethernet compatible. Having neither the money nor the will to replace the stuff and having the need to expand the system I had to find a solution which was a) stable and b) cheap.
For sure buying a HP modular switch was not meeting condition b). So I remembered I heard about Linux-bridging which automatically fulfilled condition a) and b).
So quite some time ago I successfully set up a bridge between the two incompatible networks. Its first hardware-layout is shown in Figure 1.
It was configured as a transparent network component, meaning it didn't take a part in the network, but only bridged it. Originally it was set up on kernel 2.0.35 from a SuSE 5.3 distribution.
The next problem showed up at once. A single bridge connecting the big segments might be c) a bottleneck and d) a reason to kill the netadmin, if it blows up. So I tried to find some solution for that problem.
What happened next was that I discovered some hints that a new maintainer took over the bridging code. A few mails on the bridge-mailing list later as shown in Section 7.1 I was more clever. The new modular bridging code fulfilled exactly what I was looking for.
The new maintainer: Lennert Buytenhek . His project page can be found at http://www.math.leidenuniv.nl/~buytenh/bridge/ IMHO he's doing a great job. Thanks a lot.
The ideas and hints I got from the mailing list discussion shown in Section 7.1 lead to a new hardware-setup shown in Figure 2. The setup is intended to provide a default machine (guess which one). The bridge has 3 HP cards of which each is connected to a HP VG15 hub. The 3com card is connected to a 3com Superstack Fast Ethernet switch.
Figure 2. Hardware Setup Of The Multi bridge Scenario
The practically working setup of my local linux Ethernet multi bridge
This setup is not only fail proof to any one of the bridge's interfaces being down, but also to complete blackout of one of the bridges. Additional advantage to the old-setup Figure 1 that the single HUBS are switched. This means that a datagram being sent from one port on the VG15 HUB blocks 30 ports by maximum and 15 ports by minimum, instead of blocking all 45 ports. Also, the breakdown of the HUB, to the old bridge was connected, would have caused the whole HP-segment to break down. With the new code only the machines connected to the broken HUB will get no more data.
For both bridges the setup is exactly the same (with the exception of bridge priority which will be discussed later on). The machine was setup by the SuSE 6.4 distribution with the original unpatched kernel sources installed. At this point only the minimal configuration and no additional hardware or network setup.
The basic setup is according the descriptions in the beginning of this document. The thing I did in addition was bringing up the unpatched 2.2.14 sources of the SuSE 6.4 distribution to version 2.2.15 as in Example 11.
Example 11. Upgrading The Kernel From 2.2.14 To 2.2.15
root@mbb-1:~ # cd /usr/src/linux-2.2.14 root@mbb-1:/usr/src/linux-2.2.14 # patch -p1 \ /usr/local/download/kernel/patch-2.2.15 patching file ........................ patching file ................... ... .. root@mbb-1:/usr/src/linux-2.2.14 # cd .. root@mbb-1:/usr/src # mv linux-2.2.14 linux-2.2.15 root@mbb-1:/usr/src # rm linux root@mbb-1:/usr/src # ln -s linux-2.2.15 linux |
Next step was to apply the bridge-patch as shown in Example 12.
Example 12. Applying The Kernel Patch
root@mbb-1:/usr/src # cd /usr/src/linux-2.2.15 root@mbb-1:/usr/src/linux-2.2.15 # patch -p1 < \ bridge-0.0.5-against-2.2.15.diff patching file ........................ patching file ................... ... .. |
After that I selected the bridging code to be compiled as a module as shown in Example 13.
Example 13. Configuring The Kernel
root@mbb-1:/usr/src/linux-2.2.15 # make config .. * * Code maturity level options * Prompt for development and/or incomplete code/drivers (CONFIG_EXPERIMENTAL) [N/y/?] Y .. 802.1d Ethernet Bridging (CONFIG_BRIDGE) [N/y/m/?] (NEW) m .. |
By the way I also selected the drivers of my NIC's to be compiled as modules which resulted to 3c95x.o and hp100.o.
root@mbb-1:/usr/src/linux-2.2.15 # make dep clean zImage \ modules modules_install zlilo .. root@mbb-1:/usr/src/linux-2.2.15 # init 6 |
After the reboot happening I started at runlevel 1 leaving all the networking out of the running system. That gave me the chance to check the setup step by step.
The command modprobe -v bridge worked without any warnings, so that one was OK. Next I edited my /etc/modules.conf by aliasing my network card drivers as shown in Example 14 and Example 15. I didn't need to make use of the options, all cards where realized proper as I checked by cat /proc/modules, cat /proc/interrupts and cat /proc/ioports.
Example 14. /etc/modules.conf of mbb-1
# Aliases - specify your hardware alias eth0 3c59x alias eth1 hp100 alias eth2 hp100 alias eth3 hp100 |
Example 15. /etc/modules.conf of mbb-2
# Aliases - specify your hardware alias eth0 3c509 alias eth1 hp100 alias eth2 hp100 alias eth3 hp100 |
So next thing would have been a step by step setup of the bridge and it's interfaces. Because I'm lazy I just show the init script I prepared for the setup.
Important: Of course you'll have do adapt the script to your system, if you want to use it. Please remember I'm writing this for the setup of a SuSE distribution.
Example 16. Bridge Init Script
#! /bin/bash # Copyright (c) 2000 Uwe BЖhme. All rights reserved. # # Author: Uwe BЖhme <uwe@bnhof.de>, 2000 # # # /sbin/init.d/bridge # . /etc/rc.config return=$rc_done case "$1" in start) echo "Starting service bridge mueb" brctl addbr mueb || return=$rc_failed brctl setbridgeprio mueb 0 || return=$rc_failed brctl addif mueb eth0 || return=$rc_failed brctl addif mueb eth1 || return=$rc_failed brctl addif mueb eth2 || return=$rc_failed brctl addif mueb eth3 || return=$rc_failed ifconfig eth0 0.0.0.0 || return=$rc_failed ifconfig eth1 0.0.0.0 || return=$rc_failed ifconfig eth2 0.0.0.0 || return=$rc_failed ifconfig eth3 0.0.0.0 || return=$rc_failed brctl sethello mueb 1 || return=$rc_failed (11) brctl setmaxage mueb 4 || return=$rc_failed (12) brctl setfd mueb 4 || return=$rc_failed (13) echo -e "$return" ;; stop) echo "Shutting down service bridge mueb" brctl delif mueb eth3 || return=$rc_failed (14) brctl delif mueb eth2 || return=$rc_failed (15) brctl delif mueb eth1 || return=$rc_failed (16) brctl delif mueb eth0 || return=$rc_failed (17) brctl delbr mueb || return=$rc_failed (18) rmmod bridge || return=$rc_failed (19) echo -e "$return" ;; status) ifconfig mueb brctl showbr mueb ;; restart) $0 stop && $0 start || return=$rc_failed ;; *) echo "Usage: $0 {start|stop|status|restart}" exit 1 esac test "$return" = "$rc_done" || exit 1 exit 0 |
Note: At least my system it does. Maybe you have to enable the kernel module loader.
Important: In the init script of the backup bridge this line in missing, leaving it with the default priority of 100.
To polish your setup and to be able to reach the bridge from remote you now can configure your bridge instance as if it would be a physical existing network interface. You can give it a nice IP with a suitable net-mask. It doesn't matter from which segment in you net, you will reach the bridge with this IP-address.
Here I want to show and explain about how the running bridge shows up. The output Example 17 of bridge@mbb-1 is the output of the primary bridge, while you see in Example 18 the output of the backup bridge waiting to take over.
Example 17. Status Output Of mbb-1 Fully Up
mueb bridge id 0000.0800062815f6 designated root 0000.0800062815f6 root port 0 path cost 0 max age 4.00 bridge max age 4.00 hello time 1.00 bridge hello time 1.00 forward delay 4.00 bridge forward delay 4.00 ageing time 300.00 gc interval 4.00 hello timer 0.80 tcn timer 0.00 topology change timer 0.00 gc timer 3.80 flags eth0 (1) port id 8001 state forwarding designated root 0000.0800062815f6 path cost 100 designated bridge 0000.0800062815f6 message age timer 0.00 designated port 8001 forward delay timer 0.00 designated cost 0 hold timer 0.80 flags eth1 (2) port id 8002 state forwarding designated root 0000.0800062815f6 path cost 100 designated bridge 0000.0800062815f6 message age timer 0.00 designated port 8002 forward delay timer 0.00 designated cost 0 hold timer 0.80 flags eth2 (3) port id 8003 state forwarding designated root 0000.0800062815f6 path cost 100 designated bridge 0000.0800062815f6 message age timer 0.00 designated port 8003 forward delay timer 0.00 designated cost 0 hold timer 0.80 flags eth3 (4) port id 8004 state forwarding designated root 0000.0800062815f6 path cost 100 designated bridge 0000.0800062815f6 message age timer 0.00 designated port 8004 forward delay timer 0.00 designated cost 0 hold timer 0.80 flags |
Example 18. Status Output Of mbb-2 Fully Up
mueb bridge id 0064.00a024d04cd6 designated root 0000.0800062815f6 root port 1 path cost 100 max age 4.00 bridge max age 4.00 hello time 1.00 bridge hello time 1.00 forward delay 4.00 bridge forward delay 4.00 ageing time 300.00 gc interval 4.00 hello timer 0.00 tcn timer 0.00 topology change timer 0.00 gc timer 2.39 flags eth0 (1) port id 8001 state forwarding designated root 0000.0800062815f6 path cost 100 designated bridge 0000.0800062815f6 message age timer 0.42 designated port 8001 forward delay timer 0.00 designated cost 0 hold timer 0.00 flags eth1 (2) port id 8002 state blocking designated root 0000.0800062815f6 path cost 100 designated bridge 0000.0800062815f6 message age timer 0.42 designated port 8002 forward delay timer 0.00 designated cost 0 hold timer 0.00 flags eth2 (3) port id 8003 state blocking designated root 0000.0800062815f6 path cost 100 designated bridge 0000.0800062815f6 message age timer 0.42 designated port 8003 forward delay timer 0.00 designated cost 0 hold timer 0.00 flags eth3 (4) port id 8004 state blocking designated root 0000.0800062815f6 path cost 100 designated bridge 0000.0800062815f6 message age timer 0.42 designated port 8004 forward delay timer 0.00 designated cost 0 hold timer 0.00 flags |
If you take a glance into /var/log/messages as shown in Example 19 and in Example 20 you can see how the bridges are coming up and deciding how to do their duty. mbb-1 has a lower value for bridge-priority (see ), telling it to try to become the root bridge. As you can see mbb-1 forwards all ports, while mbb-2 blocks all ports with the exception of eth0.
Example 19. mbb-1 Messages From init 2
May 25 16:46:04 mbb-1 init: Switching to runlevel: 2 May 25 16:46:04 mbb-1 kernel: NET4: Ethernet Bridge 008 for NET4.0 May 25 16:46:04 mbb-1 kernel: device eth0 entered promiscuous mode May 25 16:46:04 mbb-1 kernel: device eth1 entered promiscuous mode May 25 16:46:04 mbb-1 kernel: device eth2 entered promiscuous mode May 25 16:46:04 mbb-1 kernel: device eth3 entered promiscuous mode May 25 16:46:04 mbb-1 kernel: mueb: port 4(eth3) entering listening state May 25 16:46:04 mbb-1 kernel: mueb: port 3(eth2) entering listening state May 25 16:46:04 mbb-1 kernel: mueb: port 2(eth1) entering listening state May 25 16:46:04 mbb-1 kernel: mueb: port 1(eth0) entering listening state May 25 16:46:08 mbb-1 kernel: mueb: port 4(eth3) entering learning state May 25 16:46:08 mbb-1 kernel: mueb: port 3(eth2) entering learning state May 25 16:46:08 mbb-1 kernel: mueb: port 2(eth1) entering learning state May 25 16:46:08 mbb-1 kernel: mueb: port 1(eth0) entering learning state May 25 16:46:12 mbb-1 kernel: mueb: port 4(eth3) entering forwarding state May 25 16:46:12 mbb-1 kernel: mueb: topology change detected, propagating May 25 16:46:12 mbb-1 kernel: mueb: port 3(eth2) entering forwarding state May 25 16:46:12 mbb-1 kernel: mueb: topology change detected, propagating May 25 16:46:12 mbb-1 kernel: mueb: port 2(eth1) entering forwarding state May 25 16:46:12 mbb-1 kernel: mueb: topology change detected, propagating May 25 16:46:12 mbb-1 kernel: mueb: port 1(eth0) entering forwarding state May 25 16:46:12 mbb-1 kernel: mueb: topology change detected, propagating |
Example 20. mbb-2 Messages From init 2
Jun 8 06:06:16 mbb-2 init: Switching to runlevel: 2 Jun 8 06:06:17 mbb-2 kernel: NET4: Ethernet Bridge 008 for NET4.0 Jun 8 06:06:17 mbb-2 kernel: device eth0 entered promiscuous mode Jun 8 06:06:17 mbb-2 kernel: device eth1 entered promiscuous mode Jun 8 06:06:17 mbb-2 kernel: device eth2 entered promiscuous mode Jun 8 06:06:17 mbb-2 kernel: device eth3 entered promiscuous mode Jun 8 06:06:17 mbb-2 kernel: mueb: port 4(eth3) entering listening state Jun 8 06:06:17 mbb-2 kernel: mueb: port 3(eth2) entering listening state Jun 8 06:06:17 mbb-2 kernel: mueb: port 2(eth1) entering listening state Jun 8 06:06:17 mbb-2 kernel: mueb: port 1(eth0) entering listening state Jun 8 06:06:17 mbb-2 kernel: mueb: port 2(eth1) entering blocking state Jun 8 06:06:17 mbb-2 kernel: mueb: port 3(eth2) entering blocking state Jun 8 06:06:17 mbb-2 kernel: mueb: port 4(eth3) entering blocking state Jun 8 06:06:21 mbb-2 kernel: mueb: port 1(eth0) entering learning state Jun 8 06:06:25 mbb-2 kernel: mueb: port 1(eth0) entering forwarding state |
To check if really all the promised features are working, I did some crude test. The message logs are shown here in.
I think just taking a patch wire out of a bridge port is a really good real survival test. So I pulled the plugs one by one out of the sockets and looked what happened. To give you not too much tension let me summarize first: It's really working. All the takeovers happened within less then 12 seconds.
The really interesting messages you can find at mbb-2. To see how everything comes up, I stopped network services first. In Example 21 you will see the messages caused by a init 2 followed by a "take out the plug, wait what happens, then place it back" in the order eth3, eth2, eth1, eth0 .
Note: The thing I did, was making the tests, and publishing the dump. The one writing the nice explanations was Lennert again.
Example 21. mbb-2 Message Output Of Bridge Test
Jun 8 06:06:16 mbb-2 init: Switching to runlevel: 2 Jun 8 06:06:17 mbb-2 kernel: NET4: Ethernet Bridge 008 for NET4.0 Jun 8 06:06:17 mbb-2 kernel: device eth0 entered promiscuous mode Jun 8 06:06:17 mbb-2 kernel: device eth1 entered promiscuous mode Jun 8 06:06:17 mbb-2 kernel: device eth2 entered promiscuous mode Jun 8 06:06:17 mbb-2 kernel: device eth3 entered promiscuous mode Jun 8 06:06:17 mbb-2 kernel: mueb: port 4(eth3) entering listening state Jun 8 06:06:17 mbb-2 kernel: mueb: port 3(eth2) entering listening state Jun 8 06:06:17 mbb-2 kernel: mueb: port 2(eth1) entering listening state Jun 8 06:06:17 mbb-2 kernel: mueb: port 1(eth0) entering listening state Jun 8 06:06:17 mbb-2 kernel: mueb: port 2(eth1) entering blocking state Jun 8 06:06:17 mbb-2 kernel: mueb: port 3(eth2) entering blocking state Jun 8 06:06:17 mbb-2 kernel: mueb: port 4(eth3) entering blocking state Jun 8 06:06:21 mbb-2 kernel: mueb: port 1(eth0) entering learning state Jun 8 06:06:25 mbb-2 kernel: mueb: port 1(eth0) entering forwarding state Jun 8 06:07:15 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 4(eth3) Jun 8 06:07:15 mbb-2 kernel: mueb: port 4(eth3) entering listening state Jun 8 06:07:19 mbb-2 kernel: mueb: port 4(eth3) entering learning state Jun 8 06:07:23 mbb-2 kernel: mueb: port 4(eth3) entering forwarding state Jun 8 06:07:23 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 8 06:08:51 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 8 06:08:51 mbb-2 kernel: mueb: port 4(eth3) entering blocking state Jun 8 06:09:22 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 3(eth2) Jun 8 06:09:22 mbb-2 kernel: mueb: port 3(eth2) entering listening state Jun 8 06:09:26 mbb-2 kernel: mueb: port 3(eth2) entering learning state Jun 8 06:09:30 mbb-2 kernel: mueb: port 3(eth2) entering forwarding state Jun 8 06:09:30 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 8 06:10:09 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 8 06:10:09 mbb-2 kernel: mueb: port 3(eth2) entering blocking state Jun 8 06:10:10 mbb-2 kernel: mueb: retransmitting tcn bpdu (11) Jun 8 06:10:41 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 2(eth1) (12) Jun 8 06:10:41 mbb-2 kernel: mueb: port 2(eth1) entering listening state Jun 8 06:10:45 mbb-2 kernel: mueb: port 2(eth1) entering learning state Jun 8 06:10:49 mbb-2 kernel: mueb: port 2(eth1) entering forwarding state Jun 8 06:10:49 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 8 06:11:06 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 8 06:11:06 mbb-2 kernel: mueb: port 2(eth1) entering blocking state Jun 8 06:11:33 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 1(eth0) (13) Jun 8 06:11:33 mbb-2 kernel: mueb: port 2(eth1) entering listening state Jun 8 06:11:37 mbb-2 kernel: mueb: port 2(eth1) entering learning state Jun 8 06:11:41 mbb-2 kernel: mueb: port 2(eth1) entering forwarding state Jun 8 06:11:41 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 8 06:14:18 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 8 06:14:18 mbb-2 kernel: mueb: port 2(eth1) entering blocking state Jun 8 06:14:19 mbb-2 kernel: mueb: retransmitting tcn bpdu |
Apparently the root bridge immediately acknowledges this tcn bpdu in the next Hello message it sends (the protocol requires for the root bridge to acknowledge it), because this is the only such message we see.
Note: In situations where you see loads of these messages, it means that the root bridge cannot acknowledge them, which probably means your root bridge has a twisted STP implementation.
The root bridge mbb-1 was not so chatty. It only reported some topology changes and propagated them as you can see in Example 22. If somebody can offer a explanation why the root bridge is so quiet in messaging please tell me.
Example 22. mbb-2 Message Output Of Bridge Test
Jun 8 06:06:52 mbb-1 kernel: mueb: received tcn bpdu on port 1(eth0) Jun 8 06:06:52 mbb-1 kernel: mueb: topology change detected, propagating Jun 8 06:07:31 mbb-1 kernel: mueb: received tcn bpdu on port 1(eth0) Jun 8 06:07:31 mbb-1 kernel: mueb: topology change detected, propagating Jun 8 06:07:32 mbb-1 kernel: mueb: received tcn bpdu on port 1(eth0) Jun 8 06:07:32 mbb-1 kernel: mueb: topology change detected, propagating Jun 8 06:08:11 mbb-1 kernel: mueb: received tcn bpdu on port 1(eth0) Jun 8 06:08:11 mbb-1 kernel: mueb: topology change detected, propagating Jun 8 06:08:29 mbb-1 kernel: mueb: received tcn bpdu on port 1(eth0) Jun 8 06:08:29 mbb-1 kernel: mueb: topology change detected, propagating Jun 8 06:09:03 mbb-1 kernel: mueb: received tcn bpdu on port 2(eth1) Jun 8 06:09:03 mbb-1 kernel: mueb: topology change detected, propagating Jun 8 06:11:40 mbb-1 kernel: mueb: received tcn bpdu on port 1(eth0) Jun 8 06:11:40 mbb-1 kernel: mueb: topology change detected, propagating Jun 8 06:11:41 mbb-1 kernel: mueb: received tcn bpdu on port 1(eth0) Jun 8 06:11:41 mbb-1 kernel: mueb: topology change detected, propagating |
One of the other bridges tells us that the topology of the LAN has changed (see Example 21). Well, okay. We will set lower timeouts on our MACC table for a short period of time, and we will propagate this topology change throughout the network.
The ultimate test is of course a total blocking, breakdown or something similar to the root bridge. I did this by shooting down the root bridge by init 1. Next I brought it up again with init 2. Last I pulled all plugs out of the root bridge and waited for some time before I placed them again. In Example 23 you will see the messages from the master-bridge mbb-1, and in Example 24 you see what happened the same time at the backup-bridge mbb-2.
Example 23. Test Messages Of Master Bridge mbb-1
Jun 12 13:35:15 mbb-1 init: Switching to runlevel: 1 Jun 12 13:35:20 mbb-1 kernel: mueb: port 4(eth3) entering disabled state Jun 12 13:35:20 mbb-1 kernel: mueb: port 3(eth2) entering disabled state Jun 12 13:35:20 mbb-1 kernel: mueb: port 2(eth1) entering disabled state Jun 12 13:35:20 mbb-1 kernel: mueb: port 1(eth0) entering disabled state Jun 12 13:35:20 mbb-1 kernel: mueb: port 2(eth1) entering disabled state Jun 12 13:35:20 mbb-1 kernel: device eth1 left promiscuous mode Jun 12 13:35:20 mbb-1 kernel: mueb: port 1(eth0) entering disabled state Jun 12 13:35:20 mbb-1 kernel: device eth0 left promiscuous mode Jun 12 13:35:20 mbb-1 kernel: mueb: port 4(eth3) entering disabled state Jun 12 13:35:20 mbb-1 kernel: device eth3 left promiscuous mode Jun 12 13:35:20 mbb-1 kernel: mueb: port 3(eth2) entering disabled state Jun 12 13:35:20 mbb-1 kernel: device eth2 left promiscuous mode Jun 12 13:35:50 mbb-1 init: Switching to runlevel: 2 Jun 12 13:35:50 mbb-1 kernel: NET4: Ethernet Bridge 008 for NET4.0 Jun 12 13:35:51 mbb-1 kernel: device eth0 entered promiscuous mode Jun 12 13:35:51 mbb-1 kernel: device eth1 entered promiscuous mode Jun 12 13:35:51 mbb-1 kernel: device eth2 entered promiscuous mode Jun 12 13:35:51 mbb-1 kernel: device eth3 entered promiscuous mode Jun 12 13:35:51 mbb-1 kernel: mueb: port 4(eth3) entering listening state Jun 12 13:35:51 mbb-1 kernel: mueb: port 3(eth2) entering listening state Jun 12 13:35:51 mbb-1 kernel: mueb: port 2(eth1) entering listening state Jun 12 13:35:51 mbb-1 kernel: mueb: port 1(eth0) entering listening state Jun 12 13:35:51 mbb-1 kernel: mueb: received tcn bpdu on port 2(eth1) Jun 12 13:35:51 mbb-1 kernel: mueb: topology change detected, propagating Jun 12 13:35:52 mbb-1 kernel: mueb: received tcn bpdu on port 1(eth0) Jun 12 13:35:52 mbb-1 kernel: mueb: topology change detected, propagating Jun 12 13:35:55 mbb-1 kernel: mueb: port 4(eth3) entering learning state Jun 12 13:35:55 mbb-1 kernel: mueb: port 3(eth2) entering learning state Jun 12 13:35:55 mbb-1 kernel: mueb: port 2(eth1) entering learning state Jun 12 13:35:55 mbb-1 kernel: mueb: port 1(eth0) entering learning state Jun 12 13:35:59 mbb-1 kernel: mueb: port 4(eth3) entering forwarding state Jun 12 13:35:59 mbb-1 kernel: mueb: topology change detected, propagating Jun 12 13:35:59 mbb-1 kernel: mueb: port 3(eth2) entering forwarding state Jun 12 13:35:59 mbb-1 kernel: mueb: topology change detected, propagating Jun 12 13:35:59 mbb-1 kernel: mueb: port 2(eth1) entering forwarding state Jun 12 13:35:59 mbb-1 kernel: mueb: topology change detected, propagating Jun 12 13:35:59 mbb-1 kernel: mueb: port 1(eth0) entering forwarding state Jun 12 13:35:59 mbb-1 kernel: mueb: topology change detected, propagating Jun 12 13:39:03 mbb-1 kernel: mueb: received tcn bpdu on port 1(eth0) Jun 12 13:39:03 mbb-1 kernel: mueb: topology change detected, propagating Jun 12 13:39:05 mbb-1 kernel: mueb: received tcn bpdu on port 1(eth0) Jun 12 13:39:05 mbb-1 kernel: mueb: topology change detected, propagating |
Example 24. Test Messages Of Backup Bridge mbb-2
Jun 12 13:35:21 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 4(eth3) Jun 12 13:35:21 mbb-2 kernel: mueb: port 4(eth3) entering listening state Jun 12 13:35:21 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 3(eth2) Jun 12 13:35:21 mbb-2 kernel: mueb: port 3(eth2) entering listening state Jun 12 13:35:21 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 2(eth1) Jun 12 13:35:21 mbb-2 kernel: mueb: port 2(eth1) entering listening state Jun 12 13:35:21 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 1(eth0) Jun 12 13:35:21 mbb-2 kernel: mueb: topology change detected, propagating Jun 12 13:35:25 mbb-2 kernel: mueb: port 4(eth3) entering learning state Jun 12 13:35:25 mbb-2 kernel: mueb: port 3(eth2) entering learning state Jun 12 13:35:25 mbb-2 kernel: mueb: port 2(eth1) entering learning state Jun 12 13:35:29 mbb-2 kernel: mueb: port 4(eth3) entering forwarding state Jun 12 13:35:29 mbb-2 kernel: mueb: topology change detected, propagating Jun 12 13:35:29 mbb-2 kernel: mueb: port 3(eth2) entering forwarding state Jun 12 13:35:29 mbb-2 kernel: mueb: topology change detected, propagating Jun 12 13:35:29 mbb-2 kernel: mueb: port 2(eth1) entering forwarding state Jun 12 13:35:29 mbb-2 kernel: mueb: topology change detected, propagating Jun 12 13:35:49 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 12 13:35:49 mbb-2 kernel: mueb: port 3(eth2) entering blocking state Jun 12 13:35:49 mbb-2 kernel: mueb: topology change detected, \ <6>mueb: port 4(eth3) entering blocking state Jun 12 13:35:49 mbb-2 kernel: mueb: topology change detected, \ <6>mueb: port 2(eth1) entering blocking state Jun 12 13:35:50 mbb-2 kernel: mueb: retransmitting tcn bpdu Jun 12 13:38:26 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 2(eth1) Jun 12 13:38:26 mbb-2 kernel: mueb: port 2(eth1) entering listening state Jun 12 13:38:27 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 3(eth2) Jun 12 13:38:27 mbb-2 kernel: mueb: port 3(eth2) entering listening state Jun 12 13:38:28 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 4(eth3) Jun 12 13:38:28 mbb-2 kernel: mueb: port 4(eth3) entering listening state Jun 12 13:38:30 mbb-2 kernel: mueb: port 2(eth1) entering learning state Jun 12 13:38:30 mbb-2 kernel: mueb: neighbour 0000.08:00:06:28:15:f6 lost on port 1(eth0) Jun 12 13:38:30 mbb-2 kernel: mueb: topology change detected, propagating Jun 12 13:38:31 mbb-2 kernel: mueb: port 3(eth2) entering learning state Jun 12 13:38:32 mbb-2 kernel: mueb: port 4(eth3) entering learning state Jun 12 13:38:34 mbb-2 kernel: mueb: port 2(eth1) entering forwarding state Jun 12 13:38:34 mbb-2 kernel: mueb: topology change detected, propagating Jun 12 13:38:35 mbb-2 kernel: mueb: port 3(eth2) entering forwarding state Jun 12 13:38:35 mbb-2 kernel: mueb: topology change detected, propagating Jun 12 13:38:36 mbb-2 kernel: mueb: port 4(eth3) entering forwarding state Jun 12 13:38:36 mbb-2 kernel: mueb: topology change detected, propagating Jun 12 13:39:01 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 12 13:39:01 mbb-2 kernel: mueb: port 3(eth2) entering blocking state Jun 12 13:39:01 mbb-2 kernel: mueb: topology change detected, \ <6>mueb: port 4(eth3) entering blocking state Jun 12 13:39:02 mbb-2 kernel: mueb: topology change detected, sending tcn bpdu Jun 12 13:39:02 mbb-2 kernel: mueb: port 2(eth1) entering blocking state |
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