X-Git-Url: http://git.onelab.eu/?a=blobdiff_plain;f=tests%2Fbfd.at;h=6583dd565907d8ddcf20811c718ec502217bd901;hb=294a55509b4738504ffece038147112e9104ddc9;hp=3154909e69ccabe54afbdb4807fcb979824c8e71;hpb=635c5db93df8c69db6289c58ebda0e64cea85c9b;p=sliver-openvswitch.git diff --git a/tests/bfd.at b/tests/bfd.at index 3154909e6..6583dd565 100644 --- a/tests/bfd.at +++ b/tests/bfd.at @@ -34,6 +34,14 @@ AT_CHECK([ovs-appctl bfd/show $1 | sed -n '/RX Interval/p'],[0], Remote Minimum RX Interval: $4 ]) ]) + +m4_define([BFD_VSCTL_LIST_IFACE], [ +AT_CHECK([ovs-vsctl list interface $1 | sed -n $2],[0], +[dnl +$3 +]) +]) + AT_SETUP([bfd - basic config on different bridges]) #Create 2 bridges connected by patch ports and enable BFD OVS_VSWITCHD_START( @@ -255,32 +263,24 @@ OVS_VSWITCHD_START([add-br br1 -- set bridge br1 datapath-type=dummy -- \ options:peer=p0 ofport_request=2 -- \ add-port br0 p0 -- set Interface p0 type=patch \ options:peer=p1 ofport_request=1 -- \ - set Interface p0 bfd:enable=true bfd:min_tx=300 bfd:min_rx=300 bfd:decay_min_rx=3000 -- \ + set Interface p0 bfd:enable=true bfd:min_tx=300 bfd:min_rx=300 -- \ set Interface p1 bfd:enable=true bfd:min_tx=500 bfd:min_rx=500]) ovs-appctl time/stop -for i in `seq 0 1`; do ovs-appctl time/warp 500; done - -# figuring out which port initiates the bfd session is important, -# since this whole unit test is based on exact timing sequence. -# for example, if p0 starts the bfd session, the p0 should have gone -# [up] now, and it will decay after 3000ms. if p1 starts the bfd -# session, we should wait for another 1000ms for p0 to go [up], and -# then 3000ms for it to decay. - -# check which port sends the first bfd control packet. -if [ ovs-appctl bfd/show p0 | grep "Remote Session State: init" ] -then -# if p0 sends first, it should have gone up already. - BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [init], [No Diagnostic]) -else -# if p1 sends first, wait 1000ms for p0 to go up. - BFD_CHECK([p0], [false], [false], [none], [init], [No Diagnostic], [none], [down], [No Diagnostic]) - for i in `seq 0 1`; do ovs-appctl time/warp 500; done -fi +# wait for a while to stablize everything. +for i in `seq 0 9`; do ovs-appctl time/warp 500; done +BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) +BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) +BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) +BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) # Test-1 BFD decay: decay to decay_min_rx +AT_CHECK([ovs-vsctl set interface p0 bfd:decay_min_rx=3000]) +# set the bfd:decay_min_rx of p0 to 3000ms. +BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) +BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) + # bfd:decay_min_rx is set to 3000ms after the local state of p0 goes up, # so for the first 2500ms, there should be no change. for i in `seq 0 4`; do ovs-appctl time/warp 500; done @@ -288,61 +288,40 @@ BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [N BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) -# advance the clock by 500ms. -ovs-appctl time/warp 500 -# now at 3000ms, min_rx should decay to 3000ms and there should be -# poll sequence flags. -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) +# advance the clock by 2000ms. +for i in `seq 0 3`; do ovs-appctl time/warp 500; done +# now, min_rx should decay to 3000ms. BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [3000ms], [3000ms], [500ms]) -# since the tx_min of p0 is still 500ms, after 500ms from decay, -# the control message will be sent from p0 to p1, and p1 'flag' -# will go back to none. -ovs-appctl time/warp 500 -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) - # the rx_min of p0 is 3000ms now, and p1 will send next control message -# 3000ms after decay. so, advance clock by 2500ms to make that happen. -for i in `seq 0 4`; do ovs-appctl time/warp 500; done +# 3000ms after decay. so, advance clock by 5000ms to make that happen. +for i in `seq 0 9`; do ovs-appctl time/warp 500; done BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) +BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [3000ms], [3000ms], [500ms]) # End of Test-1 ############################################################### # Test-2 BFD decay: go back to cfg_min_rx when there is traffic -# receive packet at 1/100ms rate for 3000ms. -for i in `seq 0 30` +# receive packet at 1/100ms rate for 5000ms. +for i in `seq 0 49` do ovs-appctl time/warp 100 AT_CHECK([ovs-ofctl packet-out br1 3 2 "90e2ba01475000101856b2e80806000108000604000100101856b2e80202020300000000000002020202"], [0], [stdout], []) done # after a decay interval (3000ms), the p0 min_rx will go back to -# cfg_min_rx. there should be poll sequence flags. -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) -BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) -BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) - -# 500ms later, both direction will send control messages, -# and their 'flag' will go back to none. -ovs-appctl time/warp 500 -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) +# cfg_min_rx. BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) # End of Test-2 ############################################################### # Test-3 BFD decay: go back to cfg_min_rx when decay_min_rx is changed -# advance the clock by 2500ms to 3000m after restore of -# min_rx. p0 is decayed, and there should be the poll sequence flags. -for i in `seq 0 4`; do ovs-appctl time/warp 500; done -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) +# advance the clock by 5000m. p0 shoud decay. +for i in `seq 0 9`; do ovs-appctl time/warp 500; done BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [3000ms], [3000ms], [500ms]) @@ -353,10 +332,9 @@ BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [none], [up], [N # change decay_min_rx to 1000ms. # for decay_min_rx < 2000ms, the decay detection time is set to 2000ms. -# this should firstly reset the min_rx and start poll sequence. +# this should reset the min_rx. AT_CHECK([ovs-vsctl set Interface p0 bfd:decay_min_rx=1000]) -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) +ovs-appctl time/warp 100 BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) @@ -371,24 +349,19 @@ do BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) done -ovs-appctl time/warp 500 -# at 2000ms, decay should happen and there should be the poll sequence flags. -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) +# advance the clock by 2000ms, decay should have happened. +for i in `seq 0 3`; do ovs-appctl time/warp 500; done BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [1000ms], [1000ms], [500ms]) # advance the clock, so 'flag' go back to none. -for i in `seq 0 4`; do ovs-appctl time/warp 500; done +for i in `seq 0 9`; do ovs-appctl time/warp 500; done # End of Test-3 ############################################################### # Test-4 BFD decay: set min_rx to 800ms. # this should firstly reset the min_rx and then re-decay to 1000ms. AT_CHECK([ovs-vsctl set Interface p0 bfd:min_rx=800]) -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) -BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) -BFD_CHECK_RX([p0], [800ms], [800ms], [500ms]) +ovs-appctl time/warp 100 # for the following 1600ms, there should be no decay, # since the decay detection time is set to 2000ms. @@ -401,23 +374,18 @@ do BFD_CHECK_RX([p0], [800ms], [800ms], [500ms]) done -ovs-appctl time/warp 400 -# at 2000ms, decay should happen and there should be the poll sequence flags. -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) +# advance the clock by 2000ms, decay should have happened. +for i in `seq 0 3`; do ovs-appctl time/warp 500; done BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [1000ms], [1000ms], [500ms]) # advance the clock, so 'flag' go back to none. -for i in `seq 0 4`; do ovs-appctl time/warp 500; done +for i in `seq 0 9`; do ovs-appctl time/warp 500; done # End of Test-4 ############################################################### # Test-5 BFD decay: set min_rx to 300ms and decay_min_rx to 5000ms together. AT_CHECK([ovs-vsctl set Interface p0 bfd:min_rx=300 bfd:decay_min_rx=5000]) -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) -BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) -BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) +ovs-appctl time/warp 100 # for decay_min_rx > 2000ms, the decay detection time is set to # decay_min_rx (5000ms). @@ -432,10 +400,8 @@ do BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) done -ovs-appctl time/warp 500 -# at 5000ms, decay should happen and there should be the poll sequence flags. -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) +# advance the clock by 2000ms, decay should have happened. +for i in `seq 0 3`; do ovs-appctl time/warp 500; done BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [5000ms], [5000ms], [500ms]) # advance the clock, to make 'flag' go back to none. @@ -445,11 +411,8 @@ for i in `seq 0 9`; do ovs-appctl time/warp 500; done # Test-6 BFD decay: set decay_min_rx to 0 to disable bfd decay. AT_CHECK([ovs-vsctl set Interface p0 bfd:decay_min_rx=0]) -# min_rx is reset, and there should be the poll sequence flags. -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) -BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) -BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) +ovs-appctl time/warp 100 + for i in `seq 0 20` do ovs-appctl time/warp 500 @@ -466,8 +429,6 @@ AT_CHECK([ovs-vsctl set Interface p0 bfd:decay_min_rx=3000 -- set interface p1 b # there will be poll sequences from both sides. and it is hard to determine the # order. so just skip 10000ms and check the RX/TX. at that time, p0 should be in decay already. for i in `seq 0 19`; do ovs-appctl time/warp 500; done -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) BFD_CHECK_TX([p0], [500ms], [300ms], [5000ms]) BFD_CHECK_RX([p0], [5000ms], [3000ms], [500ms]) # then, there should be no change of status, @@ -481,16 +442,9 @@ do done # reset the p1's min_tx to 500ms. AT_CHECK([ovs-vsctl set Interface p1 bfd:min_tx=500]) -# check the poll sequence. since p0 has been in decay, now the RX will show 3000ms. -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) -BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) -BFD_CHECK_RX([p0], [3000ms], [3000ms], [500ms]) -# advance the clock by 3000ms, at that time, p1 will send the control packets. -# then there will be no poll flags. -for i in `seq 0 5`; do ovs-appctl time/warp 500; done -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) +ovs-appctl time/warp 100 + +# since p0 has been in decay, now the RX will show 3000ms. BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [3000ms], [3000ms], [500ms]) # End of Test-7 ############################################################### @@ -500,8 +454,8 @@ BFD_CHECK_RX([p0], [3000ms], [3000ms], [500ms]) # turn bfd off on p1 AT_CHECK([ovs-vsctl set Interface p1 bfd:enable=false]) -# check the state change of bfd on p0. After 9000 ms (3 min_rx intervals) -for i in `seq 0 8`; do ovs-appctl time/warp 1000; done +# check the state change of bfd on p0. After 15000 ms (> 3 min_rx intervals) +for i in `seq 0 14`; do ovs-appctl time/warp 1000; done BFD_CHECK([p0], [false], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) BFD_CHECK_TX([p0], [1000ms], [1000ms], [0ms]) BFD_CHECK_RX([p0], [300ms], [300ms], [1ms]) @@ -512,8 +466,8 @@ for i in `seq 0 3`; do ovs-appctl time/warp 500; done BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) -# since the decay_min_rx is still 3000ms, so after 3000ms, there should be the decay. -for i in `seq 0 5`; do ovs-appctl time/warp 500; done +# since the decay_min_rx is still 3000ms, so after 5000ms, p0 should have decayed. +for i in `seq 0 9`; do ovs-appctl time/warp 500; done BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [3000ms], [3000ms], [500ms]) # End of Test-8 ################################################################ @@ -522,8 +476,14 @@ OVS_VSWITCHD_STOP AT_CLEANUP # Tests below are for bfd forwarding_if_rx feature. -# forwarding_if_rx Test1: bfd is enabled on one end of link. -AT_SETUP([bfd - bfd forwarding_if_rx 1]) + +# forwarding_if_rx Test1 +# Test1 tests the case when bfd is only enabled on one end of the link. +# Under this situation, the bfd state should be DOWN and the forwarding +# flag should be FALSE by default. However, if forwarding_if_rx is +# enabled, as long as there is packet received, the bfd forwarding flag +# should be TRUE. +AT_SETUP([bfd - bfd forwarding_if_rx - bfd on one side]) OVS_VSWITCHD_START([add-br br1 -- set bridge br1 datapath-type=dummy -- \ add-port br1 p1 -- set Interface p1 type=patch \ options:peer=p0 ofport_request=2 -- \ @@ -549,26 +509,8 @@ do BFD_CHECK([p0], [false], [false], [none], [down], [No Diagnostic], [none], [down], [No Diagnostic]) done -# receive one packet. -AT_CHECK([ovs-ofctl packet-out br1 3 2 "90e2ba01475000101856b2e80806000108000604000100101856b2e80202020300000000000002020202"], - [0], [stdout], []) -for i in `seq 0 14` -do - ovs-appctl time/warp 100 - # the forwarding flag should be true, since there is data received. - BFD_CHECK([p0], [true], [false], [none], [down], [No Diagnostic], [none], [down], [No Diagnostic]) - BFD_CHECK_TX([p0], [1000ms], [1000ms], [0ms]) - BFD_CHECK_RX([p0], [500ms], [500ms], [1ms]) -done - -# Stop sending packets for 1000ms. -for i in `seq 0 9`; do ovs-appctl time/warp 100; done -BFD_CHECK([p0], [false], [false], [none], [down], [No Diagnostic], [none], [down], [No Diagnostic]) -BFD_CHECK_TX([p0], [1000ms], [1000ms], [0ms]) -BFD_CHECK_RX([p0], [500ms], [500ms], [1ms]) - -# receive packet at 1/100ms rate for 1000ms. -for i in `seq 0 9` +# receive packet at 1/100ms rate for 2000ms. +for i in `seq 0 19` do ovs-appctl time/warp 100 AT_CHECK([ovs-ofctl packet-out br1 3 2 "90e2ba01475000101856b2e80806000108000604000100101856b2e80202020300000000000002020202"], @@ -576,8 +518,6 @@ do done # the forwarding flag should be true, since there is data received. BFD_CHECK([p0], [true], [false], [none], [down], [No Diagnostic], [none], [down], [No Diagnostic]) -BFD_CHECK_TX([p0], [1000ms], [1000ms], [0ms]) -BFD_CHECK_RX([p0], [500ms], [500ms], [1ms]) # reset bfd forwarding_if_rx. AT_CHECK([ovs-vsctl set Interface p0 bfd:forwarding_if_rx=false], [0]) @@ -589,8 +529,12 @@ BFD_CHECK_RX([p0], [500ms], [500ms], [1ms]) AT_CHECK([ovs-vsctl del-br br1], [0], [ignore]) AT_CLEANUP -# forwarding_if_rx Test2: bfd is enabled on both ends of link. -AT_SETUP([bfd - bfd forwarding_if_rx 2]) + +# forwarding_if_rx Test2 +# Test2 is for testing that the enable of forwarding_if_rx will not +# affect the normal bfd communication. bfd is enabled on both ends of +# the link. +AT_SETUP([bfd - bfd forwarding_if_rx - bfd on both sides]) OVS_VSWITCHD_START([add-br br1 -- set bridge br1 datapath-type=dummy -- \ add-port br1 p1 -- set Interface p1 type=patch \ options:peer=p0 ofport_request=2 -- \ @@ -623,7 +567,7 @@ for i in `seq 0 1` do ovs-appctl time/warp 500 BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) - for i in `seq 0 5` + for i in `seq 0 4` do AT_CHECK([ovs-ofctl packet-out br1 3 2 "90e2ba01475000101856b2e80806000108000604000100101856b2e80202020300000000000002020202"], [0], [stdout], []) @@ -635,22 +579,10 @@ done ovs-appctl time/warp 500 BFD_CHECK([p0], [true], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) -# receive packet at 1/100ms rate for 1000ms. -for i in `seq 0 9` -do - AT_CHECK([ovs-ofctl packet-out br1 3 2 "90e2ba01475000101856b2e80806000108000604000100101856b2e80202020300000000000002020202"], - [0], [stdout], []) - ovs-appctl time/warp 100 - # the forwarding flag should always be true during this time. - BFD_CHECK([p0], [true], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) -done - # reset bfd forwarding_if_rx. AT_CHECK([ovs-vsctl set Interface p0 bfd:forwarding_if_rx=false], [0]) # forwarding flag should turn to false since the STATE is DOWN. BFD_CHECK([p0], [false], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) -BFD_CHECK_TX([p0], [1000ms], [1000ms], [0ms]) -BFD_CHECK_RX([p0], [500ms], [500ms], [1ms]) # re-enable bfd on the other end. the states should be up. AT_CHECK([ovs-vsctl set Interface p1 bfd:enable=true bfd:min_tx=300 bfd:min_rx=300]) @@ -664,8 +596,10 @@ BFD_CHECK_RX([p0], [500ms], [500ms], [300ms]) AT_CHECK([ovs-vsctl del-br br1], [0], [ignore]) AT_CLEANUP -# forwarding_if_rx Test3: bfd is enabled on both ends of link and decay is enabled. -AT_SETUP([bfd - bfd forwarding_if_rx 3]) +# forwarding_if_rx Test3 +# Test3 is for testing that the enable of forwarding_if_rx will not +# affect the bfd decay feature. bfd is enabled on both ends of the link. +AT_SETUP([bfd - bfd forwarding_if_rx - with bfd decay]) OVS_VSWITCHD_START([add-br br1 -- set bridge br1 datapath-type=dummy -- \ add-port br1 p1 -- set Interface p1 type=patch \ options:peer=p0 ofport_request=2 -- \ @@ -693,42 +627,27 @@ do BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) done -# reconfigure the decay_min_rx to 1000ms. check the poll sequence. +# reconfigure the decay_min_rx to 1000ms. AT_CHECK([ovs-vsctl set interface p0 bfd:decay_min_rx=1000]) -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) -BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) -BFD_CHECK_RX([p0], [500ms], [300ms], [500ms]) -# wait for 2000ms to decay. -for i in `seq 0 3`; do ovs-appctl time/warp 500; done -BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [final], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [poll], [up], [No Diagnostic]) -BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) -BFD_CHECK_RX([p0], [1000ms], [1000ms], [500ms]) - -# wait for 1000ms, so that the flags will go back to none. -for i in `seq 0 1`; do ovs-appctl time/warp 500; done +# wait for 5000ms to decay. +for i in `seq 0 9`; do ovs-appctl time/warp 500; done BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) -BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) BFD_CHECK_TX([p0], [500ms], [300ms], [500ms]) BFD_CHECK_RX([p0], [1000ms], [1000ms], [500ms]) # stop the bfd on one side. AT_CHECK([ovs-vsctl set Interface p1 bfd:enable=false], [0]) -# for within 2500ms, the detection timer is not out. -# there is no change to status. -for i in `seq 0 4` + +# advance clock by 4000ms, while receiving packets. +# the STATE should go DOWN, due to Control Detection Time Expired. +# but forwarding flag should be still true. +for i in `seq 0 7` do ovs-appctl time/warp 500 - BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) AT_CHECK([ovs-ofctl packet-out br1 3 2 "90e2ba01475000101856b2e80806000108000604000100101856b2e80202020300000000000002020202"], [0], [stdout], []) done - -# at 3000ms, the STATE should go DOWN, due to Control Detection Time Expired. -# but forwarding flag should be still true. -ovs-appctl time/warp 500 BFD_CHECK([p0], [true], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) # receive packet at 1/100ms rate for 1000ms. @@ -741,32 +660,152 @@ do BFD_CHECK([p0], [true], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) done -# stop receiving for 2000ms. -for i in `seq 0 19`; do ovs-appctl time/warp 100; done +# stop receiving for 5000ms. +for i in `seq 0 49`; do ovs-appctl time/warp 100; done BFD_CHECK([p0], [false], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) # reset bfd forwarding_if_rx. AT_CHECK([ovs-vsctl set Interface p0 bfd:forwarding_if_rx=false]) -# forwarding flag should turn to false since the STATE is DOWN. BFD_CHECK([p0], [false], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) -BFD_CHECK_TX([p0], [1000ms], [1000ms], [0ms]) -BFD_CHECK_RX([p0], [300ms], [300ms], [1ms]) - # re-enable bfd forwarding_if_rx. AT_CHECK([ovs-vsctl set Interface p0 bfd:forwarding_if_rx=true]) -# there should be no change. BFD_CHECK([p0], [false], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) -BFD_CHECK_TX([p0], [1000ms], [1000ms], [0ms]) -BFD_CHECK_RX([p0], [300ms], [300ms], [1ms]) # re-enable bfd on the other end. the states should be up. AT_CHECK([ovs-vsctl set Interface p1 bfd:enable=true bfd:min_tx=300 bfd:min_rx=300]) # advance the clock, to stablize the states. -for i in `seq 0 9`; do ovs-appctl time/warp 500; done +for i in `seq 0 19`; do ovs-appctl time/warp 500; done BFD_CHECK([p0], [true], [false], [none], [up], [Control Detection Time Expired], [none], [up], [No Diagnostic]) BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [none], [up], [Control Detection Time Expired]) BFD_CHECK_TX([p0], [300ms], [300ms], [300ms]) BFD_CHECK_RX([p0], [1000ms], [1000ms], [300ms]) AT_CHECK([ovs-vsctl del-br br1], [0], [ignore]) +AT_CLEANUP + +# test bfd:flap_count. +# This test contains three part: +# part 1. tests the flap_count on normal bfd monitored link. +# part 2. tests the flap_count when forwarding override is used. +# part 3. tests the flap_count when forwarding_if_rx is enabled. +AT_SETUP([bfd - flap_count]) +#Create 2 bridges connected by patch ports and enable bfd +OVS_VSWITCHD_START([add-br br1 -- \ + set bridge br1 datapath-type=dummy \ + other-config:hwaddr=aa:55:aa:56:00:00 -- \ + add-port br1 p1 -- set Interface p1 type=patch \ + options:peer=p0 ofport_request=2 -- \ + add-port br0 p0 -- set Interface p0 type=patch \ + options:peer=p1 ofport_request=1 -- \ + set Interface p0 bfd:enable=true bfd:min_tx=100 bfd:min_rx=100 -- \ + set Interface p1 bfd:enable=true bfd:min_tx=100 bfd:min_rx=100]) + +ovs-appctl time/stop + +# Part-1 wait for a while to stablize bfd. +for i in `seq 0 100`; do ovs-appctl time/warp 100; done +BFD_CHECK([p0], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) +BFD_CHECK([p1], [true], [false], [none], [up], [No Diagnostic], [none], [up], [No Diagnostic]) +BFD_CHECK_TX([p0], [100ms], [100ms], [100ms]) +BFD_CHECK_RX([p0], [100ms], [100ms], [100ms]) +# both p0 and p1 should have flap_count = "1". since down->up. +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["1"]) +BFD_VSCTL_LIST_IFACE([p1], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["1"]) + +# turn bfd on p1 off, should increment the bfd:flap_count on p0. +AT_CHECK([ovs-vsctl set interface p1 bfd:enable=false]) +for i in `seq 0 49`; do ovs-appctl time/warp 100; done +BFD_CHECK([p0], [false], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["2"]) +AT_CHECK([ovs-vsctl list interface p1 | sed -n "s/^.*flap_count=\(.*\), forwarding.*$/\1/p"]) + +# turn bfd on p1 on again, should increment the bfd:flap_count on p0. +# p1 should still have flap_count = "1", since it is reset. +AT_CHECK([ovs-vsctl set interface p1 bfd:enable=true]) +for i in `seq 0 49`; do ovs-appctl time/warp 100; done +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["3"]) +BFD_VSCTL_LIST_IFACE([p1], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["1"]) + + +# Part-2 now turn on the forwarding_override. +AT_CHECK([ovs-appctl bfd/set-forwarding p0 true], [0], [dnl +OK +]) + +# turn bfd on p1 off, should not increment the bfd:flap_count on p0, since forwarding_override is on. +AT_CHECK([ovs-vsctl set interface p1 bfd:enable=false]) +for i in `seq 0 49`; do ovs-appctl time/warp 100; done +BFD_CHECK([p0], [true], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["3"]) +AT_CHECK([ovs-vsctl list interface p1 | sed -n "s/^.*flap_count=\(.*\), forwarding.*$/\1/p"]) + +# turn bfd on p1 on again, should not increment the bfd:flap_count on p0, since forwarding override is on. +# p1 should still have flap_count = "1", since it is reset. +AT_CHECK([ovs-vsctl set interface p1 bfd:enable=true]) +for i in `seq 0 49`; do ovs-appctl time/warp 100; done +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["3"]) +BFD_VSCTL_LIST_IFACE([p1], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["1"]) + +# turn the forwarding_override back to normal. +AT_CHECK([ovs-appctl bfd/set-forwarding p0 normal], [0], [dnl +OK +]) + +# turn bfd on p1 off and on, should increment the bfd:flap_count on p0. +AT_CHECK([ovs-vsctl set interface p1 bfd:enable=false]) +for i in `seq 0 49`; do ovs-appctl time/warp 100; done +AT_CHECK([ovs-vsctl set interface p1 bfd:enable=true]) +for i in `seq 0 49`; do ovs-appctl time/warp 100; done +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["5"]) +BFD_VSCTL_LIST_IFACE([p1], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["1"]) + +# Part-3 now turn on forwarding_if_rx. +AT_CHECK([ovs-vsctl set Interface p0 bfd:forwarding_if_rx=true], [0]) +# disable the bfd on p1. +AT_CHECK([ovs-vsctl set Interface p1 bfd:enable=false], [0]) + +# advance clock by 4000ms, while receiving packets. +# the STATE should go DOWN, due to Control Detection Time Expired. +# but forwarding flag should be true. +for i in `seq 0 39` +do + ovs-appctl time/warp 100 + AT_CHECK([ovs-ofctl packet-out br1 3 2 "90e2ba01475000101856b2e80806000108000604000100101856b2e80202020300000000000002020202"], + [0], [stdout], []) +done +BFD_CHECK([p0], [true], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) +# flap_count should remain unchanged. +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["5"]) + +# stop the traffic for 4000ms, the forwarding flag of p0 should turn false. +# and there should be the increment of flap_count. +for i in `seq 0 7`; do ovs-appctl time/warp 500; done +BFD_CHECK([p0], [false], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["6"]) + +# advance clock by 4000ms, and resume the traffic. +for i in `seq 0 39` +do + ovs-appctl time/warp 100 + AT_CHECK([ovs-ofctl packet-out br1 3 2 "90e2ba01475000101856b2e80806000108000604000100101856b2e80202020300000000000002020202"], + [0], [stdout], []) +done +BFD_CHECK([p0], [true], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) +# flap_count should be incremented again. +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["7"]) + +# stop the traffic for 4000ms, the forwarding flag of p0 should turn false. +# and there should be the increment of flap_count. +for i in `seq 0 7`; do ovs-appctl time/warp 500; done +BFD_CHECK([p0], [false], [false], [none], [down], [Control Detection Time Expired], [none], [down], [No Diagnostic]) +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["8"]) + +# turn on the bfd on p1. +AT_CHECK([ovs-vsctl set interface p1 bfd:enable=true]) +for i in `seq 0 49`; do ovs-appctl time/warp 100; done +# even though there is no data traffic, since p1 bfd is on again, should increment the flap_count. +BFD_VSCTL_LIST_IFACE([p0], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["9"]) +BFD_VSCTL_LIST_IFACE([p1], ["s/^.*flap_count=\(.*\), forwarding.*$/\1/p"], ["1"]) + +OVS_VSWITCHD_STOP AT_CLEANUP \ No newline at end of file