1 m4_divert_push([PREPARE_TESTS])
3 # Strips out uninteresting parts of ovs-ofctl output, as well as parts
4 # that vary from one run to another.
7 s/ (xid=0x[0-9a-fA-F]*)//
8 s/ duration=[0-9.]*s,//
15 s/dp_hash=0x[0-9a-f]*\//dp_hash=0x0\//
16 s/recirc_id=0x[0-9a-f]*,/recirc_id=0x0,/
20 # Filter (multiline) vconn debug messages from ovs-vswitchd.log.
21 # Use with vconn_sub() and ofctl_strip()
22 print_vconn_debug () { awk -F\| < ovs-vswitchd.log '
24 /\|vconn\|DBG\|/ { sub(/[ \t]*$/, ""); print $3 "|" $4 "|" $5; prt=1; next }
25 $4 != "" { prt=0; next }
26 prt==1 { sub(/[ \t]*$/, ""); print $0 }
32 s/tcp:127.0.0.1:[0-9][0-9]*:/unix:/
38 # PARSE_LISTENING_PORT LOGFILE VARIABLE
40 # Parses the TCP or SSL port on which a server is listening from
41 # LOGFILE, given that the server was told to listen on a kernel-chosen
42 # port, and assigns the port number to shell VARIABLE. You should
43 # specify the listening remote as ptcp:0:127.0.0.1 or
44 # pssl:0:127.0.0.1, or the equivalent with [::1] instead of 127.0.0.1.
46 # Here's an example of how to use this with ovsdb-server:
48 # ovsdb-server --log-file --remote=ptcp:0:127.0.0.1 ...
49 # PARSE_LISTENING_PORT([ovsdb-server.log], [TCP_PORT])
50 # # Now $TCP_PORT holds the listening port.
51 m4_define([PARSE_LISTENING_PORT],
52 [OVS_WAIT_UNTIL([$2=`sed -n 's/.*0:.*: listening on port \([[0-9]]*\)$/\1/p' "$1"` && test X != X"[$]$2"])])
55 "$@" -vconsole:off --detach --no-chdir --pidfile --log-file
56 pid=`cat "$OVS_RUNDIR"/$1.pid`
62 # Starts a new simulated Open vSwitch instance named SANDBOX. Files related to
63 # the instance, such as logs, databases, sockets, and pidfiles, are created in
64 # a subdirectory of the main test directory also named SANDBOX. Afterward, the
65 # "as" command (see below) can be used to run Open vSwitch utilities in the
66 # context of the new sandbox.
68 # The new sandbox starts out without any bridges. Use ovs-vsctl in the context
69 # of the new sandbox to create a bridge, e.g.:
71 # sim_add hv0 # Create sandbox hv0.
72 # as hv0 # Set hv0 as default sandbox.
73 # ovs-vsctl add-br br0 # Add bridge br0 inside hv0.
78 # as hv0 ovs-vsctl add-br br0
81 echo "adding simulator '$1'"
86 local d="$ovs_base"/$1
87 mkdir "$d" || return 1
90 # Create database and start ovsdb-server.
91 : > "$d"/.conf.db.~lock~
92 as $1 ovsdb-tool create "$d"/conf.db "$abs_top_srcdir"/vswitchd/vswitch.ovsschema || return 1
93 as $1 start_daemon ovsdb-server --remote=punix:"$d"/db.sock || return 1
95 # Initialize database.
96 as $1 ovs-vsctl --no-wait -- init || return 1
99 as $1 start_daemon ovs-vswitchd --enable-dummy=system -vvconn -vofproto_dpif
102 # "as $1" sets the OVS_*DIR environment variables to point to $ovs_base/$1.
104 # "as $1 COMMAND..." sets those variables in a subshell and invokes COMMAND
107 if test "X$1" != X; then
108 (ovs_setenv $1; shift; $@)
114 # ovn_init_db DATABASE
116 # Creates and initializes the given DATABASE (one of "ovn-sb" or "ovn-nb"),
117 # starts its ovsdb-server instance, and sets the appropriate environment
118 # variable (OVN_SB_DB or OVN_NB_DB) so that ovn-sbctl or ovn-nbctl uses the
119 # database by default.
121 # Usually invoked from ovn_start.
123 echo "creating $1 database"
125 mkdir "$d" || return 1
126 : > "$d"/.$1.db.~lock~
127 as $1 ovsdb-tool create "$d"/$1.db "$abs_top_srcdir"/ovn/$1.ovsschema
128 as $1 start_daemon ovsdb-server --remote=punix:"$d"/$1.sock "$d"/$1.db
129 local var=`echo $1_db | tr a-z- A-Z_`
130 AS_VAR_SET([$var], [unix:$ovs_base/$1/$1.sock]); export $var
135 # Creates and initializes ovn-sb and ovn-nb databases and starts their
136 # ovsdb-server instance, sets appropriate environment variables so that
137 # ovn-sbctl and ovn-nbctl use them by default, and starts ovn-northd running
143 echo "starting ovn-northd"
144 mkdir "$ovs_base"/northd
145 as northd start_daemon ovn-northd \
146 --ovnnb-db=unix:"$ovs_base"/ovn-nb/ovn-nb.sock \
147 --ovnsb-db=unix:"$ovs_base"/ovn-sb/ovn-sb.sock
150 # Interconnection networks.
152 # When multiple sandboxed Open vSwitch instances exist, one will inevitably
153 # want to connect them together. These commands allow for that. Conceptually,
154 # an interconnection network is a switch for which these functions make it easy
155 # to plug into other switches in other sandboxed Open vSwitch instances.
156 # Interconnection networks are implemented as bridges in a switch named "main",
157 # so to use interconnection networks please avoid working with that switch
162 # Creates a new interconnection network named NETWORK.
164 test -d "$ovs_base"/main || sim_add main || return 1
165 as main ovs-vsctl add-br "$1"
168 # net_attach NETWORK BRIDGE
170 # Adds a new port to BRIDGE in the default sandbox (as set with as()) and plugs
171 # it into the NETWORK interconnection network. NETWORK must already have been
172 # created by a previous invocation of net_add. The default sandbox must not be
175 local net=$1 bridge=$2
177 local port=${sandbox}_$bridge
179 -- add-port $net $port \
180 -- set Interface $port options:pstream="punix:$ovs_base/main/$port.sock" options:rxq_pcap="$ovs_base/main/$port-rx.pcap" options:tx_pcap="$ovs_base/main/$port-tx.pcap" \
184 -- set Interface $bridge options:tx_pcap="$ovs_base/$sandbox/$bridge-tx.pcap" options:rxq_pcap="$ovs_base/$sandbox/$bridge-rx.pcap" \
185 -- add-port $bridge ${bridge}_$net \
186 -- set Interface ${bridge}_$net options:stream="unix:$ovs_base/main/$port.sock" options:rxq_pcap="$ovs_base/$sandbox/${bridge}_$net-rx.pcap" options:tx_pcap="$ovs_base/$sandbox/${bridge}_$net-tx.pcap" \
190 # ovn_attach NETWORK BRIDGE IP [MASKLEN]
192 # First, this command attaches BRIDGE to interconnection network NETWORK, just
193 # like "net_attach NETWORK BRIDGE". Second, it configures (simulated) IP
194 # address IP (with network mask length MASKLEN, which defaults to 24) on
195 # BRIDGE. Finally, it configures the Open vSwitch database to work with OVN
196 # and starts ovn-controller.
198 local net=$1 bridge=$2 ip=$3 masklen=${4-24}
199 net_attach $net $bridge || return 1
201 mac=`ovs-vsctl get Interface $bridge mac_in_use | sed s/\"//g`
202 arp_table="$arp_table $sandbox,$bridge,$ip,$mac"
203 ovs-appctl netdev-dummy/ip4addr $bridge $ip/$masklen >/dev/null || return 1
204 ovs-appctl ovs/route/add $ip/$masklen $bridge >/dev/null || return 1
206 -- set Open_vSwitch . external-ids:system-id=$sandbox \
207 -- set Open_vSwitch . external-ids:ovn-remote=unix:$ovs_base/ovn-sb/ovn-sb.sock \
208 -- set Open_vSwitch . external-ids:ovn-encap-type=geneve,vxlan \
209 -- set Open_vSwitch . external-ids:ovn-encap-ip=$ip \
211 -- set bridge br-int fail-mode=secure other-config:disable-in-band=true \
213 start_daemon ovn-controller || return 1
218 # This pre-populates the ARP tables of all of the OVN instances that have been
219 # started with ovn_attach(). That means that packets sent from one hypervisor
220 # to another never get dropped or delayed by ARP resolution, which makes
223 for e1 in $arp_table; do
224 set `echo $e1 | sed 's/,/ /g'`; sb1=$1 br1=$2 ip=$3 mac=$4
225 for e2 in $arp_table; do
226 set `echo $e2 | sed 's/,/ /g'`; sb2=$1 br2=$2
227 if test $sb1,$br1 != $sb2,$br2; then
228 as $sb2 ovs-appctl tnl/neigh/set $br2 $ip $mac
233 m4_divert_pop([PREPARE_TESTS])
235 m4_define([STRIP_XIDS], [[sed 's/ (xid=0x[0-9a-fA-F]*)//']])
236 m4_define([STRIP_DURATION], [[sed 's/\bduration=[0-9.]*s/duration=?s/']])
237 m4_define([STRIP_USED], [[sed 's/used:[0-9]\.[0-9]*/used:0.0/']])
238 m4_define([STRIP_UFID], [[sed 's/ufid:[-0-9a-f]* //']])
239 m4_define([TESTABLE_LOG], [-vPATTERN:ANY:'%c|%p|%m'])
241 # _OVS_VSWITCHD_START([vswitchd-aux-args])
243 # Creates an empty database and starts ovsdb-server.
244 # Starts ovs-vswitchd, with additional arguments 'vswitchd-aux-args'.
246 m4_define([_OVS_VSWITCHD_START],
247 [dnl Create database.
248 touch .conf.db.~lock~
249 AT_CHECK([ovsdb-tool create conf.db $abs_top_srcdir/vswitchd/vswitch.ovsschema])
251 dnl Start ovsdb-server.
252 AT_CHECK([ovsdb-server --detach --no-chdir --pidfile --log-file --remote=punix:$OVS_RUNDIR/db.sock], [0], [], [stderr])
253 on_exit "kill `cat ovsdb-server.pid`"
254 AT_CHECK([[sed < stderr '
255 /vlog|INFO|opened log file/d
256 /ovsdb_server|INFO|ovsdb-server (Open vSwitch)/d']])
257 AT_CAPTURE_FILE([ovsdb-server.log])
259 dnl Initialize database.
260 AT_CHECK([ovs-vsctl --no-wait init])
262 dnl Start ovs-vswitchd.
263 AT_CHECK([ovs-vswitchd $1 --detach --no-chdir --pidfile --log-file -vvconn -vofproto_dpif], [0], [], [stderr])
264 AT_CAPTURE_FILE([ovs-vswitchd.log])
265 on_exit "kill `cat ovs-vswitchd.pid`"
266 AT_CHECK([[sed < stderr '
267 /ovs_numa|INFO|Discovered /d
268 /vlog|INFO|opened log file/d
269 /vswitchd|INFO|ovs-vswitchd (Open vSwitch)/d
271 /ofproto|INFO|using datapath ID/d
272 /netdev_linux|INFO|.*device has unknown hardware address family/d
273 /ofproto|INFO|datapath ID changed to fedcba9876543210/d']])
276 # OVS_VSWITCHD_START([vsctl-args], [vsctl-output], [=override])
278 # Creates a database and starts ovsdb-server, starts ovs-vswitchd
279 # connected to that database, calls ovs-vsctl to create a bridge named
280 # br0 with predictable settings, passing 'vsctl-args' as additional
281 # commands to ovs-vsctl. If 'vsctl-args' causes ovs-vsctl to provide
282 # output (e.g. because it includes "create" commands) then 'vsctl-output'
283 # specifies the expected output after filtering through uuidfilt.pl.
285 # If a test needs to use "system" devices (as dummies), then specify
286 # =override (literally) as the third argument. Otherwise, system devices
287 # won't work at all (which makes sense because tests should not access a
288 # system's real Ethernet devices).
289 m4_define([OVS_VSWITCHD_START],
290 [_OVS_VSWITCHD_START([--enable-dummy$3 --disable-system])
292 dnl Add bridges, ports, etc.
293 AT_CHECK([ovs-vsctl -- add-br br0 -- set bridge br0 datapath-type=dummy other-config:datapath-id=fedcba9876543210 other-config:hwaddr=aa:55:aa:55:00:00 protocols=[[OpenFlow10,OpenFlow11,OpenFlow12,OpenFlow13,OpenFlow14,OpenFlow15]] fail-mode=secure -- $1 m4_if([$2], [], [], [| ${PERL} $srcdir/uuidfilt.pl])], [0], [$2])
296 # check_logs scans through all *.log files (except '*.log' and testsuite.log)
297 # and reports all WARN, ERR, EMER log entries. User can add custom sed filters
299 m4_divert_push([PREPARE_TESTS])
304 '*.log'|testsuite.log) ;; # (
305 *) logs="${logs} ${log}" ;;
310 /timeval.*Unreasonably long [[0-9]]*ms poll interval/d
311 /timeval.*faults: [[0-9]]* minor, [[0-9]]* major/d
312 /timeval.*disk: [[0-9]]* reads, [[0-9]]* writes/d
313 /timeval.*context switches: [[0-9]]* voluntary, [[0-9]]* involuntary/d
314 /ovs_rcu.*blocked [[0-9]]* ms waiting for .* to quiesce/d
319 m4_divert_pop([PREPARE_TESTS])
321 # OVS_VSWITCHD_STOP([WHITELIST])
323 # Gracefully stops ovs-vswitchd and ovsdb-server, checking their log files
324 # for messages with severity WARN or higher and signaling an error if any
325 # is present. The optional WHITELIST may contain shell-quoted "sed"
326 # commands to delete any warnings that are actually expected, e.g.:
328 # OVS_VSWITCHD_STOP(["/expected error/d"])
329 m4_define([OVS_VSWITCHD_STOP],
330 [AT_CHECK([check_logs $1])
331 AT_CHECK([ovs-appctl -t ovs-vswitchd exit])
332 AT_CHECK([ovs-appctl -t ovsdb-server exit])])
334 m4_define([OVS_VSWITCHD_DISABLE_TUNNEL_PUSH_POP],
335 [AT_CHECK([ovs-appctl ofproto/tnl-push-pop off], [0], [dnl
339 # ADD_OF_PORTS(BRIDGE, OF_PORT[, OF_PORT...])
341 # Creates a dummy interface with an OpenFlow port number of OF_PORT and
342 # name of p{OF_PORT}. The dummy implementation will treat the OF_PORT
343 # as the datapath port number, which as the effect of making the
344 # OpenFlow and datapath numbers the same.
345 m4_define([ADD_OF_PORTS],
346 [ovs-vsctl m4_foreach([of_port], m4_cdr($@),
348 -- add-port $1 p[]of_port -- set Interface p[]of_port type=dummy ofport_request=of_port])])
350 # WAIT_FOR_DUMMY_PORTS(NETDEV_DUMMY_PORT[, NETDEV_DUMMY_PORT...])
352 # Wait until the netdev dummy ports are connected to each other
353 m4_define([WAIT_FOR_DUMMY_PORTS], \
354 [m4_foreach([dummy_port], [$@],
356 OVS_WAIT_WHILE([ovs-appctl netdev-dummy/conn-state dummy_port \
357 | grep 'unknown\|disconnected'])])])