AT_BANNER([daemon unit tests - C]) AT_SETUP([daemon]) AT_SKIP_IF([test "$IS_WIN32" = "yes"]) OVSDB_INIT([db]) AT_CAPTURE_FILE([pid]) AT_CAPTURE_FILE([expected]) # Start the daemon and wait for the pidfile to get created # and that its contents are the correct pid. AT_CHECK([ovsdb-server --pidfile="`pwd`"/pid --remote=punix:socket --unixctl="`pwd`"/unixctl db 2>/dev/null & echo $! > expected], [0]) OVS_WAIT_UNTIL([test -s pid], [kill `cat expected`]) AT_CHECK( [pid=`cat pid` && expected=`cat expected` && test "$pid" = "$expected"], [0], [], [], [kill `cat expected`]) AT_CHECK([kill -0 `cat pid`], [0], [], [], [kill `cat expected`]) # Kill the daemon and make sure that the pidfile gets deleted. kill `cat expected` OVS_WAIT_WHILE([kill -0 `cat expected`]) AT_CHECK([test ! -e pid]) AT_CLEANUP AT_SETUP([daemon --monitor]) AT_SKIP_IF([test "$IS_WIN32" = "yes"]) OVSDB_INIT([db]) AT_CAPTURE_FILE([pid]) AT_CAPTURE_FILE([parent]) AT_CAPTURE_FILE([parentpid]) AT_CAPTURE_FILE([newpid]) # Start the daemon and wait for the pidfile to get created. AT_CHECK([ovsdb-server --monitor --pidfile="`pwd`"/pid --remote=punix:socket --unixctl="`pwd`"/unixctl db 2>/dev/null & echo $! > parent], [0]) OVS_WAIT_UNTIL([test -s pid], [kill `cat parent`]) # Check that the pidfile names a running process, # and that the parent process of that process is our child process. AT_CHECK([kill -0 `cat pid`], [0], [], [], [kill `cat parent`]) AT_CHECK([ps -o ppid= -p `cat pid` > parentpid], [0], [], [], [kill `cat parent`]) AT_CHECK( [parentpid=`cat parentpid` && parent=`cat parent` && test $parentpid = $parent], [0], [], [], [kill `cat parent`]) # Avoid a race between pidfile creation and notifying the parent, # which can easily trigger if ovsdb-server is slow (e.g. due to valgrind). OVS_WAIT_UNTIL( [ovs-appctl --timeout=10 -t "`pwd`/unixctl" version], [kill `cat pid`]) # Kill the daemon process, making it look like a segfault, # and wait for a new child process to get spawned. AT_CHECK([cp pid oldpid], [0], [], [], [kill `cat parent`]) AT_CHECK([kill -SEGV `cat pid`], [0], [], [ignore], [kill `cat parent`]) OVS_WAIT_WHILE([kill -0 `cat oldpid`], [kill `cat parent`]) OVS_WAIT_UNTIL([test -s pid && test `cat pid` != `cat oldpid`], [kill `cat parent`]) AT_CHECK([cp pid newpid], [0], [], [], [kill `cat parent`]) # Check that the pidfile names a running process, # and that the parent process of that process is our child process. AT_CHECK([ps -o ppid= -p `cat pid` > parentpid], [0], [], [], [kill `cat parent`]) AT_CHECK( [parentpid=`cat parentpid` && parent=`cat parent` && test $parentpid = $parent], [0], [], [], [kill `cat parent`]) # Kill the daemon process with SIGTERM, and wait for the daemon # and the monitor processes to go away and the pidfile to get deleted. AT_CHECK([kill `cat pid`], [0], [], [ignore], [kill `cat parent`]) OVS_WAIT_WHILE([kill -0 `cat parent` || kill -0 `cat newpid` || test -e pid], [kill `cat parent`]) AT_CLEANUP AT_SETUP([daemon --detach]) AT_CAPTURE_FILE([pid]) OVSDB_INIT([db]) # Start the daemon and make sure that the pidfile exists immediately. # We don't wait for the pidfile to get created because the daemon is # supposed to do so before the parent exits. AT_CHECK([ovsdb-server --detach --no-chdir --pidfile="`pwd`"/pid --remote=punix:socket --unixctl="`pwd`"/unixctl db], [0]) AT_CHECK([test -s pid]) AT_CHECK([kill -0 `cat pid`]) # Kill the daemon and make sure that the pidfile gets deleted. cp pid saved-pid if test "$IS_WIN32" = "yes"; then # When a 'kill pid' is done on windows (through 'taskkill //F'), # pidfiles are not deleted (because it is force kill), so use # 'ovs-appctl exit' instead ovs-appctl -t `pwd`/unixctl exit else kill `cat pid` fi OVS_WAIT_WHILE([kill -0 `cat saved-pid`]) AT_CHECK([test ! -e pid]) AT_CLEANUP AT_SETUP([daemon --detach --monitor]) AT_SKIP_IF([test "$IS_WIN32" = "yes"]) m4_define([CHECK], [AT_CHECK([$1], [$2], [$3], [$4], [kill `cat daemon monitor`])]) OVSDB_INIT([db]) AT_CAPTURE_FILE([daemon]) AT_CAPTURE_FILE([olddaemon]) AT_CAPTURE_FILE([newdaemon]) AT_CAPTURE_FILE([monitor]) AT_CAPTURE_FILE([newmonitor]) AT_CAPTURE_FILE([init]) # Start the daemon and make sure that the pidfile exists immediately. # We don't wait for the pidfile to get created because the daemon is # supposed to do so before the parent exits. AT_CHECK([ovsdb-server --detach --no-chdir --pidfile="`pwd`"/daemon --monitor --remote=punix:socket --unixctl="`pwd`"/unixctl db], [0]) AT_CHECK([test -s daemon]) # Check that the pidfile names a running process, # and that the parent process of that process is a running process, # and that the parent process of that process is init. CHECK([kill -0 `cat daemon`]) CHECK([ps -o ppid= -p `cat daemon` > monitor]) CHECK([kill -0 `cat monitor`]) CHECK([ps -o ppid= -p `cat monitor` > init]) CHECK([test `cat init` != $$]) # Kill the daemon process, making it look like a segfault, # and wait for a new daemon process to get spawned. CHECK([cp daemon olddaemon]) CHECK([kill -SEGV `cat daemon`], [0]) OVS_WAIT_WHILE([kill -0 `cat olddaemon`], [kill `cat olddaemon daemon`]) OVS_WAIT_UNTIL([test -s daemon && test `cat daemon` != `cat olddaemon`], [kill `cat olddaemon daemon`]) CHECK([cp daemon newdaemon]) # Check that the pidfile names a running process, # and that the parent process of that process is our child process. CHECK([kill -0 `cat daemon`]) CHECK([diff olddaemon newdaemon], [1], [ignore]) CHECK([ps -o ppid= -p `cat daemon` > newmonitor]) CHECK([diff monitor newmonitor]) CHECK([kill -0 `cat newmonitor`]) CHECK([ps -o ppid= -p `cat newmonitor` > init]) CHECK([test `cat init` != $$]) # Kill the daemon process with SIGTERM, and wait for the daemon # and the monitor processes to go away and the pidfile to get deleted. CHECK([kill `cat daemon`], [0], [], [ignore]) OVS_WAIT_WHILE( [kill -0 `cat monitor` || kill -0 `cat newdaemon` || test -e daemon], [kill `cat monitor newdaemon`]) m4_undefine([CHECK]) AT_CLEANUP AT_SETUP([daemon --detach startup errors]) AT_CAPTURE_FILE([pid]) OVSDB_INIT([db]) AT_CHECK([ovsdb-server --detach --no-chdir --pidfile="`pwd`"/pid --unixctl="`pwd`"/nonexistent/unixctl db], [1], [], [stderr]) AT_CHECK([grep 'ovsdb-server: could not initialize control socket' stderr], [0], [ignore], []) AT_CHECK([test ! -s pid]) AT_CLEANUP AT_SETUP([daemon --detach --monitor startup errors]) AT_SKIP_IF([test "$IS_WIN32" = "yes"]) AT_CAPTURE_FILE([pid]) OVSDB_INIT([db]) AT_CHECK([ovsdb-server --detach --no-chdir --pidfile="`pwd`"/pid --monitor --unixctl="`pwd`"/nonexistent/unixctl db], [1], [], [stderr]) AT_CHECK([grep 'ovsdb-server: could not initialize control socket' stderr], [0], [ignore], []) AT_CHECK([test ! -s pid]) AT_CLEANUP AT_SETUP([daemon --service]) AT_KEYWORDS([windows-service]) AT_SKIP_IF([test "$IS_WIN32" != "yes"]) OVSDB_INIT([db]) AT_CAPTURE_FILE([pid]) # To create a Windows service, we need the absolute path for the executable. abs_path="$(cd $(dirname `which ovsdb-server`); pwd -W; cd $OLDPWD)" AT_CHECK([sc create ovsdb-server binpath="$abs_path/ovsdb-server `pwd`/db --log-file=`pwd`/ovsdb-server.log --pidfile=`pwd`/pid --remote=punix:`pwd`/socket --unixctl=`pwd`/unixctl --service"], [0], [[[SC]] CreateService SUCCESS ]) AT_CHECK([sc start ovsdb-server], [0], [ignore], [ignore], [sc delete ovsdb-server]) OVS_WAIT_UNTIL([test -s pid]) OVS_WAIT_UNTIL([sc query ovsdb-server | grep STATE | grep RUNNING > /dev/null 2>&1]) AT_CHECK([kill -0 `cat pid`], [0], [ignore]) AT_CHECK([ovs-appctl -t `pwd`/unixctl ovsdb-server/list-dbs], [0], [Open_vSwitch ]) AT_CHECK([sc stop ovsdb-server], [0], [ignore]) OVS_WAIT_UNTIL([test ! -s pid]) AT_CHECK([sc query ovsdb-server | grep STATE | grep STOPPED], [0], [ignore]) AT_CHECK([sc delete ovsdb-server], [0], [[[SC]] DeleteService SUCCESS ]) AT_CLEANUP