AT_BANNER([daemon unit tests - Python3]) AT_SETUP([daemon - Python3]) # Skip this test for Windows, echo $! gives shell pid instead of parent process AT_SKIP_IF([test "$IS_WIN32" = "yes"]) AT_KEYWORDS([python daemon]) on_exit 'kill $(cat *.pid)' pidfile=test-daemon.py.pid # Start the daemon and wait for the pidfile to get created # and that its contents are the correct pid. AT_CHECK([$PYTHON3 $srcdir/test-daemon.py --pidfile & echo $!], [0], [stdout]) pid=$(cat stdout) OVS_WAIT_UNTIL([test -s $pidfile], [kill $pid]) AT_CHECK([test $pid = $(cat $pidfile)]) AT_CHECK([kill -0 $pid]) # Kill the daemon and make sure that the pidfile gets deleted. kill $pid OVS_WAIT_WHILE([kill -0 $pid]) AT_CHECK([test ! -e $pidfile]) AT_CLEANUP AT_SETUP([daemon --monitor - Python3]) # Skip this test for Windows, echo $! gives shell pid instead of parent process AT_SKIP_IF([test "$IS_WIN32" = "yes"]) on_exit 'kill $(cat *.pid)' pidfile=test-daemon.py.pid # Start the daemon and wait for the pidfile to get created. AT_CHECK([$PYTHON3 $srcdir/test-daemon.py --pidfile --monitor & echo $!], [0], [stdout]) monitor=$(cat stdout) OVS_WAIT_UNTIL([test -s $pidfile]) child=$(cat $pidfile) # Check that the pidfile names a running process, # and that the parent process of that process is our child process. check_ancestors $child $monitor # Kill the daemon process, making it look like a segfault, # and wait for a new child process to get spawned. AT_CHECK([kill -SEGV $child]) OVS_WAIT_WHILE([kill -0 $child]) OVS_WAIT_UNTIL([test -s $pidfile && test $(cat $pidfile) != $child]) child2=$(cat $pidfile) # Check that the pidfile names a running process, # and that the parent process of that process is our child process. check_ancestors $child2 $monitor # 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 $child2]) OVS_WAIT_WHILE([kill -0 $monitor || kill -0 $child2 || test -e $pidfile]) AT_CLEANUP AT_SETUP([daemon --monitor restart exit code - Python3]) # Skip this test for Windows, echo $! gives shell pid instead of parent process AT_SKIP_IF([test "$IS_WIN32" = "yes"]) on_exit 'kill $(cat *.pid)' pidfile=test-daemon.py.pid # Start the daemon and wait for the pidfile to get created. AT_CHECK([$PYTHON3 $srcdir/test-daemon.py --pidfile --monitor & echo $!], [0], [stdout]) monitor=$(cat stdout) OVS_WAIT_UNTIL([test -s $pidfile]) child=$(cat $pidfile) # Check that the pidfile names a running process, # and that the parent process of that process is our child process. check_ancestors $child $monitor # HUP the daemon process causing it to throw an exception, # and wait for a new child process to get spawned. AT_CHECK([kill -HUP $child]) OVS_WAIT_WHILE([kill -0 $child]) OVS_WAIT_UNTIL([test -s $pidfile && test $child != $(cat $pidfile)]) child2=$(cat $pidfile) # Check that the pidfile names a running process, # and that the parent process of that process is our child process. check_ancestors $child2 $monitor # 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 $child2]) OVS_WAIT_WHILE([kill -0 $monitor || kill -0 $child2 || test -e $pidfile]) AT_CLEANUP AT_SETUP([daemon --detach - Python3]) # Skip this test for Windows, the pid file not removed if the daemon is killed AT_SKIP_IF([test "$IS_WIN32" = "yes"]) on_exit 'kill $(cat *.pid)' pidfile=test-daemon.py.pid # Start the daemon and make sure that the pidfile exists immediately. # We don't wait for the pidfile to get created because the daemon is # supposed to do so before the parent exits. AT_CHECK([$PYTHON3 $srcdir/test-daemon.py --pidfile --detach --no-chdir], [0]) AT_CHECK([test -s $pidfile]) pid=$(cat $pidfile) check_ancestors $pid 1 # Kill the daemon and make sure that the pidfile gets deleted. AT_CHECK([kill $pid]) OVS_WAIT_WHILE([kill -0 $pid]) AT_CHECK([test ! -e $pidfile]) AT_CLEANUP AT_SETUP([daemon --detach --monitor - Python3]) # Skip this test for Windows, uses Linux specific kill signal AT_SKIP_IF([test "$IS_WIN32" = "yes"]) on_exit 'kill $(cat *.pid)' pidfile=test-daemon.py.pid # Start the daemon and make sure that the pidfile exists immediately. # We don't wait for the pidfile to get created because the daemon is # supposed to do so before the parent exits. AT_CHECK([$PYTHON3 $srcdir/test-daemon.py --pidfile --detach --no-chdir --monitor], [0]) AT_CHECK([test -s $pidfile]) child=$(cat $pidfile) AT_CHECK([parent_pid $child], [0], [stdout]) monitor=$(cat stdout) # 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_ancestors $child $monitor 1 # Kill the daemon process, making it look like a segfault, # and wait for a new daemon process to get spawned. AT_CHECK([kill -SEGV $child]) OVS_WAIT_WHILE([kill -0 $child]) OVS_WAIT_UNTIL([test -s $pidfile && test $(cat $pidfile) != $child]) child2=$(cat $pidfile) # Check that the pidfile names a running process, # and that the parent process of that process is our child process. check_ancestors $child2 $monitor 1 # 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 $child2]) OVS_WAIT_WHILE([kill -0 $child2 || kill -0 $monitor || test -e $pidfile]) AT_CLEANUP AT_SETUP([daemon --detach startup errors - Python3]) AT_CHECK([$PYTHON3 $srcdir/test-daemon.py --pidfile --detach --no-chdir --bail], [1], [], [stderr]) AT_CHECK([grep 'test-daemon.py: exiting after daemonize_start() as requested' stderr], [0], [ignore]) AT_CHECK([test ! -s test-daemon.py.pid]) AT_CLEANUP AT_SETUP([daemon --detach --monitor startup errors - Python3]) AT_CAPTURE_FILE([pid]) AT_CHECK([$PYTHON3 $srcdir/test-daemon.py --pidfile --detach --no-chdir --monitor --bail], [1], [], [stderr]) AT_CHECK([grep 'test-daemon.py: exiting after daemonize_start() as requested' stderr], [0], [ignore]) AT_CHECK([test ! -s test-daemon.py.pid]) AT_CLEANUP AT_SETUP([daemon --detach closes standard fds - Python3]) # Skip this test for Windows, uses Linux specific kill signal AT_SKIP_IF([test "$IS_WIN32" = "yes"]) AT_CHECK([(yes 2>stderr; echo $? > status) | $PYTHON3 $srcdir/test-daemon.py --pidfile --detach --no-chdir]) AT_CHECK([kill $(cat test-daemon.py.pid)]) AT_CHECK([test -s status]) if grep '[[bB]]roken pipe' stderr >/dev/null 2>&1; then # Something in the environment caused SIGPIPE to be ignored, but # 'yes' at least told us that it got EPIPE. Good enough; we know # that stdout was closed. : else # Otherwise make sure that 'yes' died from SIGPIPE. AT_CHECK([kill -l `cat status`], [0], [PIPE ]) fi AT_CLEANUP AT_SETUP([daemon --detach --monitor closes standard fds - Python3]) # Skip this test for Windows, uses Linux specific kill signal AT_SKIP_IF([test "$IS_WIN32" = "yes"]) AT_CHECK([(yes 2>stderr; echo $? > status) | $PYTHON3 $srcdir/test-daemon.py --pidfile --detach --no-chdir], [0], [], []) AT_CHECK([kill $(cat test-daemon.py.pid)]) AT_CHECK([test -s status]) if grep '[[bB]]roken pipe' stderr >/dev/null 2>&1; then # Something in the environment caused SIGPIPE to be ignored, but # 'yes' at least told us that it got EPIPE. Good enough; we know # that stdout was closed. : else # Otherwise make sure that 'yes' died from SIGPIPE. AT_CHECK([kill -l `cat status`], [0], [PIPE ]) fi AT_CLEANUP