AT_BANNER([daemon unit tests - C])

OVS_START_SHELL_HELPERS
# check_process_name PID NAME
#
# On Linux, make sure that the name of process PID is NAME.
# (On other systems, don't bother.)
if test -e /proc/$$/comm; then
    check_process_name() {
        # In case we're building with shared libraries enabled, strip
        # off libtool's lt- prefix.
        AT_CHECK_UNQUOTED([sed 's/lt-//' /proc/$1/comm], [0], [$2
])
    }
else
    check_process_name() {
        :
    }
fi

# check_ancestors PID PARENT [GRANDPARENT...]
check_ancestors() {
    echo "checking ancestry: $*"
    local child=$1; shift
    AT_CHECK([kill -0 $child])
    while test $# != 0; do
        local parent=$1; shift
        AT_CHECK([parent_pid $child], [0], [stdout])
        actual_parent=$(cat stdout)
        if test $parent = 1; then
            # Traditionally, if a parent's process exits, the process's new
            # parent is pid 1 (init) but this is not always the case these
            # days.  Instead, if the parent process should be pid 1, be
            # satisfied if the parent process is different from our own pid.
            if test $actual_parent = $$; then
                echo "parent of pid $child is this shell ($$) but should not be"
                AT_FAIL_IF([:])
            fi
        elif test $parent != $actual_parent; then
            echo "parent of pid $child is $actual_parent but should be $parent"
            AT_FAIL_IF([:])
        fi
        child=$parent
    done
}
OVS_END_SHELL_HELPERS

AT_SETUP([daemon])
AT_SKIP_IF([test "$IS_WIN32" = "yes"])

dnl OVS_SKIP_NON_ADMIN_WIN()
dnl
dnl Checks if we have enough rights to create a service
m4_define([OVS_SKIP_NON_ADMIN_WIN],
  [
   AT_SKIP_IF([net session; test $? -ne 0])
   ])

# Start the daemon and wait for the pidfile to get created
# and that its contents are the correct pid.
on_exit 'kill $(cat *.pid)'
AT_CHECK([ovsdb-server --pidfile --no-db 2>/dev/null & echo $!], [0], [stdout])
expected_pid=$(cat stdout)

OVS_WAIT_UNTIL([test -s ovsdb-server.pid])
pid=$(cat ovsdb-server.pid)

AT_CHECK([test $pid = $expected_pid])
AT_CHECK([kill -0 $pid])

# 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 ovsdb-server.pid])
AT_CLEANUP

AT_SETUP([daemon --monitor])
AT_SKIP_IF([test "$IS_WIN32" = "yes"])

# This test intentionally causes SIGSEGV, so make sanitizers ignore it.
ASAN_OPTIONS=$ASAN_OPTIONS:handle_segv=0; export ASAN_OPTIONS
UBSAN_OPTIONS=$UBSAN_OPTIONS:handle_segv=0; export UBSAN_OPTIONS

# Start the daemon and wait for the pidfile to get created.
on_exit 'kill $(cat *.pid)'
AT_CHECK([ovsdb-server --monitor --pidfile --no-db 2>/dev/null & echo $!],
  [0], [stdout])
parent=$(cat stdout)
OVS_WAIT_UNTIL([test -s ovsdb-server.pid])

# Check that the pidfile names a running process,
# and that the parent process of that process is our child process,
# and that (with a Linux kernel) the child's process name is correct.
child=$(cat ovsdb-server.pid)
check_ancestors $child $parent
check_process_name $child ovsdb-server

# 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 -t ovsdb-server version])

# 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], [0], [], [ignore])
OVS_WAIT_WHILE([kill -0 $child])
OVS_WAIT_UNTIL([test -s ovsdb-server.pid && test $(cat ovsdb-server.pid) != $child])

# Check that the pidfile names a running process,
# and that the parent process of that process is our child process.
child2=$(cat ovsdb-server.pid)
check_ancestors $child2 $parent
check_process_name $child2 ovsdb-server

# 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 $parent || kill -0 $child2 || test -e ovsdb-server.pid])
AT_CLEANUP


AT_SETUP([daemon --detach])

# 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 --no-db], [0])
AT_CHECK([test -s ovsdb-server.pid])
child=$(cat ovsdb-server.pid)
AT_CHECK([kill -0 $child])

# Kill the daemon and make sure that the pidfile gets deleted.
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_APP_EXIT_AND_WAIT([ovsdb-server])
else
  kill $child
fi
OVS_WAIT_WHILE([kill -0 $child])
AT_CHECK([test ! -e ovsdb-server.pid])

AT_CLEANUP


AT_SETUP([daemon --detach --monitor])
AT_SKIP_IF([test "$IS_WIN32" = "yes"])

# This test intentionally causes SIGSEGV, so make sanitizers ignore it.
ASAN_OPTIONS=$ASAN_OPTIONS:handle_segv=0; export ASAN_OPTIONS
UBSAN_OPTIONS=$UBSAN_OPTIONS:handle_segv=0; export UBSAN_OPTIONS

on_exit 'kill $(cat *.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([ovsdb-server --detach --no-chdir --pidfile --monitor --no-db])
AT_CHECK([test -s ovsdb-server.pid])
child=$(cat ovsdb-server.pid)

# Check process naming and ancestry.
monitor=$(parent_pid $child)
check_process_name $child ovsdb-server
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], [0])
OVS_WAIT_WHILE([kill -0 $child])
OVS_WAIT_UNTIL([test -s ovsdb-server.pid && test `cat ovsdb-server.pid` != $child])
child2=$(cat ovsdb-server.pid)

# Check process naming and ancestry.
check_process_name $child2 ovsdb-server
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 $monitor || kill -0 $child2 || test -e ovsdb-server.pid])
AT_CLEANUP


AT_SETUP([daemon --detach startup errors])
AT_CHECK([ovsdb-server --detach --no-chdir --pidfile --unixctl=nonexistent/unixctl --no-db], [1], [], [stderr])
AT_CHECK([grep 'could not initialize control socket' stderr],
  [0], [ignore])
AT_CHECK([test ! -e ovsdb-server.pid])
AT_CLEANUP


AT_SETUP([daemon --detach --monitor startup errors])
AT_SKIP_IF([test "$IS_WIN32" = "yes"])
AT_CHECK([ovsdb-server --detach --no-chdir --pidfile --monitor --unixctl=nonexistent/unixctl --no-db], [1], [], [stderr])
AT_CHECK([grep 'could not initialize control socket' stderr],
  [0], [ignore])
AT_CHECK([test ! -e ovsdb-server.pid])
AT_CLEANUP


AT_SETUP([daemon --service])
AT_KEYWORDS([windows-service])
AT_SKIP_IF([test "$IS_WIN32" != "yes"])
OVS_SKIP_NON_ADMIN_WIN
AT_SKIP_IF([sc qc ovsdb-server])

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 --no-db --log-file=`pwd`/ovsdb-server.log --pidfile=`pwd`/ovsdb-server.pid --unixctl=`pwd`/ovsdb-server.ctl --remote=punix:`pwd`/socket --service"],
[0], [[[SC]] CreateService SUCCESS
])

AT_CHECK([sc start ovsdb-server], [0], [ignore], [ignore], [sc delete ovsdb-server])
OVS_WAIT_UNTIL([test -s ovsdb-server.pid])
OVS_WAIT_UNTIL([sc query ovsdb-server | grep STATE | grep RUNNING > /dev/null 2>&1])
AT_CHECK([kill -0 `cat ovsdb-server.pid`], [0], [ignore])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-dbs], [0],
[_Server
])
AT_CHECK([sc stop ovsdb-server], [0], [ignore])
OVS_WAIT_UNTIL([test ! -s ovsdb-server.pid])
OVS_WAIT_UNTIL([sc query ovsdb-server | grep STATE | grep STOPPED > /dev/null 2>&1])
AT_CHECK([sc delete ovsdb-server], [0], [[[SC]] DeleteService SUCCESS
])
AT_CLEANUP

AT_SETUP([backtrace without monitor])
AT_SKIP_IF([test "$HAVE_BACKTRACE" = "no" && test "$HAVE_UNWIND" = "no"])
AT_SKIP_IF([test "$IS_WIN32" = "yes"])

# This test intentionally causes SIGSEGV, so make sanitizers ignore it.
ASAN_OPTIONS=$ASAN_OPTIONS:handle_segv=0; export ASAN_OPTIONS
UBSAN_OPTIONS=$UBSAN_OPTIONS:handle_segv=0; export UBSAN_OPTIONS

AT_CHECK([ovsdb-server --detach --no-chdir --pidfile --no-db \
                       --log-file --verbose=DBG], [0], [ignore], [ignore])
OVS_WAIT_UNTIL([test -s ovsdb-server.pid])
child=$(cat ovsdb-server.pid)

AT_CAPTURE_FILE([ovsdb-server.log])

AT_CHECK([kill -SEGV $child])

OVS_WAIT_UNTIL([grep -q "^SIGSEGV detected, backtrace:" ovsdb-server.log])

AT_CLEANUP

AT_SETUP([backtrace with monitor])
AT_SKIP_IF([test "$HAVE_BACKTRACE" = "no" && test "$HAVE_UNWIND" = "no"])
AT_SKIP_IF([test "$IS_WIN32" = "yes"])

# This test intentionally causes SIGSEGV, so make sanitizers ignore it.
ASAN_OPTIONS=$ASAN_OPTIONS:handle_segv=0; export ASAN_OPTIONS
UBSAN_OPTIONS=$UBSAN_OPTIONS:handle_segv=0; export UBSAN_OPTIONS

on_exit 'kill $(cat *.pid)'

AT_CHECK([ovsdb-server --detach --monitor --no-chdir --pidfile --no-db \
                       --log-file --verbose=DBG], [0], [ignore], [ignore])
OVS_WAIT_UNTIL([test -s ovsdb-server.pid])
child=$(cat ovsdb-server.pid)

AT_CAPTURE_FILE([ovsdb-server.log])

AT_CHECK([kill -SEGV $child])

OVS_WAIT_UNTIL([grep -q "backtrace(monitor)|WARN|SIGSEGV detected, backtrace:" ovsdb-server.log])
OVS_WAIT_UNTIL([grep -q "daemon_unix(monitor)|ERR|1 crashes: pid .* died, killed (Segmentation fault)" ovsdb-server.log])

# Wait until a new process is started before exiting, so it will be
# stopped correctly.
OVS_WAIT_UNTIL([test -s ovsdb-server.pid && test $(cat ovsdb-server.pid) != $child])
OVS_APP_EXIT_AND_WAIT([ovsdb-server])
AT_CLEANUP