I have a python script that\'ll be checking a queue and performing an action on each item:
# checkqueue.py
while True:
check_queue()
do_something()
if ! test -f $PIDFILE || ! psgrep `cat $PIDFILE`; then
restart_process
# Write PIDFILE
echo $! >$PIDFILE
fi
Avoid PID-files, crons, or anything else that tries to evaluate processes that aren't their children.
There is a very good reason why in UNIX, you can ONLY wait on your children. Any method (ps parsing, pgrep, storing a PID, ...) that tries to work around that is flawed and has gaping holes in it. Just say no.
Instead you need the process that monitors your process to be the process' parent. What does this mean? It means only the process that starts your process can reliably wait for it to end. In bash, this is absolutely trivial.
until myserver; do
echo "Server 'myserver' crashed with exit code $?. Respawning.." >&2
sleep 1
done
The above piece of bash code runs myserver
in an until
loop. The first line starts myserver
and waits for it to end. When it ends, until
checks its exit status. If the exit status is 0
, it means it ended gracefully (which means you asked it to shut down somehow, and it did so successfully). In that case we don't want to restart it (we just asked it to shut down!). If the exit status is not 0
, until
will run the loop body, which emits an error message on STDERR and restarts the loop (back to line 1) after 1 second.
Why do we wait a second? Because if something's wrong with the startup sequence of myserver
and it crashes immediately, you'll have a very intensive loop of constant restarting and crashing on your hands. The sleep 1
takes away the strain from that.
Now all you need to do is start this bash script (asynchronously, probably), and it will monitor myserver
and restart it as necessary. If you want to start the monitor on boot (making the server "survive" reboots), you can schedule it in your user's cron(1) with an @reboot
rule. Open your cron rules with crontab
:
crontab -e
Then add a rule to start your monitor script:
@reboot /usr/local/bin/myservermonitor
Alternatively; look at inittab(5) and /etc/inittab. You can add a line in there to have myserver
start at a certain init level and be respawned automatically.
Edit.
Let me add some information on why not to use PID files. While they are very popular; they are also very flawed and there's no reason why you wouldn't just do it the correct way.
Consider this:
PID recycling (killing the wrong process):
/etc/init.d/foo start
: start foo
, write foo
's PID to /var/run/foo.pid
foo
dies somehow.bar
) takes a random PID, imagine it taking foo
's old PID.foo
's gone: /etc/init.d/foo/restart
reads /var/run/foo.pid
, checks to see if it's still alive, finds bar
, thinks it's foo
, kills it, starts a new foo
.PID files go stale. You need over-complicated (or should I say, non-trivial) logic to check whether the PID file is stale, and any such logic is again vulnerable to 1.
.
What if you don't even have write access or are in a read-only environment?
It's pointless overcomplication; see how simple my example above is. No need to complicate that, at all.
See also: Are PID-files still flawed when doing it 'right'?
By the way; even worse than PID files is parsing ps
! Don't ever do this.
ps
is very unportable. While you find it on almost every UNIX system; its arguments vary greatly if you want non-standard output. And standard output is ONLY for human consumption, not for scripted parsing!ps
leads to a LOT of false positives. Take the ps aux | grep PID
example, and now imagine someone starting a process with a number somewhere as argument that happens to be the same as the PID you stared your daemon with! Imagine two people starting an X session and you grepping for X to kill yours. It's just all kinds of bad.If you don't want to manage the process yourself; there are some perfectly good systems out there that will act as monitor for your processes. Look into runit, for example.
The easiest way to do it is using flock on file. In Python script you'd do
lf = open('/tmp/script.lock','w')
if(fcntl.flock(lf, fcntl.LOCK_EX|fcntl.LOCK_NB) != 0):
sys.exit('other instance already running')
lf.write('%d\n'%os.getpid())
lf.flush()
In shell you can actually test if it's running:
if [ `flock -xn /tmp/script.lock -c 'echo 1'` ]; then
echo 'it's not running'
restart.
else
echo -n 'it's already running with PID '
cat /tmp/script.lock
fi
But of course you don't have to test, because if it's already running and you restart it, it'll exit with 'other instance already running'
When process dies, all it's file descriptors are closed and all locks are automatically removed.
I use this for my npm Process
#!/bin/bash
for (( ; ; ))
do
date +"%T"
echo Start Process
cd /toFolder
sudo process
date +"%T"
echo Crash
sleep 1
done
I've used the following script with great success on numerous servers:
pid=`jps -v | grep $INSTALLATION | awk '{print $1}'`
echo $INSTALLATION found at PID $pid
while [ -e /proc/$pid ]; do sleep 0.1; done
notes:
$INSTALLATION
contains enough of the process path that's it's totally unambiguousThis script is actually used to shut down a running instance of tomcat, which I want to shut down (and wait for) at the command line, so launching it as a child process simply isn't an option for me.
You should use monit, a standard unix tool that can monitor different things on the system and react accordingly.
From the docs: http://mmonit.com/monit/documentation/monit.html#pid_testing
check process checkqueue.py with pidfile /var/run/checkqueue.pid if changed pid then exec "checkqueue_restart.sh"
You can also configure monit to email you when it does do a restart.