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I have a command CMD called from my main bourne shell script that takes forever.

I want to modify the script as follows:

  1. Run the command CMD in parallel as a background process ($CMD &).
  2. In the main script, have a loop to monitor the spawned command every few seconds. The loop also echoes some messages to stdout indicating progress of the script.
  3. Exit the loop when the spawned command terminates.
  4. Capture and report the exit code of the spawned process.

    Can someone give me pointers to accomplish this? Thanks, Bob

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6 Answers 6

1: In bash, $! holds the PID of the last background process that was executed. That will tell you what process to monitor, anyway.

4: wait <n> waits until the process with ID is complete (it will block until the process completes, so you might not want to call this until you are sure the process is done). After wait returns, the exit code of the process is returned in the variable $?

2, 3: ps or ps | grep " $! " can tell you whether the process is still running. It is up to you how to understand the output and decide how close it is to finishing. (ps | grep isn't idiot-proof. If you have time you can come up with a more robust way to tell whether the process is still running).

Here's a skeleton script:

# simulate a long process that will have an identifiable exit code
(sleep 15 ; /bin/false) &
my_pid=$!

while   ps | grep " $my_pid "     # might also need  | grep -v grep  here
do
    echo $my_pid is still in the ps output. Must still be running.
    sleep 3
done

echo Oh, it looks like the process is done.
wait $my_pid
my_status=$?
echo The exit status of the process was $my_status
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5  
ps -p $my_pid -o pid= neither grep is needed. –  Dennis Williamson Oct 15 '09 at 6:43
    
@Dennis Williamson ps has many flavors. Your call doesn't work for me but ps -p$my_pid does. Your larger point that grep isn't necessary is correct. –  mob Oct 15 '09 at 16:01
    
Hmmm .. actually I can't figure out a good way to avoid grep on Cygwin. ps -p$pid always has exit status of 0 whether $pid exists or not. I could say something like while [ 'ps -p$pid | wc -l' \> 1 ] but that's hardly an improvement ... –  mob Oct 15 '09 at 17:06
14  
kill -0 $! is a better way of telling whether a process is still running. It doesn't actually send any signal, only checks that the process is alive, using a shell built-in instead of external processes. As man 2 kill says, "If sig is 0, then no signal is sent, but error checking is still performed; this can be used to check for the existence of a process ID or process group ID." –  ephemient Oct 17 '09 at 0:18
2  
@ephemient kill -0 will return non-zero if you don't have permission to send signals to a process that is running. Unfortunately it returns 1 in both this case and the case where the process doesn't exist. This makes it useful unless you don't own the process - which can be the case even for processes you created if a tool like sudo is involved or if they're setuid (and possibly drop privs). –  Craig Ringer May 27 '13 at 7:39

I would change your approach slightly. Rather than checking every few seconds if the command is still alive and reporting a message, have another process that reports every few seconds that the command is still running and then kill that process when the command finishes. For example:

#!/bin/sh

cmd() { sleep 5; exit 24; }

cmd &   # Run the long running process
pid=$!  # Record the pid

# Spawn a process that coninually reports that the command is still running
while echo "$(date): $pid is still running"; do sleep 1; done &
echoer=$!

# Set a trap to kill the reporter when the process finishes
trap 'kill $echoer' 0

# Wait for the process to finish
if wait $pid; then
    echo "cmd succeeded"
else
    echo "cmd FAILED!! (returned $?)"
fi
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#/bin/bash

#pgm to monitor
tail -f /var/log/messages >> /tmp/log&
# background cmd pid
pid=$!
# loop to monitor running background cmd
while :
do
    ps ax | grep $pid | grep -v grep
    ret=$?
    if test "$ret" != "0"
    then
        echo "Monitored pid ended"
        exit
    fi
    sleep 5

done

wait $pid
echo $?
share|improve this answer
    
Here's a trick to avoid the grep -v. You can limit the search to the beginning of the line: grep '^'$pid Plus, you can do ps p $pid -o pid=, anyway. Also, tail -f isn't going to end until you kill it so I don't think it's a very good way to demo this (at least without pointing that out). You might want to redirect the output of your ps command to /dev/null or it'll go to the screen at every iteration. Your exit causes the wait to be skipped - it should probably be a break. But aren't the while/ps and the wait redundant? –  Dennis Williamson Oct 15 '09 at 6:40
3  
Why does everybody forget about kill -0 $pid? It doesn't actually send any signal, only checks that the process is alive, using a shell built-in instead of external processes. –  ephemient Oct 17 '09 at 0:17
    
Because you can only kill a process you own: bash: kill: (1) - Operation not permitted –  errant.info May 2 '13 at 3:16

A simple example, similar to the solutions above. This doesn't require monitoring any process output. The next example uses tail to follow output.

$ echo '#!/bin/bash' > tmp.sh
$ echo 'sleep 30; exit 5' >> tmp.sh
$ chmod +x tmp.sh
$ ./tmp.sh &
[1] 7454
$ pid=$!
$ wait $pid
[1]+  Exit 5                  ./tmp.sh
$ echo $?
5

Use tail to follow process output and quit when the process is complete.

$ echo '#!/bin/bash' > tmp.sh
$ echo 'i=0; while let "$i < 10"; do sleep 5; echo "$i"; let i=$i+1; done; exit 5;' >> tmp.sh
$ chmod +x tmp.sh
$ ./tmp.sh
0
1
2
^C
$ ./tmp.sh > /tmp/tmp.log 2>&1 &
[1] 7673
$ pid=$!
$ tail -f --pid $pid /tmp/tmp.log
0
1
2
3
4
5
6
7
8
9
[1]+  Exit 5                  ./tmp.sh > /tmp/tmp.log 2>&1
$ wait $pid
$ echo $?
5
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This may be extending beyond your question, however if you're concerned about the length of time processes are running for, you may be interested in checking the status of running background processes after an interval of time. It's easy enough to check which child PIDs are still running using pgrep -P $$, however I came up with the following solution to check the exit status of those PIDs that have already expired:

cmd1() { sleep 5; exit 24; }
cmd2() { sleep 10; exit 0; }

pids=()
cmd1 & pids+=("$!")
cmd2 & pids+=("$!")

lasttimeout=0
for timeout in 2 7 11; do
  echo -n "interval-$timeout: "
  sleep $((timeout-lasttimeout))

  # you can only wait on a pid once
  remainingpids=()
  for pid in ${pids[*]}; do
     if ! ps -p $pid >/dev/null ; then
        wait $pid
        echo -n "pid-$pid:exited($?); "
     else
        echo -n "pid-$pid:running; "
        remainingpids+=("$pid")
     fi
  done
  pids=( ${remainingpids[*]} )

  lasttimeout=$timeout
  echo
done

which outputs:

interval-2: pid-28083:running; pid-28084:running; 
interval-7: pid-28083:exited(24); pid-28084:running; 
interval-11: pid-28084:exited(0); 

Note: You could change $pids to a string variable rather than array to simplify things if you like.

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Another solution is to monitor processes via the proc filesystem (safer than ps/grep combo); when you start a process it has a corresponding folder in /proc/$pid, so the solution could be

#!/bin/bash
....
doSomething &
local pid=$!
while [ -d /proc/$pid ]; do # While directory exists, the process is running
    doSomethingElse
    ....
else # when directory is removed from /proc, process has ended
    wait $pid
    local exit_status=$?
done
....

Now you can use the $exit_status variable however you like.

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