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What's a quick-and-dirty way to make sure that only one instance of a shell script is running at a given time?

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20 Answers 20

up vote 54 down vote accepted

Here's an implementation that uses a lockfile and echoes a PID into it. This serves as a protection if the process is killed before removing the pidfile:

LOCKFILE=/tmp/lock.txt
if [ -e ${LOCKFILE} ] && kill -0 `cat ${LOCKFILE}`; then
    echo "already running"
    exit
fi

# make sure the lockfile is removed when we exit and then claim it
trap "rm -f ${LOCKFILE}; exit" INT TERM EXIT
echo $$ > ${LOCKFILE}

# do stuff
sleep 1000

rm -f ${LOCKFILE}

The trick here is the kill -0 which doesn't deliver any signal but just checks if a process with the given PID exists. Also the call to trap will ensure that the lockfile is removed even when your process is killed (except kill -9).

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26  
As already mentioned in a comment on anther answer, this has a fatal flaw - if the other script starts up between the check and the echo, you're toast. –  Paul Tomblin Oct 9 '08 at 0:43
1  
The symlink trick is neat, but if the owner of the lockfile is kill -9'd or the system crashes, there's still a race condition to read the symlink, notice the owner is gone, and then delete it. I'm sticking with my solution. –  bmdhacks Oct 9 '08 at 0:56
6  
Atomic check and create is available in the shell using either flock (1) or lockfile (1). See other answers. –  dmckee Oct 9 '08 at 13:46
3  
See my reply for a portable way of doing an atomic check and create without having to rely on utilities such as flock or lockfile. –  lhunath Apr 8 '09 at 20:18
1  
What if another process starts running with the saved PID? –  SalmanPK May 26 '12 at 0:00

All approaches that test the existence of "lock files" are flawed.

Why? Because there is no way to check whether a file exists and create it in a single atomic action. Because of this; there is a race condition that WILL make your attempts at mutual exclusion break.

Instead, you need to use mkdir. mkdir creates a directory if it doesn't exist yet, and if it does, it sets an exit code. More importantly, it does all this in a single atomic action making it perfect for this scenario.

if ! mkdir /tmp/myscript.lock 2>/dev/null; then
    echo "Myscript is already running." >&2
    exit 1
fi

For all details, see the excellent BashFAQ: http://mywiki.wooledge.org/BashFAQ/045

If you want to take care of stale locks, fuser(1) comes in handy. The only downside here is that the operation takes about a second, so it isn't instant.

Here's a function I wrote once that solves the problem using fuser:

#       mutex file
#
# Open a mutual exclusion lock on the file, unless another process already owns one.
#
# If the file is already locked by another process, the operation fails.
# This function defines a lock on a file as having a file descriptor open to the file.
# This function uses FD 9 to open a lock on the file.  To release the lock, close FD 9:
# exec 9>&-
#
mutex() {
    local file=$1 pid pids 

    exec 9>>"$file"
    { pids=$(fuser -f "$file"); } 2>&- 9>&- 
    for pid in $pids; do
        [[ $pid = $$ ]] && continue

        exec 9>&- 
        return 1 # Locked by a pid.
    done 
}

You can use it in a script like so:

mutex /var/run/myscript.lock || { echo "Already running." >&2; exit 1; }

If you don't care about portability (these solutions should work on pretty much any UNIX box), Linux' fuser(1) offers some additional options and there is also flock(1).

share|improve this answer
    
Good suggestion. The BashFAQ is quite helpful. Seems mkdir is a better solution than set -C; >tempfile if there's any chance you'll be using ksh88 according to the comments there. –  Mikel Feb 25 '11 at 2:00
    
This doesn't clear stale locks however. –  Tobu Feb 25 '11 at 2:25
    
Added an way to also deal with stale locks. –  lhunath Mar 16 '11 at 8:20
    
The line "{ pids=$(fuser -f "$file"); } 2>&- 9>&-" didn't work in my bash. When I put a code to close the fd into the subshell: "{ pids=$(exec 9>&-; fuser -f "$file"); } 2>&-" it did work well. –  bobah Mar 24 '12 at 14:06
2  
It is certainly true that mkdir is not defined to be an atomic operation and as such that "side-effect" is an implementation detail of the file system. I fully believe him if he says NFS doesn't implement it in an atomic fashion. Though I don't suspect your /tmp will be an NFS share and will likely be provided by an fs that implements mkdir atomically. –  lhunath Sep 19 '12 at 7:35

There's a wrapper around the flock(2) system call called, unimaginatively, flock(1). This makes it relatively easy to reliably obtain exclusive locks without worrying about cleanup etc. There are examples on the man page as to how to use it in a shell script.

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2  
The flock() system call is not POSIX and does not work for files on NFS mounts. –  maxschlepzig Oct 4 '11 at 20:40
5  
Running from a Cron job I use flock -x -n %lock file% -c "%command%" to make sure only one instance is ever executing. –  Ryall Dec 5 '12 at 16:27

Another option is to use shell's noclobber option by running set -C. Then > will fail if the file already exists.

In brief:

set -C
lockfile="/tmp/locktest.lock"
if echo "$$" > "$lockfile"; then
    echo "Successfully acquired lock"
    # do work
    rm "$lockfile"    # XXX or via trap - see below
else
    echo "Cannot acquire lock - already locked by $(cat "$lockfile")"
fi

This causes the shell to call:

open(pathname, O_CREAT|O_EXCL)

which atomically creates the file or fails if the file already exists.


According to a comment on BashFAQ 045, this may fail in ksh88, but it works in all my shells:

$ strace -e trace=creat,open -f /bin/bash /home/mikel/bin/testopen 2>&1 | grep -F testopen.lock
open("/tmp/testopen.lock", O_WRONLY|O_CREAT|O_EXCL|O_LARGEFILE, 0666) = 3

$ strace -e trace=creat,open -f /bin/zsh /home/mikel/bin/testopen 2>&1 | grep -F testopen.lock
open("/tmp/testopen.lock", O_WRONLY|O_CREAT|O_EXCL|O_NOCTTY|O_LARGEFILE, 0666) = 3

$ strace -e trace=creat,open -f /bin/pdksh /home/mikel/bin/testopen 2>&1 | grep -F testopen.lock
open("/tmp/testopen.lock", O_WRONLY|O_CREAT|O_EXCL|O_TRUNC|O_LARGEFILE, 0666) = 3

$ strace -e trace=creat,open -f /bin/dash /home/mikel/bin/testopen 2>&1 | grep -F testopen.lock
open("/tmp/testopen.lock", O_WRONLY|O_CREAT|O_EXCL|O_LARGEFILE, 0666) = 3

Interesting that pdksh adds the O_TRUNC flag, but obviously it's redundant:
either you're creating an empty file, or you're not doing anything.


How you do the rm depends on how you want unclean exits to be handled.

Delete on clean exit

New runs fail until the issue that caused the unclean exit to be resolved and the lockfile is manually removed.

# acquire lock
# do work (code here may call exit, etc.)
rm "$lockfile"

Delete on any exit

New runs succeed provided the script is not already running.

trap 'rm "$lockfile"' EXIT
share|improve this answer
    
Very novel approach... this appears to be one way to accomplish atomicity using a lock file rather than a lock directory. –  Matt Caldwell May 2 '11 at 14:29

To make locking reliable you need an atomic operation. Many of the above proposals are not atomic. The proposed lockfile(1) utility looks promising as the man-page mentioned, that its "NFS-resistant". If your OS does not support lockfile(1) and your solution has to work on NFS, you have not many options....

NFSv2 has two atomic operations:

  • symlink
  • rename

With NFSv3 the create call is also atomic.

Directory operations are NOT atomic under NFSv2 and NFSv3 (please refer to the book 'NFS Illustrated' by Brent Callaghan, ISBN 0-201-32570-5; Brent is a NFS-veteran at Sun).

Knowing this, you can implement spin-locks for files and directories (in shell, not PHP):

lock current dir:

while ! ln -s . lock; do :; done

lock a file:

while ! ln -s ${f} ${f}.lock; do :; done

unlock current dir (assumption, the running process really acquired the lock):

mv lock deleteme && rm deleteme

unlock a file (assumption, the running process really acquired the lock):

mv ${f}.lock ${f}.deleteme && rm ${f}.deleteme

Remove is also not atomic, therefore first the rename (which is atomic) and then the remove.

For the symlink and rename calls, both filenames have to reside on the same filesystem. My proposal: use only simple filenames (no paths) and put file and lock into the same directory.

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Which pages of NFS Illustrated support the statement that mkdir is not atomic over NFS? –  maxschlepzig Oct 4 '11 at 20:50
    
Thnks for this technique. A shell mutex implementation is available in my new shell lib : github.com/Offirmo/offirmo-shell-lib, see "mutex". It uses lockfile if available, or fallback to this symlink method if not. –  Offirmo Dec 19 '12 at 10:58
    
Nice. Unfortunately this method does not provide a way to automatically delete stale locks. –  Richard Hansen May 21 '13 at 19:30
    
For the two stage unlock (mv, rm), should rm -f be used, rather than rm in case two processes P1, P2 are racing? For example, P1 commences unlock with mv, then P2 locks, then P2 unlocks (both mv and rm), finally P1 attempts rm and fails. –  Matt Wallis Dec 20 '13 at 17:37
    
@MattWallis That last problem could easily be mitigated by including $$ in the ${f}.deleteme filename. –  Stefan Majewsky Feb 10 at 12:52

Create a lock file in a known location and check for existence on script start? Putting the PID in the file might be helpful if someone's attempting to track down an errant instance that's preventing execution of the script.

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Really quick and really dirty? This one-liner on the top of your script will work:

if [ `ps -e | grep -c $(basename $0)` -gt 2 ]; then exit 0; fi

Of course, just make sure that your script name is unique. :)

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PID and lockfiles are definitely the most reliable. When you attempt to run the program, it can check for the lockfile which and if it exists, it can use ps to see if the process is still running. If it's not, the script can start, updating the PID in the lockfile to its own.

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Some unixes have lockfile which is very similar to the already mentioned flock.

From the manpage:

lockfile can be used to create one or more semaphore files. If lock- file can't create all the specified files (in the specified order), it waits sleeptime (defaults to 8) seconds and retries the last file that didn't succeed. You can specify the number of retries to do until failure is returned. If the number of retries is -1 (default, i.e., -r-1) lockfile will retry forever.

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how do we get the lockfile utility ?? –  Offirmo Dec 15 '12 at 15:40
    
lockfile is distributed with procmail. Also there is an alternative dotlockfile that goes with liblockfile package. They both claim to work reliably on NFS. –  Mr. Deathless Aug 12 at 15:23

Quick and dirty?

#!/bin/sh

if [ -f sometempfile ]
  echo "Already running... will now terminate."
  exit
else
  touch sometempfile
fi

..do what you want here..

rm sometempfile
share|improve this answer
5  
This may or may not be an issue, depending on how it's used, but there's a race condition between testing for the lock and creating it, so that two scripts could both be started at the same time. If one terminates first, the other will stay running with no lock file. –  TimB Oct 9 '08 at 0:32
2  
C News, which taught me much about portable shell scripting, used to make a lock.$$ file, and then attempt to link it with "lock" - if the link succeeed, you had the lock, otherwise you removed lock.$$ and exited. –  Paul Tomblin Oct 9 '08 at 0:41
    
That's a really good way to do it, except you still suffer the need to remove the lockfile manually if something goes wrong and the lockfile isn't deleted. –  Matthew Scharley Oct 9 '08 at 0:53
1  
Quick and dirty, that's what he asked for :) –  Aupajo Oct 9 '08 at 0:56

If flock's limitations, which have already been described elsewhere on this thread, aren't an issue for you, then this should work:

#!/bin/bash

{
    # exit if we are unable to obtain a lock; this would happen if 
    # the script is already running elsewhere
    flock -x -n 100 || exit

    # put commands to run here
    sleep 100
} 100>/tmp/myjob.lock 
share|improve this answer
    
Just thought I'd point out that -x (write lock) is already set by default. –  Keldon Alleyne Sep 1 '13 at 7:54

Actually although the answer of bmdhacks is almost good, there is a slight chance the second script to run after first checked the lockfile and before it wrote it. So they both will write the lock file and they will both be running. Here is how to make it work for sure:

lockfile=/var/lock/myscript.lock

if ( set -o noclobber; echo "$$" > "$lockfile") 2> /dev/null ; then
  trap 'rm -f "$lockfile"; exit $?' INT TERM EXIT
else
  # or you can decide to skip the "else" part if you want
  echo "Another instance is already running!"
fi

The noclobber option will make sure that redirect command will fail if file already exists. So the redirect command is actually atomic - you write and check the file with one command. You don't need to remove the lockfile at the end of file - it'll be removed by the trap. I hope this helps to people that will read it later.

P.S. I didn't see that Mikel already answered the question correctly, although he didn't include the trap command to reduce the chance the lock file will be left over after stopping the script with Ctrl-C for example. So this is the complete solution

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When targeting a Debian machine I find the lockfile-progs package to be a good solution. procmail also comes with a lockfile tool. However sometimes I am stuck with neither of these.

Here's my solution which uses mkdir for atomic-ness and a PID file to detect stale locks. This code is currently in production on a Cygwin setup and works well.

To use it simply call exclusive_lock_require when you need get exclusive access to something. An optional lock name parameter lets you share locks between different scripts. There's also two lower level functions (exclusive_lock_try and exclusive_lock_retry) should you need something more complex.

function exclusive_lock_try() # [lockname]
{

    local LOCK_NAME="${1:-`basename $0`}"

    LOCK_DIR="/tmp/.${LOCK_NAME}.lock"
    local LOCK_PID_FILE="${LOCK_DIR}/${LOCK_NAME}.pid"

    if [ -e "$LOCK_DIR" ]
    then
        local LOCK_PID="`cat "$LOCK_PID_FILE" 2> /dev/null`"
        if [ ! -z "$LOCK_PID" ] && kill -0 "$LOCK_PID" 2> /dev/null
        then
            # locked by non-dead process
            echo "\"$LOCK_NAME\" lock currently held by PID $LOCK_PID"
            return 1
        else
            # orphaned lock, take it over
            ( echo $$ > "$LOCK_PID_FILE" ) 2> /dev/null && local LOCK_PID="$$"
        fi
    fi
    if [ "`trap -p EXIT`" != "" ]
    then
        # already have an EXIT trap
        echo "Cannot get lock, already have an EXIT trap"
        return 1
    fi
    if [ "$LOCK_PID" != "$$" ] &&
        ! ( umask 077 && mkdir "$LOCK_DIR" && umask 177 && echo $$ > "$LOCK_PID_FILE" ) 2> /dev/null
    then
        local LOCK_PID="`cat "$LOCK_PID_FILE" 2> /dev/null`"
        # unable to acquire lock, new process got in first
        echo "\"$LOCK_NAME\" lock currently held by PID $LOCK_PID"
        return 1
    fi
    trap "/bin/rm -rf \"$LOCK_DIR\"; exit;" EXIT

    return 0 # got lock

}

function exclusive_lock_retry() # [lockname] [retries] [delay]
{

    local LOCK_NAME="$1"
    local MAX_TRIES="${2:-5}"
    local DELAY="${3:-2}"

    local TRIES=0
    local LOCK_RETVAL

    while [ "$TRIES" -lt "$MAX_TRIES" ]
    do

        if [ "$TRIES" -gt 0 ]
        then
            sleep "$DELAY"
        fi
        local TRIES=$(( $TRIES + 1 ))

        if [ "$TRIES" -lt "$MAX_TRIES" ]
        then
            exclusive_lock_try "$LOCK_NAME" > /dev/null
        else
            exclusive_lock_try "$LOCK_NAME"
        fi
        LOCK_RETVAL="${PIPESTATUS[0]}"

        if [ "$LOCK_RETVAL" -eq 0 ]
        then
            return 0
        fi

    done

    return "$LOCK_RETVAL"

}

function exclusive_lock_require() # [lockname] [retries] [delay]
{
    if ! exclusive_lock_retry "$@"
    then
        exit 1
    fi
}
share|improve this answer

I find that bmdhack's solution is the most practical, at least for my use case. Using flock and lockfile rely on removing the lockfile using rm when the script terminates, which can't always be guaranteed (e.g., kill -9).

I would change one minor thing about bmdhack's solution: It makes a point of removing the lock file, without stating that this is unnecessary for the safe working of this semaphore. His use of kill -0 ensures that an old lockfile for a dead process will simply be ignored/over-written.

My simplified solution is therefore to simply add the following to the top of your singleton:

## Test the lock
LOCKFILE=/tmp/singleton.lock 
if [ -e ${LOCKFILE} ] && kill -0 `cat ${LOCKFILE}`; then
    echo "Script already running. bye!"
    exit 
fi

## Set the lock 
echo $$ > ${LOCKFILE}

Of course, this script still has the flaw that processes that are likely to start at the same time have a race hazard, as the lock test and set operations are not a single atomic action. But the proposed solution for this by lhunath to use mkdir has the flaw that a killed script may leave behind the directory, thus preventing other instances from running.

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I use a simple approach that handles stale lock files.

Note that some of the above solutions that store the pid, ignore the fact that the pid can wrap around. So - just checking if there is a valid process with the stored pid is not enough, especially for long running scripts.

I use noclobber to make sure only one script can open and write to the lock file at one time. Further, I store enough information to uniquely identify a process in the lockfile. I define the set of data to uniquely identify a process to be pid,ppid,lstart.

When a new script starts up, if it fails to create the lock file, it then verifies that the process that created the lock file is still around. If not, we assume the original process died an ungraceful death, and left a stale lock file. The new script then takes ownership of the lock file, and all is well the world, again.

Should work with multiple shells across multiple platforms. Fast, portable and simple.

#!/usr/bin/env sh
# Author: rouble

LOCKFILE=/var/tmp/lockfile #customize this line

trap release INT TERM EXIT

# Creates a lockfile. Sets global variable $ACQUIRED to true on success.
# 
# Returns 0 if it is successfully able to create lockfile.
acquire () {
    set -C #Shell noclobber option. If file exists, > will fail.
    UUID=`ps -eo pid,ppid,lstart $$ | tail -1`
    if (echo "$UUID" > "$LOCKFILE") 2>/dev/null; then
        ACQUIRED="TRUE"
        return 0
    else
        if [ -e $LOCKFILE ]; then 
            # We may be dealing with a stale lock file.
            # Bring out the magnifying glass. 
            CURRENT_UUID_FROM_LOCKFILE=`cat $LOCKFILE`
            CURRENT_PID_FROM_LOCKFILE=`cat $LOCKFILE | cut -f 1 -d " "`
            CURRENT_UUID_FROM_PS=`ps -eo pid,ppid,lstart $CURRENT_PID_FROM_LOCKFILE | tail -1`
            if [ "$CURRENT_UUID_FROM_LOCKFILE" == "$CURRENT_UUID_FROM_PS" ]; then 
                echo "Script already running with following identification: $CURRENT_UUID_FROM_LOCKFILE" >&2
                return 1
            else
                # The process that created this lock file died an ungraceful death. 
                # Take ownership of the lock file.
                echo "The process $CURRENT_UUID_FROM_LOCKFILE is no longer around. Taking ownership of $LOCKFILE"
                release "FORCE"
                if (echo "$UUID" > "$LOCKFILE") 2>/dev/null; then
                    ACQUIRED="TRUE"
                    return 0
                else
                    echo "Cannot write to $LOCKFILE. Error." >&2
                    return 1
                fi
            fi
        else
            echo "Do you have write permissons to $LOCKFILE ?" >&2
            return 1
        fi
    fi
}

# Removes the lock file only if this script created it ($ACQUIRED is set), 
# OR, if we are removing a stale lock file (first parameter is "FORCE") 
release () {
    #Destroy lock file. Take no prisoners.
    if [ "$ACQUIRED" ] || [ "$1" == "FORCE" ]; then
        rm -f $LOCKFILE
    fi
}

# Test code
# int main( int argc, const char* argv[] )
echo "Acquring lock."
acquire
if [ $? -eq 0 ]; then 
    echo "Acquired lock."
    read -p "Press [Enter] key to release lock..."
    release
    echo "Released lock."
else
    echo "Unable to acquire lock."
fi
share|improve this answer
    
I gave you +1 for a different solution. Althoug it doesn't work neither in AIX (> ps -eo pid,ppid,lstart $$ | tail -1 ps: invalid list with -o.) not HP-UX (> ps -eo pid,ppid,lstart $$ | tail -1 ps: illegal option -- o). Thanks. –  Ruslan Aug 13 at 21:02

Here's an approach that combines atomic directory locking with a check for stale lock via PID and restart if stale. Also, this does not rely on any bashisms.

#!/bin/dash

SCRIPTNAME=$(basename $0)
LOCKDIR="/var/lock/${SCRIPTNAME}"
PIDFILE="${LOCKDIR}/pid"

if ! mkdir $LOCKDIR 2>/dev/null
then
    # lock failed, but check for stale one by checking if the PID is really existing
    PID=$(cat $PIDFILE)
    if ! kill -0 $PID 2>/dev/null
    then
       echo "Removing stale lock of nonexistent PID ${PID}" >&2
       rm -rf $LOCKDIR
       echo "Restarting myself (${SCRIPTNAME})" >&2
       exec "$0" "$@"
    fi
    echo "$SCRIPTNAME is already running, bailing out" >&2
    exit 1
else
    # lock successfully acquired, save PID
    echo $$ > $PIDFILE
fi

trap "rm -rf ${LOCKDIR}" QUIT INT TERM EXIT


echo hello

sleep 30s

echo bye
share|improve this answer

Take a look to FLOM (Free LOck Manager) http://sourceforge.net/projects/flom/: you can synchronize commands and/or scripts using abstract resources that does not need lock files in a filesystem. You can synchronize commands running in different systems without a NAS (Network Attached Storage) like an NFS (Network File System) server.

Using the simplest use case, serializing "command1" and "command2" may be as easy as executing:

flom -- command1

and

flom -- command2

from two different shell scripts.

share|improve this answer

Simply add [ "${FLOCKER}" != "$0" ] && exec env FLOCKER="$0" flock -en "$0" "$0" "$@" || : at the beginning of your script. It's a boilerplate code from man flock. To realize how it works i wrote a script and run it simultaneously from two consoles:

#!/bin/bash

if [ "${FLOCKER}" != "$0" ]; then
        echo "FLOCKER=$FLOCKER \$0=$0 ($$)"
        exec env FLOCKER="$0" flock -en "$0" "$0" "$@" || :
else
        echo "FLOCKER equals \$0 = $FLOCKER ($$)"
fi

sleep 10
echo "Process $$ finished"

I have not fully realized how it works, but it seems it runs itself again using itself as a lockfile. FLOCKER set to "$0" just to set some notnull reasonable value. || : to do nothing if something went wrong.

It seems to not work on Debian 7, but seems to work back again with experimental util-linux 2.25 package. It writes "flock: ... Text file busy". It could be overridden by disabling write permission on your script.

share|improve this answer

Try something like the below,

ab=`ps -ef | grep -v grep | grep -wc processname`

Then match the variable with 1 using an if loop.

share|improve this answer
    
In this case I would use something like ab=ps -ef | egrep -v "(grep|$$)" | grep -wc processname So it wouldn't match to the current process if purpose of the check is to disallow multiple instances of current script. –  Ruslan Aug 13 at 20:57

Here is a more elegant, fail-safe, quick & dirty method, combining the answers provided above.

Usage

  1. include sh_lock_functions.sh
  2. init using sh_lock_init
  3. lock using sh_acquire_lock
  4. check lock using sh_check_lock
  5. unlock using sh_remove_lock

Script File

sh_lock_functions.sh

#!/bin/bash

function sh_lock_init {
    sh_lock_scriptName=$(basename $0)
    sh_lock_dir="/tmp/${sh_lock_scriptName}.lock" #lock directory
    sh_lock_file="${sh_lock_dir}/lockPid.txt" #lock file
}

function sh_acquire_lock {
    if mkdir $sh_lock_dir 2>/dev/null; then #check for lock
        echo "$sh_lock_scriptName lock acquired successfully.">&2
        touch $sh_lock_file
        echo $$ > $sh_lock_file # set current pid in lockFile
        return 0
    else
        touch $sh_lock_file
        read sh_lock_lastPID < $sh_lock_file
        if [ ! -z "$sh_lock_lastPID" -a -d /proc/$sh_lock_lastPID ]; then # if lastPID is not null and a process with that pid exists
            echo "$sh_lock_scriptName is already running.">&2
            return 1
        else
            echo "$sh_lock_scriptName stopped during execution, reacquiring lock.">&2
            echo $$ > $sh_lock_file # set current pid in lockFile
            return 2
        fi
    fi
    return 0
}

function sh_check_lock {
    [[ ! -f $sh_lock_file ]] && echo "$sh_lock_scriptName lock file removed.">&2 && return 1
    read sh_lock_lastPID < $sh_lock_file
    [[ $sh_lock_lastPID -ne $$ ]] && echo "$sh_lock_scriptName lock file pid has changed.">&2  && return 2
    echo "$sh_lock_scriptName lock still in place.">&2
    return 0
}

function sh_remove_lock {
    rm -r $sh_lock_dir
}

Usage example

sh_lock_usage_example.sh

#!/bin/bash
. /path/to/sh_lock_functions.sh # load sh lock functions

sh_lock_init || exit $?

sh_acquire_lock
lockStatus=$?
[[ $lockStatus -eq 1 ]] && exit $lockStatus
[[ $lockStatus -eq 2 ]] && echo "lock is set, do some resume from crash procedures";

#monitoring example
cnt=0
while sh_check_lock # loop while lock is in place
do
    echo "$sh_scriptName running (pid $$)"
    sleep 1
    let cnt++
    [[ $cnt -gt 5 ]] && break
done

#remove lock when process finished
sh_remove_lock || exit $?

exit 0

Features

  • Uses a combination of file, directory and process id to lock to make sure that the process is not already running
  • You can detect if the script stopped before lock removal (eg. process kill, shutdown, error etc.)
  • You can check the lock file, and use it to trigger a process shutdown when the lock is missing
  • Verbose, outputs error messages for easier debug
share|improve this answer

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