What is the simplest/best way to ensure only one instance of a given script is running - assuming it's Bash on Linux?

At the moment I'm doing:

ps -C script.name.sh > /dev/null 2>&1 || ./script.name.sh

but it has several issues:

  1. it puts the check outside of script
  2. it doesn't let me run the same script from separate accounts - which I would like sometimes.
  3. -C checks only first 14 characters of process name

Of course, I can write my own pidfile handling, but I sense that there should be a simple way to do it.


14 Answers 14


Advisory locking has been used for ages and it can be used in bash scripts. I prefer simple flock (from util-linux[-ng]) over lockfile (from procmail). And always remember about a trap on exit (sigspec == EXIT or 0, trapping specific signals is superfluous) in those scripts.

In 2009 I released my lockable script boilerplate (originally available at my wiki page, nowadays available as gist). Transforming that into one-instance-per-user is trivial. Using it you can also easily write scripts for other scenarios requiring some locking or synchronization.

Here is the mentioned boilerplate for your convenience.

# SPDX-License-Identifier: MIT

## Copyright (C) 2009 Przemyslaw Pawelczyk <przemoc@gmail.com>
## This script is licensed under the terms of the MIT license.
## https://opensource.org/licenses/MIT
# Lockable script boilerplate

### HEADER ###

LOCKFILE="/var/lock/`basename $0`"

_lock()             { flock -$1 $LOCKFD; }
_no_more_locking()  { _lock u; _lock xn && rm -f $LOCKFILE; }
_prepare_locking()  { eval "exec $LOCKFD>\"$LOCKFILE\""; trap _no_more_locking EXIT; }


exlock_now()        { _lock xn; }  # obtain an exclusive lock immediately or fail
exlock()            { _lock x; }   # obtain an exclusive lock
shlock()            { _lock s; }   # obtain a shared lock
unlock()            { _lock u; }   # drop a lock


# Simplest example is avoiding running multiple instances of script.
exlock_now || exit 1

# Remember! Lock file is removed when one of the scripts exits and it is
#           the only script holding the lock or lock is not acquired at all.
  • 3
    @CarlosP: No. Under the hood flock uses simply flock(2) syscall and it doesn't provide such information nor it even should. If you want to unreliably check, whether there is a lock present (or lack thereof), i.e. without holding it, then you have to try to acquire it in a non-blocking way (exlock_now) and release it immediately (unlock) if you succeeded. If you think that you need to check the lock presence without changing its state, then you're possibly using wrong tools to solve your problems.
    – przemoc
    Dec 4, 2013 at 17:56
  • 3
    This template is very cool. But I don't understand why you do { _lock u; _lock xn && rm -f $LOCKFILE; }. What is the purpose of the xn lock after you just unlocked it? Jan 8, 2015 at 19:50
  • 4
    @overthink only literal number next to > is considered as file descriptor number, so without eval there exec tries to execute binary called 99 (or whatever else is put in $LOCKFD). It's worth to add that some shells (like dash) have a bug that requires fd number to be single digit. I chose high fd number to avoid possible collisions (they depend on the use case, though). I went with BASH also because of convenient EXIT condition in trap IIRC, but it looks I was wrong, as it is part of POSIX shell.
    – przemoc
    Jan 31, 2015 at 22:20
  • 3
    @JayParoline You're misinterpreting what you observe. When you kill (-9) script, i.e. bash instance running script file, it will surely die, but processes fork()+exec()-ed from it (like your sleep did) inherit copies of open file descriptors along with flock() locks. Killing the script while sleep is sleeping won't unlock, because sleep process is still holding the lock. For lockable script it's important, because you usually want to protect "environment" (do not start another instance while something is still runing).
    – przemoc
    Oct 21, 2015 at 20:18
  • 3
    @JayParoline But you may change the behavior explained above by adding ( eval "exec $LOCKFD>&-" before your stuff and ) after, so everything running within such block won't inherit LOCKFD (and obviously the lock put on it).
    – przemoc
    Oct 21, 2015 at 20:21

If the script is the same across all users, you can use a lockfile approach. If you acquire the lock, proceed else show a message and exit.

As an example:

[Terminal #1] $ lockfile -r 0 /tmp/the.lock
[Terminal #1] $ 

[Terminal #2] $ lockfile -r 0 /tmp/the.lock
[Terminal #2] lockfile: Sorry, giving up on "/tmp/the.lock"

[Terminal #1] $ rm -f /tmp/the.lock
[Terminal #1] $ 

[Terminal #2] $ lockfile -r 0 /tmp/the.lock
[Terminal #2] $ 

After /tmp/the.lock has been acquired your script will be the only one with access to execution. When you are done, just remove the lock. In script form this might look like:


lockfile -r 0 /tmp/the.lock || exit 1

# Do stuff here

rm -f /tmp/the.lock
  • 3
    Can we have an example code snippet? Nov 11, 2009 at 13:54
  • 3
    Added an example and skeleton script.
    – ezpz
    Nov 11, 2009 at 14:26
  • 12
    I don't have lockfile program on my linux, but one thing bothers me - will it work if first script will die without removing lock? i.e. in such case i want next run of script to run, and not die "because previous copy is still working"
    – user80168
    Nov 11, 2009 at 15:19
  • 3
    You should also use the trap builtin to catch any signals that might kill your script prematurely. Near the top of the script, add something like: trap " [ -f /var/run/my.lock ] && /bin/rm -f /var/run/my.lock" 0 1 2 3 13 15 You can search /usr/bin/* for more examples. Nov 12, 2009 at 4:07
  • 8
    @user80168 Current Ubuntu (14.04) has available a package called "lockfile-progs" (NFS-safe locking library) that provides lockfile-{check,create,remove,touch}. man page says: "Once a file is locked, the lock must be touched at least once every five minutes or the lock will be considered stale, and subsequent lock attempts will succeed...". Seems like a good package to use and mentions a "--use-pid" option.
    – Kalin
    Apr 17, 2014 at 1:43

I think flock is probably the easiest (and most memorable) variant. I use it in a cron job to auto-encode dvds and cds

# try to run a command, but fail immediately if it's already running
flock -n /var/lock/myjob.lock   my_bash_command

Use -w for timeouts or leave out options to wait until the lock is released. Finally, the man page shows a nice example for multiple commands:

     flock -n 9 || exit 1
     # ... commands executed under lock ...
   ) 9>/var/lock/mylockfile
  • 1
    I agree, flock is nice, especially compared to lockfile since flock is usually pre-installed on most Linux distros and doesn't require a large unrelated utility like postfix the way lockfile does.
    – Cerin
    Nov 17, 2015 at 16:57
  • @jake Biesinger am i locking the .sh file or the file that i write output of my application with .sh file? i am new to scripting bash so where do i have to put this in my script plus how to do the unlocking?
    – A Sahra
    Dec 18, 2016 at 4:28
  • @Cerin I need to do same thing with ffmpeg process conversion so i need to finish the first process regardless of crontab in every minute? pleas i need help for this
    – A Sahra
    Dec 18, 2016 at 4:31
  • very nice ! thk
    – Paul
    Aug 29, 2018 at 13:50
  • flock works well until u realised your application didnt terminate or hang. ive to use it together with timeout to limit the execution time or to prevent lock file not being released due to application hang
    – James Tan
    Nov 23, 2019 at 19:55

Use bash set -o noclobber option and attempt to overwrite a common file.

This "bash friendly" technique will be useful when flock is not available or not applicable.

A short example

if ! (set -o noclobber ; echo > /tmp/global.lock) ; then
    exit 1  # the global.lock already exists

# ... remainder of script ...

A longer example

This example will wait for the global.lock file but timeout after too long.

 function lockfile_waithold()
    declare -ir time_beg=$(date '+%s')
    declare -ir time_max=7140  # 7140 s = 1 hour 59 min.
    # poll for lock file up to ${time_max}s
    # put debugging info in lock file in case of issues ...
    while ! \
       (set -o noclobber ; \
        echo -e "DATE:$(date)\nUSER:$(whoami)\nPID:$$" > /tmp/global.lock \ 
       ) 2>/dev/null
        if [ $(($(date '+%s') - ${time_beg})) -gt ${time_max} ] ; then
            echo "Error: waited too long for lock file /tmp/global.lock" 1>&2
            return 1
        sleep 1
    return 0
 function lockfile_release()
    rm -f /tmp/global.lock
 if ! lockfile_waithold ; then
      exit 1
 trap lockfile_release EXIT
 # ... remainder of script ...

This technique reliably worked for me on a long-running Ubuntu 16 host. The host regularly queued many instances of a bash script that coordinated work using the same singular system-wide "lock" file.

(This is similar to this post by @Barry Kelly which was noticed afterward.)

  • 2
    One disadvantage of this (as opposed to flock-style locking) is that your lock isn't automatically released on kill -9, reboot, power loss, etc. May 26, 2017 at 14:50
  • @CharlesDuffy , you could add a trap lockfile_release EXIT which should cover most cases. If power loss is a concern, then using a temporary directory for the lock file would work, e.g. /tmp. Jan 11, 2019 at 3:32
  • In addition to reboots &c, exit traps don't fire on SIGKILL (which is used by the OOM killer, and thus a very real-world concern in some environments). I still consider this approach generally less robust to anything where the kernel provides a guarantee of release. (/tmp being memory-backed and thus given a hard guarantee of being cleared on reboot is mostly the case in recent years, but I'm old-school enough not to trust such facilities to be available; I suppose some rant about kids and a yard is appropriate). Jan 11, 2019 at 3:39
  • 2
    I'm not sure I follow why that's a concern; you can certainly grab a lock with a dynamic filename with flock after your program has started, and release it without exiting. Using some modern (bash 4.1) facilities to avoid needing to assign a FD manually: exec {lock_fd}>"$filename" && flock -x "$lock_fd" || { echo "Lock failed" >&2; exit 1; }; ...stuff here...; exec {lock_fd}>&- Jan 11, 2019 at 4:47
  • 1
    This solution is useful in my case where flock and lockfile are not available in the environment.
    – nielsen
    Jan 20, 2021 at 7:43

i found this in procmail package dependencies:

apt install liblockfile-bin

To run: dotlockfile -l file.lock

file.lock will be created.

To unlock: dotlockfile -u file.lock

Use this to list this package files / command: dpkg-query -L liblockfile-bin


I'm not sure there's any one-line robust solution, so you might end up rolling your own.

Lockfiles are imperfect, but less so than using 'ps | grep | grep -v' pipelines.

Having said that, you might consider keeping the process control separate from your script - have a start script. Or, at least factor it out to functions held in a separate file, so you might in the caller script have:

. my_script_control.ksh

# Function exits if cannot start due to lockfile or prior running instance.
my_start_me_up lockfile_name;
trap "rm -f $lockfile_name; exit" 0 2 3 15

in each script that needs the control logic. The trap ensures that the lockfile gets removed when the caller exits, so you don't have to code this on each exit point in the script.

Using a separate control script means that you can sanity check for edge cases: remove stale log files, verify that the lockfile is associated correctly with a currently running instance of the script, give an option to kill the running process, and so on. It also means you've got a better chance of using grep on ps output successfully. A ps-grep can be used to verify that a lockfile has a running process associated with it. Perhaps you could name your lockfiles in some way to include information about the process: user, pid, etc., which can be used by a later script invocation to decide whether the process that created the lockfile is still around.

  • +1 for mentioning trap
    – mgalgs
    Dec 12, 2011 at 21:53
  • What is the 0 signal? It can't be seen in kill -l
    – qed
    Dec 2, 2013 at 21:17
  • 1
    @qed - it means run the trap on exit from the script. See gnu.org/software/bash/manual/bashref.html#index-trap Dec 2, 2013 at 21:33
  • It looks much like the try...catch...finally... in python.
    – qed
    Dec 3, 2013 at 17:52
  • @qed: @martin is right, the documentation states that trap ... 0 is an alias for trap ... EXIT. However, when sending signal 0 with kill -0 ..., you just check whether the process exists and you are allowed to send a signal to it. This is used for waiting (polling) for the end of one of your processes that is not the son of the current process. Signal 0 does not have any effect.
    – hagello
    May 15, 2020 at 8:42

first test example

[[ $(lsof -t $0| wc -l) > 1 ]] && echo "At least one of $0 is running"

second test example

runpid=$(lsof -t $currsh| paste -s -d " ")
if [[ $runpid == $currpid ]]
  sleep 11111111111111111
  echo -e "\nPID($runpid)($currpid) ::: At least one of \"$currsh\" is running !!!\n"
  exit 1


"lsof -t" to list all pids of current running scripts named "$0".

Command "lsof" will do two advantages.

  1. Ignore pids which is editing by editor such as vim, because vim edit its mapping file such as ".file.swp".
  2. Ignore pids forked by current running shell scripts, which most "grep" derivative command can't achieve it. Use "pstree -pH pidnum" command to see details about current process forking status.
  • Works for me! Need to understand, is there any reason for downvote for this answer? May 24, 2017 at 5:17
  • lsof is not always in your $PATH.
    – swdev
    Mar 22, 2019 at 0:37
  • lsof is probably not an atomic action, hence it suffers under race conditions. Jul 27, 2019 at 2:58

I'd also recommend looking at chpst (part of runit):

chpst -L /tmp/your-lockfile.loc ./script.name.sh
  • +1 for its simplicity.
    – qed
    Dec 2, 2013 at 20:25

Ubuntu/Debian distros have the start-stop-daemon tool which is for the same purpose you describe. See also /etc/init.d/skeleton to see how it is used in writing start/stop scripts.

-- Noah


One line ultimate solution:

[ "$(pgrep -fn $0)" -ne "$(pgrep -fo $0)" ] && echo "At least 2 copies of $0 are running"
  • 1
    pgrep -fn ... -fo $0 also matches you text editor which has the script open for editing. Is there a workaround for that situation?
    – Pro Backup
    Sep 1, 2018 at 4:29
  • This is a very specific solution for situations when traditional ways can't be used, if it doesn't match you needs you still can use a lockfile. If you need this one line solution anyway, you can modify it using $* with $0 and pass unique parameter to your script, which will not be present in a text editor command line.
    – Dm1
    Sep 13, 2018 at 10:21
  • 2
    This solution suffers under race conditions: The test construct is not atomic. Jul 27, 2019 at 2:54

I had the same problem, and came up with a template that uses lockfile, a pid file that holds the process id number, and a kill -0 $(cat $pid_file) check to make aborted scripts not stop the next run. This creates a foobar-$USERID folder in /tmp where the lockfile and pid file lives.

You can still call the script and do other things, as long as you keep those actions in alertRunningPS.


user_id_num=$(id -u)

function alertRunningPS () {
    local PID=$(cat "$pid_file" 2> /dev/null)
    echo "Lockfile present. ps id file: $PID"
    echo "Checking if process is actually running or something left over from crash..."
    if kill -0 $PID 2> /dev/null; then
        echo "Already running, exiting"
        exit 1
        echo "Not running, removing lock and continuing"
        rm -f "$lock_file"
        lockfile -r 0 "$lock_file"

echo "Hello, checking some stuff before locking stuff"

# Lock further operations to one process
mkdir -p /tmp/foobar-$user_id_num
lockfile -r 0 "$lock_file" || alertRunningPS

# Do stuff here
echo -n $ps_id > "$pid_file"
echo "Running stuff in ONE ps"

sleep 30s

rm -f "$lock_file"
rm -f "$pid_file"
exit 0

I found a pretty simple way to handle "one copy of script per system". It doesn't allow me to run multiple copies of the script from many accounts though (on standard Linux that is).


At the beginning of script, I gave:

pidof -s -o '%PPID' -x $( basename $0 ) > /dev/null 2>&1 && exit

Apparently pidof works great in a way that:

  • it doesn't have limit on program name like ps -C ...
  • it doesn't require me to do grep -v grep ( or anything similar )

And it doesn't rely on lockfiles, which for me is a big win, because relaying on them means you have to add handling of stale lockfiles - which is not really complicated, but if it can be avoided - why not?

As for checking with "one copy of script per running user", i wrote this, but I'm not overly happy with it:

    pidof -s -o '%PPID' -x $( basename $0 ) | tr ' ' '\n'
    ps xo pid= | tr -cd '[0-9\n]'
) | sort | uniq -d

and then I check its output - if it's empty - there are no copies of the script from same user.


from with your script:

ps -ef | grep $0 | grep $(whoami)
  • 2
    This has the relatively well known bug with grep finding itself. Of course I can work around it, but it's not something I would call simple and robust.
    – user80168
    Nov 11, 2009 at 13:28
  • I've seen many 'grep -v grep's. Your ps might support -u $LOGNAME too. Nov 11, 2009 at 13:52
  • it's relatively robust in that its uses $0 and whoami to ensure your gettinmg only the script started by your userid Nov 11, 2009 at 13:57
  • ennuikiller: no - grep $0 will find processes like $0 (for example the one that is running this ps right now), but it will also find a grep itself! so basically - it will virtually always succeed.
    – user80168
    Nov 11, 2009 at 14:02
  • 1
    @ennuikiller: that assumption was not in your example. besides - it will find "call.sh" even in things like "call.sh". and it will also fail if i'll call it from ./call.sh itself (it will find the call.sh copy that is doing the check, not some previous) - so. in short - this is not solution. it can be changed to be solution by adding at least 2 more greps, or changing existing one, but it doesn't on its own solve the problem.
    – user80168
    Nov 11, 2009 at 15:21

Here's our standard bit. It can recover from the script somehow dying without cleaning up it's lockfile.

It writes the process ID to the lock file if it runs normally. If it finds a lock file when it starts running, it will read the process ID from the lock file and check if that process exists. If the process does not exist it will remove the stale lock file and carry on. And only if the lock file exists AND the process is still running will it exit. And it writes a message when it exits.

# lock to ensure we don't get two copies of the same job
if [[ -e "${lock}" ]]; then
    pid=$(cat ${lock})
    if [[ -e /proc/${pid} ]]; then
        echo "${script_name}: Process ${pid} is still running, exiting."
        exit 1
        # Clean up previous lock file
        rm -f ${lock}
trap "rm -f ${lock}; exit $?" INT TERM EXIT
# write $$ (PID) to the lock file
echo "$$" > ${lock}
  • 3
    That solution has a very glaring race condition (not that the others don't).
    – geirha
    May 22, 2015 at 18:40
  • Also exit $? will always return zero.
    – BVengerov
    Mar 10, 2017 at 7:13