I want to kill a whole process tree. What is the best way to do this using any common scripting languages? I am looking for a simple solution.

  • 4
    Zombies should go away when the system reaper runs though. I'll admit that I have seen systems where zombies linger, but that's atypical. Commented Dec 24, 2008 at 20:00
  • 10
    Sometimes those lingering zombies are responsible for some scary activity.
    – User1
    Commented Jan 7, 2011 at 22:03
  • Use one of the chronos or herodes commands. Commented Sep 23, 2014 at 16:18
  • 9
    kill $(pstree <PID> -p -a -l | cut -d, -f2 | cut -d' ' -f1)
    – user414441
    Commented Apr 22, 2015 at 8:56
  • @MichaelLeBarbierGrünewald Could you please link to those programs? Commented Mar 28, 2018 at 16:04

35 Answers 35


You don't say if the tree you want to kill is a single process group. (This is often the case if the tree is the result of forking from a server start or a shell command line.) You can discover process groups using GNU ps as follows:

 ps x -o  "%p %r %y %x %c "

If it is a process group you want to kill, just use the kill(1) command but instead of giving it a process number, give it the negation of the group number. For example to kill every process in group 5112, use kill -TERM -- -5112.

  • 4
    kill -74313 -bash: kill: 74313: invalid signal specification If i add the kill -15 -GPID it worked perfectly.
    – Adam Peck
    Commented Dec 24, 2008 at 20:17
  • 58
    As usual with almost any command, if you want a normal argument that starts with a - to not be interpreted as a switch, precede it with --: kill -- -GPID
    – ysth
    Commented Dec 24, 2008 at 21:47
  • 11
    pgrep can offer an easier way to find the process group ID. For example, to kill my-script.sh's process group, run kill -TERM -$(pgrep -o my-script.sh). Commented Aug 25, 2011 at 13:04
  • 10
    Better look at stackoverflow.com/questions/392022/… its by far a more elegant solution and if you need to list the pids of the children then use: ps -o pid --no-headers --ppid $PARENT_PID Commented Sep 15, 2011 at 11:19
  • 4
    And if you modify the format slightly and sort, you get to see all processes nicely grouped and beginning with (potentially) the group parent in each group: ps x -o "%r %p %y %x %c" | sort -nk1,2
    – haridsv
    Commented Dec 3, 2012 at 12:18

Kill all the processes belonging to the same process tree using the Process Group ID (PGID)

  • kill -- -$PGID     Use default signal (TERM = 15)
  • kill -9 -$PGID     Use the signal KILL (9)

You can retrieve the PGID from any Process-ID (PID) of the same process tree

  • kill -- -$(ps -o pgid= $PID | grep -o '[0-9]*')   (signal TERM)
  • kill -9 -$(ps -o pgid= $PID | grep -o '[0-9]*')   (signal KILL)

Special thanks to tanager and Speakus for contributions on $PID remaining spaces and OSX compatibility.


  • kill -9 -"$PGID" => Send signal 9 (KILL) to all child and grandchild...
  • PGID=$(ps opgid= "$PID") => Retrieve the Process-Group-ID from any Process-ID of the tree, not only the Process-Parent-ID. A variation of ps opgid= $PID is ps -o pgid --no-headers $PID where pgid can be replaced by pgrp.
    • ps inserts leading spaces when PID is less than five digits and right aligned as noticed by tanager. You can use:
      PGID=$(ps opgid= "$PID" | tr -d ' ')
    • ps from OSX always print the header, therefore Speakus proposes:
      PGID="$( ps -o pgid "$PID" | grep [0-9] | tr -d ' ' )"
  • grep -o [0-9]* prints successive digits only (does not print spaces or alphabetical headers).

Further command lines

PGID=$(ps -o pgid= $PID | grep -o [0-9]*)
kill -TERM -"$PGID"  # kill -15
kill -INT  -"$PGID"  # correspond to [CRTL+C] from keyboard
kill -QUIT -"$PGID"  # correspond to [CRTL+\] from keyboard
kill -CONT -"$PGID"  # restart a stopped process (above signals do not kill it)
sleep 2              # wait terminate process (more time if required)
kill -KILL -"$PGID"  # kill -9 if it does not intercept signals (or buggy)


  • As noticed by davide and Hubert Kario, when kill is invoked by a process belonging to the same tree, kill risks to kill itself before terminating the whole tree killing.
  • Therefore, be sure to run the command using a process having a different Process-Group-ID.

Long story

> cat run-many-processes.sh
echo "ProcessID=$$ begins ($0)"
./child.sh background &
./child.sh foreground
echo "ProcessID=$$ ends ($0)"

> cat child.sh
echo "ProcessID=$$ begins ($0)"
./grandchild.sh background &
./grandchild.sh foreground
echo "ProcessID=$$ ends ($0)"

> cat grandchild.sh
echo "ProcessID=$$ begins ($0)"
sleep 9999
echo "ProcessID=$$ ends ($0)"

Run the process tree in background using '&'

> ./run-many-processes.sh &    
ProcessID=28957 begins (./run-many-processes.sh)
ProcessID=28959 begins (./child.sh)
ProcessID=28958 begins (./child.sh)
ProcessID=28960 begins (./grandchild.sh)
ProcessID=28961 begins (./grandchild.sh)
ProcessID=28962 begins (./grandchild.sh)
ProcessID=28963 begins (./grandchild.sh)

> PID=$!                    # get the Parent Process ID
> PGID=$(ps opgid= "$PID")  # get the Process Group ID

> ps fj
28348 28349 28349 28349 pts/3    28969 Ss   33021   0:00 -bash
28349 28957 28957 28349 pts/3    28969 S    33021   0:00  \_ /bin/sh ./run-many-processes.sh
28957 28958 28957 28349 pts/3    28969 S    33021   0:00  |   \_ /bin/sh ./child.sh background
28958 28961 28957 28349 pts/3    28969 S    33021   0:00  |   |   \_ /bin/sh ./grandchild.sh background
28961 28965 28957 28349 pts/3    28969 S    33021   0:00  |   |   |   \_ sleep 9999
28958 28963 28957 28349 pts/3    28969 S    33021   0:00  |   |   \_ /bin/sh ./grandchild.sh foreground
28963 28967 28957 28349 pts/3    28969 S    33021   0:00  |   |       \_ sleep 9999
28957 28959 28957 28349 pts/3    28969 S    33021   0:00  |   \_ /bin/sh ./child.sh foreground
28959 28960 28957 28349 pts/3    28969 S    33021   0:00  |       \_ /bin/sh ./grandchild.sh background
28960 28964 28957 28349 pts/3    28969 S    33021   0:00  |       |   \_ sleep 9999
28959 28962 28957 28349 pts/3    28969 S    33021   0:00  |       \_ /bin/sh ./grandchild.sh foreground
28962 28966 28957 28349 pts/3    28969 S    33021   0:00  |           \_ sleep 9999
28349 28969 28969 28349 pts/3    28969 R+   33021   0:00  \_ ps fj

The command pkill -P $PID does not kill the grandchild:

> pkill -P "$PID"
./run-many-processes.sh: line 4: 28958 Terminated              ./child.sh background
./run-many-processes.sh: line 4: 28959 Terminated              ./child.sh foreground
ProcessID=28957 ends (./run-many-processes.sh)
[1]+  Done                    ./run-many-processes.sh

> ps fj
28348 28349 28349 28349 pts/3    28987 Ss   33021   0:00 -bash
28349 28987 28987 28349 pts/3    28987 R+   33021   0:00  \_ ps fj
    1 28963 28957 28349 pts/3    28987 S    33021   0:00 /bin/sh ./grandchild.sh foreground
28963 28967 28957 28349 pts/3    28987 S    33021   0:00  \_ sleep 9999
    1 28962 28957 28349 pts/3    28987 S    33021   0:00 /bin/sh ./grandchild.sh foreground
28962 28966 28957 28349 pts/3    28987 S    33021   0:00  \_ sleep 9999
    1 28961 28957 28349 pts/3    28987 S    33021   0:00 /bin/sh ./grandchild.sh background
28961 28965 28957 28349 pts/3    28987 S    33021   0:00  \_ sleep 9999
    1 28960 28957 28349 pts/3    28987 S    33021   0:00 /bin/sh ./grandchild.sh background
28960 28964 28957 28349 pts/3    28987 S    33021   0:00  \_ sleep 9999

The command kill -- -$PGID kills all processes including the grandchild.

> kill --    -"$PGID"  # default signal is TERM (kill -15)
> kill -CONT -"$PGID"  # awake stopped processes
> kill -KILL -"$PGID"  # kill -9 to be sure

> ps fj
28348 28349 28349 28349 pts/3    29039 Ss   33021   0:00 -bash
28349 29039 29039 28349 pts/3    29039 R+   33021   0:00  \_ ps fj


I notice in this example PID and PGID are equal (28957).
This is why I originally thought kill -- -$PID was enough. But in the case the process is spawn within a Makefile the Process ID is different from the Group ID.

I think kill -- -$(ps -o pgid= $PID | grep -o [0-9]*) is the best simple trick to kill a whole process tree when called from a different Group ID (another process tree).

  • 1
    Hi @davide. Good question. I think kill should always send the signal to the whole tree before receiving its own signal. But in some specific circumstances/implementations, kill may send to itself the signal, be interrupted, and then receive its own signal. However the risk should be enough minimal, and may be ignored in most of cases because other bugs should occur before this one. Can this risk be ignored in your case? Moreover other answers have this common bug (kill part of the process tree being killed). Hope this help.. Cheers ;)
    – oHo
    Commented Nov 13, 2013 at 7:47
  • 3
    This only works if the sub commands themselves don't become group leaders. Even such simple tools like man do that. On the other hand, if you want to kill gandchild process from child process, kill -- -$pid won't work. So it is not generic solution. Commented Nov 19, 2013 at 19:18
  • 1
    The example is the "child" trying to kill its children (so grandchildren of the user initiated command). IOW, try to kill the background process hierarchy in child.sh. Commented Nov 20, 2013 at 12:20
  • 1
    > kill -QUIT -"$PGID" # same signal as [CRTL+C] from keyboard ---- QUIT should be replaced to INT to be true Commented Feb 27, 2014 at 8:55
  • 1
    for OSX option --no-headers is not supported so code should be updated to: PGID="$( ps -o pgid "$PID" | grep [0-9] | tr -d ' ' )" Commented Feb 27, 2014 at 9:37
pkill -TERM -P 27888

This will kill all processes that have the parent process ID 27888.

Or more robust:

CPIDS=$(pgrep -P 27888); (sleep 33 && kill -KILL $CPIDS &); kill -TERM $CPIDS

which schedule killing 33 second later and politely ask processes to terminate.

See this answer for terminating all descendants.

  • 23
    In my quick test, pgrep only reported the immediate children, so this may not kill the entire hierarchy.
    – haridsv
    Commented Dec 3, 2012 at 12:24
  • 10
    I agree with @haridsv: pkill -P sends the signal to the child only => the grandchild do not receive the signal => Therefore I have wroten another answer to explain that. Cheers ;-)
    – oHo
    Commented Feb 28, 2013 at 16:09
  • 1
    From a bash script, to kill your own children, use pkill -TERM -P ${$}. Commented Apr 10, 2015 at 14:30
  • 3
    @Onlyjob, isn't it dangerous to sleep then kill? The process IDs may have been reused by the OS in the meantime: you might be killing processes which aren't your children anymore. I suspect the call to pkill would have to be done again to ensure against this. Commented Apr 10, 2015 at 14:42
  • 2
    @Onlyjob FYI, I am able to spawn 32768 processes, single threaded, with light I/O access in less than 19 seconds on my machine: $ time for i in {1..32768}; do ( echo $BASHPID >> pids ); done real 0m18.860s
    – cychoi
    Commented Jul 16, 2015 at 2:56

To kill a process tree recursively, use killtree():


killtree() {
    local _pid=$1
    local _sig=${2:--TERM}
    kill -stop ${_pid} # needed to stop quickly forking parent from producing children between child killing and parent killing
    for _child in $(ps -o pid --no-headers --ppid ${_pid}); do
        killtree ${_child} ${_sig}
    kill -${_sig} ${_pid}

if [ $# -eq 0 -o $# -gt 2 ]; then
    echo "Usage: $(basename $0) <pid> [signal]"
    exit 1

killtree $@
  • 3
    The -- arguments to ps don't work on OS X. To make it work there replace the ps command by: ps ax -o "pid= ppid=" | grep -E "${_regex}" | sed -E "s/${_regex}/\1/g where _regex is defined before the for loop: local _regex="[ ]*([0-9]+)[ ]+${_pid}"
    – artur
    Commented Oct 2, 2011 at 22:21
  • 6
    Stopped processes don't get killed with SIGTERM. See my answer
    – x-yuri
    Commented Nov 20, 2012 at 20:32
  • 1
    -1 uses #!/bin/bash instead of #!/usr/bin/env bash (or better yet POSIX only constructs and /bin/sh) Commented Feb 28, 2013 at 16:33
  • Would it suffice to send a SIGKILL in place of SIGTERM to guarantee that killtree() works reliably?
    – davide
    Commented Oct 30, 2013 at 10:15
  • 3
    if ps doesn't support --ppid, one can use pgrep -P ${_pid} instead Commented Nov 19, 2013 at 19:07

The rkill command from the pslist package sends the given signal (or SIGTERM by default) to the specified process and all its descendants:

rkill [-SIG] pid/name...
  • Thanks, this actually good solution some how kill user group didn't work for me. Commented Oct 18, 2020 at 13:55
  • 3
    Finally the solution that really works: kills the entire tree of descendants (while kill & pkill didn't)
    – Ed'ka
    Commented Oct 15, 2021 at 21:55
  • I checked and unfortunately pslist is a Perl script that just calls out to ps to find the children of a process. Not very efficient. You can do much better by just manually reading every file in /proc/*/status, which is what tools like pstree do. Unfortunately that is vulnerable to races. This is really something Linux itself needs to do. However this does at least try to answer the question rather than giving up and relying on process groups or session IDs, so I upvoted.
    – Timmmm
    Commented Jul 5, 2023 at 12:15

I use a little bit modified version of a method described here: https://stackoverflow.com/a/5311362/563175

So it looks like that:

kill `pstree -p 24901 | sed 's/(/\n(/g' | grep '(' | sed 's/(\(.*\)).*/\1/' | tr "\n" " "`

where 24901 is parent's PID.

It looks pretty ugly but does it's job perfectly.

  • 1
    Simplifying with grep, instead of sed...pstree -p 24901 | grep -oP '(?<=\()[0-9]+(?=\))'
    – anishsane
    Commented Jun 14, 2013 at 17:42
  • 2
    you should add -l to pstree, so long lines dont get truncated; it can be made simpler to read also with kill `pstree -l -p 24901 |grep "([[:digit:]]*)" -o |tr -d '()'` (no need to convert \n to space as it will work fine), thx! Commented Oct 13, 2014 at 18:35

Modified version of zhigang's answer:

#!/usr/bin/env bash
set -eu

killtree() {
    local pid
    for pid; do
        kill -stop $pid
        local cpid
        for cpid in $(pgrep -P $pid); do
            killtree $cpid
        kill $pid
        kill -cont $pid
        wait $pid 2>/dev/null || true

cpids() {
    local pid=$1 options=${2:-} space=${3:-}
    local cpid
    for cpid in $(pgrep -P $pid); do
        echo "$space$cpid"
        if [[ "${options/a/}" != "$options" ]]; then
            cpids $cpid "$options" "$space  "

while true; do sleep 1; done &
for i in $(seq 1 2); do
    cpids $$ a
    sleep 1
killtree $cpid
echo ---
cpids $$ a
  • you can wait $pid only on processes you've started, not all precesses, so this is not a generic solution Commented Jan 19, 2014 at 13:15
  • @Hubert Kario In that case, wait will just exit with non-zero status and continue executing the script. Am I wrong? But wait will suppress Terminated message if it's a child.
    – x-yuri
    Commented Jan 20, 2014 at 13:49

I can't comment (not enough reputation), so I am forced to add a new answer, even though this is not really an answer.

There is a slight problem with the otherwise very nice and thorough answer given by @olibre on Feb 28. The output of ps opgid= $PID will contain leading spaces for a PID shorter than five digits because ps is justifying the column (right align the numbers). Within the entire command line, this results in a negative sign, followed by space(s), followed by the group PID. Simple solution is to pipe ps to tr to remove spaces:

kill -- -$( ps opgid= $PID | tr -d ' ' )
  • Thank you tanager. I will fix my answer ;) Cheers
    – oHo
    Commented Oct 7, 2013 at 21:58
  • Command ps ho pgid:1 $PID can be used without the need to use tr -d ' '. :1 specifies the column width, so will not print any spaces.
    – Alek
    Commented Jan 6 at 20:51

brad's answer is what I'd recommend too, except that you can do away with awk altogether if you use the --ppid option to ps.

for child in $(ps -o pid -ax --ppid $PPID) do ....... done
  • This doesn't work for me unless I take out the -ax, for some reason (Centos5). Otherwise this is great!
    – xitrium
    Commented Aug 5, 2010 at 9:03

if you know pass the pid of the parent process, here's a shell script that should work:

for child in $(ps -o pid,ppid -ax | \
   awk "{ if ( \$2 == $pid ) { print \$1 }}")
  echo "Killing child process $child because ppid = $pid"
  kill $child
  • Some versions of ps will throw a warning if you use "-ax" instead of "ax". Thus: for child in $(ps -o pid,ppid ax | \ awk "{ if ( \$2 == $pid ) { print \$1 }}") Commented May 20, 2013 at 20:45

To add to Norman Ramsey's answer, it may be worth looking at at setsid if you want to create a process group.

The setsid() function shall create a new session, if the calling process is not a process group leader. Upon return the calling process shall be the session leader of this new session, shall be the process group leader of a new process group, and shall have no controlling terminal. The process group ID of the calling process shall be set equal to the process ID of the calling process. The calling process shall be the only process in the new process group and the only process in the new session.

Which I take to mean that you can create a group from the starting process. I used this in php in order to be able to kill a whole process tree after starting it.

This may be a bad idea. I'd be interested in comments.

  • Actually this is a great idea and works very well. I'm using it in cases where I can put processes in the same process group (or they're allready in the same group).
    – ku1ik
    Commented Jan 11, 2013 at 0:32

Inspired by ysth’s comment

kill -- -PGID

instead of giving it a process number, give it the negation of the group number. As usual with almost any command, if you want a normal argument that starts with a - to not be interpreted as a switch, precede it with --

  • Oops, I have just realized I have given the same answer as you => +1. But moreover I explain how to simply get PGID from PID. What do you think? Cheers
    – oHo
    Commented Mar 1, 2013 at 9:12

It's super easy to do this with python using psutil. Just install psutil with pip and then you have a full suite of process manipulation tools:

def killChildren(pid):
    parent = psutil.Process(pid)
    for child in parent.get_children(True):
        if child.is_running():

Based on zhigang's answer, this avoids self-killing:

init_killtree() {
    local pid=$1 child

    for child in $(pgrep -P $pid); do
        init_killtree $child
    [ $pid -ne $$ ] && kill -kill $pid

The following shell function is similar to many of the other answers, but it works both on Linux and BSD (OS X, etc) without external dependencies like pgrep:

killtree() {
    local parent=$1 child
    for child in $(ps -o ppid= -o pid= | awk "\$1==$parent {print \$2}"); do
        killtree $child
    kill $parent
  • I think you have extra word "child" at the end of the 2nd line.
    – mato
    Commented Feb 27, 2017 at 15:20
  • @mato – That's not extra. It limits the scope of $child to that function so as to not disturb other (non-local) variables with the same name and to ensure the local variable's value is cleaned up after the function ends.
    – Adam Katz
    Commented Feb 27, 2017 at 19:30
  • Oh, I see now, I thought it was part of assignment. I guess I should re-read (slower) before writing a comment. :) Thanks.
    – mato
    Commented Feb 28, 2017 at 9:29
  • Btw, would it not be better to create a list of children and then start killing from the top (parent) ? .. Thus we could avoid a situation when a parent recreates a child or continues running next code which could potentially alter intended behaviour.
    – mato
    Commented Feb 28, 2017 at 9:32

If you want to kill a process by name:

killall -9 -g someprocessname


pgrep someprocessname | xargs pkill -9 -g

This is my version of killing all the child processes using bash script. It does not use recursion and depends on pgrep command.


killtree.sh PID SIGNAL

Contents of killtrees.sh

if [ -z $PID ];
    echo "No pid specified"

CHILD_LIST=`pgrep -P $PPLIST -d,`

while [ ! -z "$CHILD_LIST" ]
    CHILD_LIST=`pgrep -P $CHILD_LIST -d,`


if [ -z $SIGNAL ]
#do substring from comma to space
kill -$SIGNAL ${PPLIST//,/ }
  • 2
    This will fail, if new processes are created after the child list has been build.
    – ceving
    Commented Nov 20, 2019 at 9:13

Here is a variation of @zhigang's answer which does without AWK, relying only on Bash's native parsing possibilities:

function killtree {
  kill -STOP "$1"
  ps -e -o pid= -o ppid= | while read -r pid ppid
                             [[ $ppid = $1 ]] || continue
                             killtree "$pid"  || true # Skip over failures
  kill -CONT "$1"          
  kill -TERM "$1"

It seems to work fine on both Macs and Linux. In situations where you can't rely on being able to manage process groups -- like when writing scripts for testing a piece of software which must be built in multiple environments -- this tree-walking technique is definitely helpful.


Thanks for your wisdom, folks. My script was leaving some child processes on exit and the negation tip made things easier. I wrote this function to be used in other scripts if necessary:

# kill my group's subprocesses:          killGroup
# kill also myself:                      killGroup -x
# kill another group's subprocesses:     killGroup N  
# kill that group all:                   killGroup -x N
# N: PID of the main process (= process group ID).

function killGroup () {
    local prid mainpid
    case $1 in
        -x) [ -n "$2" ] && kill -9 -$2 || kill -9 -$$ ;;
        "") mainpid=$$ ;;
         *) mainpid=$1 ;;
    prid=$(ps ax -o pid,pgid | grep $mainpid)
    kill -9 $prid 2>/dev/null



if you have pstree and perl on your system, you can try this:

perl -e 'kill 9, (`pstree -p PID` =~ m/\((\d+)\)/sg)'

It is probably better to kill the parent before the children; otherwise the parent may likely spawn new children again before he is killed himself. These will survive the killing.

My version of ps is different from that above; maybe too old, therefore the strange grepping...

To use a shell script instead of a shell function has many advantages...

However, it is basically zhigangs idea

if test $# -lt 1 ; then
    echo >&2 "usage: kiltree pid (sig)"
fi ;

_children=$(ps j | grep "^[ ]*${_pid} " | cut -c 7-11) ;
echo >&2 kill -${_sig} ${_pid}
kill -${_sig} ${_pid}
for _child in ${_children}; do
    killtree ${_child} ${_sig}
  • note that @zhighang script SIGSTOPs the parent process and delivers signal to stopped process, so this shouldn't (AFAIK) cause a race condition between process creating children and signal delivery. Your version though has race between getting the list of children and signal delivery to parent. Commented Nov 20, 2013 at 12:31
ps -o pid= --ppid $PPID | xargs kill -9 
  • 2
    Sometimes kill -15 won't help. Commented Dec 12, 2011 at 13:33

The following has been tested on FreeBSD, Linux and MacOS X and only depends on pgrep and kill (the ps -o versions don't work under BSD). First argument is parent pid of which children have to be terminated. second argument is a boolean to determine whether the parent pid has to be terminated too.

KillChilds() {
        local pid="${1}"
        local self="${2:-false}"

        if children="$(pgrep -P "$pid")"; then
                for child in $children; do
                        KillChilds "$child" true

        if [ "$self" == true ]; then
                kill -s SIGTERM "$pid" || (sleep 10 && kill -9 "$pid" &)

KillChilds $$ > /dev/null 2>&1

This will send SIGTERM to any child / grandchild process within a shell script and if SIGTERM doesn't succeed, it will wait 10 seconds and then send kill.

Earlier answer:

The following also works but will kill the shell itself on BSD.

KillSubTree() {
    local parent="${1}"
    for child in $(ps -o pid=$parent); do
            if [ $$ -ne $child ]; then (kill -s SIGTERM $child || (sleep 10 && kill -9 $child & )) > /dev/null 2>&1 ; fi
# Example lanch from within script
KillSubTree $$ > /dev/null 2>&1

I develop the solution of zhigang, xyuri and solidsneck further:


if test $# -lt 1 ; then
    echo >&2 "usage: kiltree pid (sig)"
    exit 1 ;
  fi ;


# echo >&2 "killtree($_pid) mypid = $$"
# ps axwwf | grep -6 "^[ ]*$_pid " >&2 ;

function _killtree () {
    local _children
    local _child
    local _success

    if test $1 -eq $2 ; then # this is killtree - don't commit suicide!
        echo >&2 "killtree can´t kill it´s own branch - some processes will survive." ; 
        return 1 ;
      fi ;
    # this avoids that children are spawned or disappear.
    kill -SIGSTOP $2 ;

    _children=$(ps -o pid --no-headers --ppid $2) ;        
    for _child in ${_children}; do
        _killtree $1 ${_child} $3 ;
        _success=$(($_success+$?)) ;
      done ;

    if test $_success -eq 0 ; then
        kill -$3 $2
      fi ;
    # when a stopped process is killed, it will linger in the system until it is continued
    kill -SIGCONT $2
    test $_success -eq 0 ;
    return $?

_killtree $$ $_pid $_sig

This version will avoid killing its ancestry - which causes a flood of child processes in the previous solutions.

Processes are properly stopped before the child list is determined, so that no new children are created or disappear.

After being killed, the stopped jobs have to be continued to disappear from the system.


Old question, I know, but all the responses seem to keep calling ps, which I didn't like.

This awk-based solution doesn't require recursion and only calls ps once.

awk 'BEGIN {
  while ("ps -o ppid,pid"|getline) a[$1]=a[$1]" "$2
  while (o==1) {
    split(p, q, " ")
    for (i in q) if (a[q[i]]!="") {
  system("kill -TERM "p)

Or on a single-line:

awk 'BEGIN {p=1390;while ("ps -o ppid,pid"|getline) a[$1]=a[$1]" "$2;o=1;while (o==1) {o=0;split(p, q, " ");for (i in q) {if (a[q[i]]!="") {p=p""a[q[i]];o=1;a[q[i]]=""}}}system("kill -TERM "p)}'

Basically the idea is that we build up an array (a) of parent:child entries, then loop around the array finding children for our matching parents, adding them to our parents list (p) as we go.

If you don't want to kill the top-level process, then doing

sub(/[0-9]*/, "", p)

just before the system() line would remove it from the kill set.

Bear in mind that there is a race condition here, but that's true (as far as I can see) of all of the solutions. It does what I needed because the script I needed it for doesn't create lots of short-lived children.

An exercise for the reader would be to make it a 2-pass loop: after the first pass, send SIGSTOP to all processes in the p list, then loop to run ps again and after the second pass send SIGTERM, then SIGCONT. If you don't care about nice endings then second-pass could just be SIGKILL, I suppose.


To kill the whole process group at once, just like ^C does:

PID="$(pgrep -f unique_command_line_part)"
if [[ -n "$PID" ]]
    PGID="$(ps --no-headers -p $PID -o pgid)"
    kill -SIGINT -- -${PGID// /}

Each line is explained in this answer


If you know the pid of the thing you want to kill, you can usually go from the session id, and everything in the same session. I'd double check, but I used this for scripts starting rsyncs in loops that I want to die, and not start another (because of the loop) as it would if I'd just killall'd rsync.

kill $(ps -o pid= -s $(ps -o sess --no-heading --pid 21709))

If you don't know the pid you can still nest more

kill $(ps -o pid= -s $(ps -o sess --no-heading --pid $(pgrep rsync )))

In sh the jobs command will list the background processes. In some cases it might be better to kill the newest process first, e.g. the older one created a shared socket. In those cases sort the PIDs in reverse order. Sometimes you want to wait moment for the jobs to write something on disk or stuff like that before they stop.

And don't kill if you don't have to!

  for CHILD in $(jobs -s|sort -r); do
    kill -s $SIGNAL $CHILD
    sleep $MOMENT

Killing child process in shell script:

Many time we need to kill child process which are hanged or block for some reason. eg. FTP connection issue.

There are two approaches,

1) To create separate new parent for each child which will monitor and kill child process once timeout reached.

Create test.sh as follows,


declare -a CMDs=("AAA" "BBB" "CCC" "DDD")
for CMD in ${CMDs[*]}; do
    (sleep 10 & PID=$!; echo "Started $CMD => $PID"; sleep 5; echo "Killing $CMD => $PID"; kill $PID; echo "$CMD Completed.") &

and watch processes which are having name as 'test' in other terminal using following command.

watch -n1 'ps x -o "%p %r %c" | grep "test" '

Above script will create 4 new child processes and their parents. Each child process will run for 10sec. But once timeout of 5sec reach, thier respective parent processes will kill those childs. So child won't be able to complete execution(10sec). Play around those timings(switch 10 and 5) to see another behaviour. In that case child will finish execution in 5sec before it reaches timeout of 10sec.

2) Let the current parent monitor and kill child process once timeout reached. This won't create separate parent to monitor each child. Also you can manage all child processes properly within same parent.

Create test.sh as follows,


declare -A CPIDs;
declare -a CMDs=("AAA" "BBB" "CCC" "DDD")

for CMD in ${CMDs[*]}; do
    (echo "Started..$CMD"; sleep $CMD_TIME; echo "$CMD Done";) &
    sleep 1;

GPID=$(ps -o pgid= $$);
while (true); do
    declare -A TMP_CPIDs;

    for PID in "${!CPIDs[@]}"; do
        echo "Checking "${CPIDs[$PID]}"=>"$PID;

        if ps -p $PID > /dev/null ; then
          echo "-->"${CPIDs[$PID]}"=>"$PID" is running..";
          echo "-->"${CPIDs[$PID]}"=>"$PID" is completed.";

    if [ ${#TMP_CPIDs[@]} == 0 ]; then
        echo "All commands completed.";
        unset CPIDs;
        declare -A CPIDs;
        for PID in "${!TMP_CPIDs[@]}"; do
        unset TMP_CPIDs;

        if [ $CNT -gt $CNT_TIME_OUT ]; then
            echo ${CPIDs[@]}"PIDs not reponding. Timeout reached $CNT sec. killing all childern with GPID $GPID..";
            kill -- -$GPID;

    echo "waiting since $b secs..";
    sleep 1;


and watch processes which are having name as 'test' in other terminal using following command.

watch -n1 'ps x -o "%p %r %c" | grep "test" '

Above script will create 4 new child processes. We are storing pids of all child process and looping over them to check if they are finished their execution or still running. Child process will execution till CMD_TIME time. But if CNT_TIME_OUT timeout reach , All children will get killed by parent process. You can switch timing and play around with script to see behavior. One drawback of this approach is , it is using group id for killing all child tree. But parent process itself belong to same group so it will also get killed.

You may need to assign other group id to parent process if you don’t want parent to be killed.

More details can be found here,

Killing child process in shell script


This script also work:

#/bin/sh while true do echo "Enter parent process id [type quit for exit]" read ppid if [ $ppid -eq "quit" -o $ppid -eq "QUIT" ];then exit 0 fi for i in `ps -ef| awk '$3 == '$ppid' { print $2 }'` do echo killing $i kill $i done done

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