The child process is started with


Is there a way to ensure it is killed when parent terminates abnormally? I need this to work both on Windows and Linux. I am aware of this solution for Linux.


the requirement of starting a child process with subprocess.Popen(arg) can be relaxed, if a solution exists using a different method of starting a process.

  • 1
    This is pretty vague, can you give some more details? Maybe describe what the parent and child processes are? – wnnmaw May 2 '14 at 18:48
  • 1
    the first solution from the link you provided works on Windows too. – jfs May 3 '14 at 15:47
  • @J.F.Sebastian: sure, but the second one works if the process is terminated by sigkill. – user443854 May 5 '14 at 14:53
  • there is no sigkill on Windows – jfs May 5 '14 at 14:54
  • @J.F.Sebastian: Let me rephrase. Child processes must exit if parent terminates for any reason whatsoever. The first solution does not guarantee it. – user443854 May 5 '14 at 14:56

Heh, I was just researching this myself yesterday! Assuming you can't alter the child program:

On Linux, prctl(PR_SET_PDEATHSIG, ...) is probably the only reliable choice. (If it's absolutely necessary that the child process be killed, then you might want to set the death signal to SIGKILL instead of SIGTERM; the code you linked to uses SIGTERM, but the child does have the option of ignoring SIGTERM if it wants to.)

On Windows, the most reliable options is to use a Job object. The idea is that you create a "Job" (a kind of container for processes), then you place the child process into the Job, and you set the magic option that says "when no-one holds a 'handle' for this Job, then kill the processes that are in it". By default, the only 'handle' to the job is the one that your parent process holds, and when the parent process dies, the OS will go through and close all its handles, and then notice that this means there are no open handles for the Job. So then it kills the child, as requested. (If you have multiple child processes, you can assign them all to the same job.) This answer has sample code for doing this, using the win32api module. That code uses CreateProcess to launch the child, instead of subprocess.Popen. The reason is that they need to get a "process handle" for the spawned child, and CreateProcess returns this by default. If you'd rather use subprocess.Popen, then here's an (untested) copy of the code from that answer, that uses subprocess.Popen and OpenProcess instead of CreateProcess:

import subprocess
import win32api
import win32con
import win32job

hJob = win32job.CreateJobObject(None, "")
extended_info = win32job.QueryInformationJobObject(hJob, win32job.JobObjectExtendedLimitInformation)
extended_info['BasicLimitInformation']['LimitFlags'] = win32job.JOB_OBJECT_LIMIT_KILL_ON_JOB_CLOSE
win32job.SetInformationJobObject(hJob, win32job.JobObjectExtendedLimitInformation, extended_info)

child = subprocess.Popen(...)
# Convert process id to process handle:
perms = win32con.PROCESS_TERMINATE | win32con.PROCESS_SET_QUOTA
hProcess = win32api.OpenProcess(perms, False, child.pid)

win32job.AssignProcessToJobObject(hJob, hProcess)

Technically, there's a tiny race condition here in case the child dies in between the Popen and OpenProcess calls, you can decide whether you want to worry about that.

One downside to using a job object is that when running on Vista or Win7, if your program is launched from the Windows shell (i.e., by clicking on an icon), then there will probably already be a job object assigned and trying to create a new job object will fail. Win8 fixes this (by allowing job objects to be nested), or if your program is run from the command line then it should be fine.

If you can modify the child (e.g., like when using multiprocessing), then probably the best option is to somehow pass the parent's PID to the child (e.g. as a command line argument, or in the args= argument to multiprocessing.Process), and then:

On POSIX: Spawn a thread in the child that just calls os.getppid() occasionally, and if the return value ever stops matching the pid passed in from the parent, then call os._exit(). (This approach is portable to all Unixes, including OS X, while the prctl trick is Linux-specific.)

On Windows: Spawn a thread in the child that uses OpenProcess and os.waitpid. Example using ctypes:

from ctypes import WinDLL, WinError
from ctypes.wintypes import DWORD, BOOL, HANDLE
# Magic value from http://msdn.microsoft.com/en-us/library/ms684880.aspx
SYNCHRONIZE = 0x00100000
kernel32 = WinDLL("kernel32.dll")
kernel32.OpenProcess.argtypes = (DWORD, BOOL, DWORD)
kernel32.OpenProcess.restype = HANDLE
parent_handle = kernel32.OpenProcess(SYNCHRONIZE, False, parent_pid)
# Block until parent exits
os.waitpid(parent_handle, 0)

This avoids any of the possible issues with job objects that I mentioned.

If you want to be really, really sure, then you can combine all these solutions.

Hope that helps!

  • 3
    One way of avoiding the race condition you mention is to add yourself to the job object before launching the child process; the child will inherit membership. Another way is to launch the child process suspended, and only resume it after adding it to the job. – Harry Johnston May 11 '14 at 5:28
  • For Windows 7, the shell's job object allows breaking away, so you can use the creation flag CREATE_BREAKAWAY_FROM_JOB to allow adding the process to a new job. – Eryk Sun Jun 16 '16 at 2:26
  • I don't understand, why is murdering the child process so complicated? – Charlie Parker Mar 7 at 19:25
  • @CharlieParker the question is about how to handle the case where the parent terminates abnormally. If the parent segfaults or gets forcibly terminated (e.g. with kill -9), then it doesn't have a chance to murder the child. – Nathaniel J. Smith Mar 7 at 20:08
  • It might be obvious to many, but to actually terminate, one needs to add win32job.TerminateJobObject(hJob, hProcess) after the process is no longer needed. – DarkLight Sep 12 at 12:34

The Popen object offers the terminate and kill methods.


These send the SIGTERM and SIGKILL signals for you. You can do something akin to the below:

from subprocess import Popen

p = None
    p = Popen(arg)
    # some code here
except Exception as ex:
    print 'Parent program has exited with the below error:\n{0}'.format(ex)
    if p:


You are correct--the above code will not protect against hard-crashing or someone killing your process. In that case you can try wrapping the child process in a class and employ a polling model to watch the parent process. Be aware psutil is non-standard.

import os
import psutil

from multiprocessing import Process
from time import sleep

class MyProcessAbstraction(object):
    def __init__(self, parent_pid, command):
        @type parent_pid: int
        @type command: str
        self._child = None
        self._cmd = command
        self._parent = psutil.Process(pid=parent_pid)

    def run_child(self):
        Start a child process by running self._cmd. 
        Wait until the parent process (self._parent) has died, then kill the 
        print '---- Running command: "%s" ----' % self._cmd
        self._child = psutil.Popen(self._cmd)
            while self._parent.status == psutil.STATUS_RUNNING:
        except psutil.NoSuchProcess:
            print '---- Terminating child PID %s ----' % self._child.pid

if __name__ == "__main__":
    parent = os.getpid()
    child = MyProcessAbstraction(parent, 'ping -t localhost')
    child_proc = Process(target=child.run_child)
    child_proc.daemon = True

    print '---- Try killing PID: %s ----' % parent
    while True:

In this example I run 'ping -t localhost' b/c that will run forever. If you kill the parent process, the child process (the ping command) will also be killed.

  • 1
    This does not answer the question. If a parent process crashes, who is going to call p.terminate()? I am looking for a way, on Windows, to start a process so that it exits when its parent terminates for whatever reason. This is possible to do on Linux. – user443854 May 9 '14 at 12:48
  • You are right, it didn't address your question. Hopefully the above edit does so. – Nick May 9 '14 at 22:32
  • Neat. And looks portable. I like it. – user443854 May 12 '14 at 14:34
  • This... doesn't work at all, as far as I can tell, even after the edits. It looks like you're suggesting that the parent should watch itself to see if it has died, and if so then kill the child. Obviously this makes no sense. Maybe you actually meant that the example code should be split into a new program, so the parent spawns two processes: the child, and a watchdog that monitors both the parent and the child. But this just recreates the original problem -- what happens if the watchdog terminates abnormally? Who watches the watcher? – Nathaniel J. Smith May 12 '14 at 14:42
  • 1
    Ah, I see that I missed the scroll bar on the example, which neatly clipped off the if __name__ == "__main__": block. Makes more sense with that in! Nonetheless, this approach seems needlessly complex and unreliable compared to more solutions using OS-level tools (which are available on both Linux and Windows), and creates new opportunities for problems -- for example, the code as currently written makes it impossible for the parent to monitor the child's life or get an exit code, and will leak watchdog processes if multiple children are run. – Nathaniel J. Smith May 12 '14 at 22:57

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