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Here's the Python code to run an arbitrary command returning its stdout data, or raise an exception on non-zero exit codes:

proc = subprocess.Popen(
    stderr=subprocess.STDOUT,  # Merge stdout and stderr

communicate is used to wait for the process to exit:

stdoutdata, stderrdata = proc.communicate()

The subprocess module does not support timeout--ability to kill a process running for more than X number of seconds--therefore, communicate may take forever to run.

What is the simplest way to implement timeouts in a Python program meant to run on Windows and Linux?

share|improve this question
A related Python issue tracker entry: – Sridhar Ratnakumar Jul 28 '09 at 1:54
Use for Python2.x. It is a backport of Python 3.x. It has the timeout argument for call() and wait(). – guettli Nov 18 '13 at 12:28 does not work on Windows :( – adrianX Nov 9 at 1:13

20 Answers 20

up vote 46 down vote accepted

In Python 3.3+:

from subprocess import STDOUT, check_output as qx

output = qx(cmd, stderr=STDOUT, timeout=seconds)

output is a byte string that contains command's merged stdout, stderr data.

This code raises CalledProcessError on non-zero exit status as specified in the question's text unlike proc.communicate() method.

I've removed shell=True because it is often used unnecessarily. You can always add it back if cmd indeed requires it.

The timeout feature is available on Python 2.x via the backport of the 3.2+ subprocess module. Nobody should use the 2.x standard library subprocess module if they can help it. Use subprocess32. It fixes tons of problems.

share|improve this answer
Indeed, and subprocess timeout support exists in the subprocess32 backport that I maintain for use on Python 2. – gps Dec 9 '12 at 4:07
@gps Sridhar asked for cross platform solution, while your backport only supports POSIX : when I tried it out, MSVC complained (expected) about missing unistd.h :) – Shmil The Cat Mar 12 '13 at 13:43
If you don't need the output, you can just use the – Kyle Gibson Mar 28 '13 at 16:46
+1 just for the shell=True comment. – tripleee Sep 11 '14 at 14:57

I don't know much about the low level details; but, given that in python 2.6 the API offers the ability to wait for threads and terminate processes, what about running the process in a separate thread?

import subprocess, threading

class Command(object):
    def __init__(self, cmd):
        self.cmd = cmd
        self.process = None

    def run(self, timeout):
        def target():
            print 'Thread started'
            self.process = subprocess.Popen(self.cmd, shell=True)
            print 'Thread finished'

        thread = threading.Thread(target=target)

        if thread.is_alive():
            print 'Terminating process'
        print self.process.returncode

command = Command("echo 'Process started'; sleep 2; echo 'Process finished'")

The output of this snippet in my machine is:

Thread started
Process started
Process finished
Thread finished
Thread started
Process started
Terminating process
Thread finished

where it can be seen that, in the first execution, the process finished correctly (return code 0), while the in the second one the process was terminated (return code -15).

I haven't tested in windows; but, aside from updating the example command, I think it should work since I haven't found in the documentation anything that says that thread.join or process.terminate is not supported.

share|improve this answer
+1 For being platform independent. I've run this on both linux and windows 7 (cygwin and plain windows python) -- works as expected in all three cases. – phooji Feb 17 '11 at 0:27
I've modified your code a bit in order to be able to pass native Popen kwargs and put it on gist. It is now ready to use multi purpose; – kirpit Nov 9 '11 at 13:07
For anybody having the problem @redice was having, this question may help. In short, if you use shell=True, the shell becomes the child process which gets killed, and its command (child of the child process) lives on. – Anson Mar 19 '13 at 0:11
This answer does not provide the same functionality of the original since it doesn't return stdout. – stephenbez Dec 17 '13 at 16:39
thread.is_alive can lead to a race condition. See – ChaimKut May 7 at 12:56

If you're on Unix,

import signal
class Alarm(Exception):

def alarm_handler(signum, frame):
    raise Alarm

signal.signal(signal.SIGALRM, alarm_handler)
signal.alarm(5*60)  # 5 minutes
    stdoutdata, stderrdata = proc.communicate()
    signal.alarm(0)  # reset the alarm
except Alarm:
    print "Oops, taking too long!"
    # whatever else
share|improve this answer
Well, I am interested in a cross-platform solution that works at least on win/linux/mac. – Sridhar Ratnakumar Jul 28 '09 at 1:52
I like this unix-based approach. Ideally, one would combine this with a windows-specific approach (using CreateProcess and Jobs) .. but for now, the solution below is simple, easy and works-so-far. – Sridhar Ratnakumar Jul 29 '09 at 19:43
I have added a portable solution, see my answer – flybywire Oct 13 '09 at 8:16
This solution would work only_if signal.signal(signal.SIGALARM, alarm_handler) is called from the main thread. See the documentation for signal – volatilevoid Dec 19 '09 at 5:58
Unfortunately, when running (on linux) in the context of an Apache module (like mod_python, mod_perl, or mod_php), I've found the use of signals and alarms to be disallowed (presumably because they interfere with Apache's own IPC logic). So to achieve the goal of timing out a command I have been forced to write "parent loops" which launch a child process and then sit in a "sleep"y loop watching the clock (and possibly also monitoring output from the child). – Peter Jul 29 '11 at 0:54

Here is Alex Martelli's solution as a module with proper process killing. The other approaches do not work because they do not use proc.communicate(). So if you have a process that produces lots of output, it will fill its output buffer and then block until you read something from it.

from os import kill
from signal import alarm, signal, SIGALRM, SIGKILL
from subprocess import PIPE, Popen

def run(args, cwd = None, shell = False, kill_tree = True, timeout = -1, env = None):
    Run a command with a timeout after which it will be forcibly
    class Alarm(Exception):
    def alarm_handler(signum, frame):
        raise Alarm
    p = Popen(args, shell = shell, cwd = cwd, stdout = PIPE, stderr = PIPE, env = env)
    if timeout != -1:
        signal(SIGALRM, alarm_handler)
        stdout, stderr = p.communicate()
        if timeout != -1:
    except Alarm:
        pids = []
        if kill_tree:
        for pid in pids:
            # process might have died before getting to this line
            # so wrap to avoid OSError: no such process
                kill(pid, SIGKILL)
            except OSError:
        return -9, '', ''
    return p.returncode, stdout, stderr

def get_process_children(pid):
    p = Popen('ps --no-headers -o pid --ppid %d' % pid, shell = True,
              stdout = PIPE, stderr = PIPE)
    stdout, stderr = p.communicate()
    return [int(p) for p in stdout.split()]

if __name__ == '__main__':
    print run('find /', shell = True, timeout = 3)
    print run('find', shell = True)
share|improve this answer
I recommend this answer. – Casey Sep 20 '10 at 23:24
This will not work on windows, plus the order of functions is reversed. – Hamish Grubijan Jan 23 '11 at 18:15
This sometimes results in exception when another handler registers itself on SIGALARM and kills the process before this one gets to "kill", added work-around. BTW, great recipe! I've used this to launch 50,000 buggy processes so far without freezing or crashing the handling wrapper. – Yaroslav Bulatov Jul 1 '11 at 21:02
How can this be modified to run in a Threaded application? I am trying to use it from within worker threads and get ValueError: signal only works in main thread – wim Aug 3 '11 at 7:18
Just added "try;catch" block, it's inside the code. BTW, in the long term, this turned out to give me problems because you can only set one SIGALARM handler, and other processes can reset it. One solution to this is given here --… – Yaroslav Bulatov Aug 11 '11 at 5:49

jcollado's answer can be simplified using the threading.Timer class:

import subprocess, shlex
from threading import Timer

def run(cmd, timeout_sec):
  proc = subprocess.Popen(shlex.split(cmd), stdout=subprocess.PIPE, 
  kill_proc = lambda p: p.kill()
  timer = Timer(timeout_sec, kill_proc, [proc])
    stdout,stderr = proc.communicate()
share|improve this answer
+1 for simple portable solution. You don't need lambda: t = Timer(timeout, proc.kill) – J.F. Sebastian Apr 5 '14 at 21:43
+1 This should be the accepted answer, because it doesn't require the way in which the process is launched to be changed. – Dave Branton May 28 at 22:18
Why does it require the lambda? Couldn't the bound method p.kill be used without the lambda there? – Danny Staple Aug 5 at 16:10
// , Would you be willing to include an example of the use of this? – Nathan Basanese Sep 2 at 0:27
great solution, avoiding is_alive – Massimo Nov 6 at 5:46

Another option is to write to a temporary file to prevent the stdout blocking instead of needing to poll with communicate(). This worked for me where the other answers did not; for example on windows.

    outFile =  tempfile.SpooledTemporaryFile() 
    errFile =   tempfile.SpooledTemporaryFile() 
    proc = subprocess.Popen(args, stderr=errFile, stdout=outFile, universal_newlines=False)
    wait_remaining_sec = timeout

    while proc.poll() is None and wait_remaining_sec > 0:
        wait_remaining_sec -= 1

    if wait_remaining_sec <= 0:
        raise ProcessIncompleteError(proc, timeout)

    # read temp streams from start;;
    out =
    err =
share|improve this answer
Seems incomplete - what is tempfile? – spiderplant0 Apr 8 at 12:26
Include "import tempfile", "import time" and "shell=True" inside "Popen" call (beware with "shell=True")! – Eduardo Lucio yesterday

I've modified sussudio answer. Now function returns: (returncode, stdout, stderr, timeout) - stdout and stderr is decoded to utf-8 string

def kill_proc(proc, timeout):
  timeout["value"] = True

def run(cmd, timeout_sec):
  proc = subprocess.Popen(shlex.split(cmd), stdout=subprocess.PIPE, stderr=subprocess.PIPE)
  timeout = {"value": False}
  timer = Timer(timeout_sec, kill_proc, [proc, timeout])
  stdout, stderr = proc.communicate()
  return proc.returncode, stdout.decode("utf-8"), stderr.decode("utf-8"), timeout["value"]
share|improve this answer
Great :-) Best portable solution here! – Simon Steinberger Dec 21 '14 at 20:13

surprised nobody mentioned using timeout

timeout 5 ping -c 3 somehost

This won't for work for every use case obviously, but if your dealing with a simple script, this is hard to beat.

Also available as gtimeout in coreutils via homebrew for mac users.

share|improve this answer
you mean: proc = subprocess.Popen(['/usr/bin/timeout', str(timeout)] + cmd, ...). Is there timeout command on Windows as OP asks? – J.F. Sebastian Apr 21 at 9:18
read its description. It is a completely different command on Windows – J.F. Sebastian Apr 21 at 18:14
correct. removed. – Karsten Apr 21 at 23:16

The solution I use is to prefix the shell command with timelimit. If the comand takes too long, timelimit will stop it and Popen will have a returncode set by timelimit. If it is > 128, it means timelimit killed the process.

See also python subprocess with timeout and large output (>64K)

share|improve this answer
I use a similar tool called timeout - - but neither works on Windows, do they? – Sridhar Ratnakumar Dec 16 '11 at 18:00

I added the solution with threading from jcollado to my Python module easyprocess.


pip install easyprocess


from easyprocess import Proc

# shell is not supported!
stdout=Proc('ping localhost').call(timeout=1.5).stdout
print stdout
share|improve this answer
The easyprocess module ( worked for me, even using it from multiprocessing. – iChux Feb 28 '14 at 9:55

Here is my solution, I was using Thread and Event:

import subprocess
from threading import Thread, Event

def kill_on_timeout(done, timeout, proc):
    if not done.wait(timeout):

def exec_command(command, timeout):

    done = Event()
    proc = subprocess.Popen(command, stdout=subprocess.PIPE, stderr=subprocess.PIPE)

    watcher = Thread(target=kill_on_timeout, args=(done, timeout, proc))
    watcher.daemon = True

    data, stderr = proc.communicate()

    return data, stderr, proc.returncode

In action:

In [2]: exec_command(['sleep', '10'], 5)
Out[2]: ('', '', -9)

In [3]: exec_command(['sleep', '10'], 11)
Out[3]: ('', '', 0)
share|improve this answer

I've implemented what I could gather from a few of these. This works in Windows, and since this is a community wiki, I figure I would share my code as well:

class Command(threading.Thread):
    def __init__(self, cmd, outFile, errFile, timeout):
        self.cmd = cmd
        self.process = None
        self.outFile = outFile
        self.errFile = errFile
        self.timed_out = False
        self.timeout = timeout

    def run(self):
        self.process = subprocess.Popen(self.cmd, stdout = self.outFile, \
            stderr = self.errFile)

        while (self.process.poll() is None and self.timeout > 0):
            self.timeout -= 1

        if not self.timeout > 0:
            self.timed_out = True
            self.timed_out = False

Then from another class or file:

        outFile =  tempfile.SpooledTemporaryFile()
        errFile =   tempfile.SpooledTemporaryFile()

        executor = command.Command(c, outFile, errFile, timeout)
        executor.daemon = True

        if executor.timed_out:
            out = 'timed out'
            out =
            err =

share|improve this answer
Actually, this probably does not work. The terminate() function marks a thread as terminated, but does not actually terminate the thread! I can verify this in *nix, but I don't have a Windows computer to test on. – dotancohen Oct 6 '13 at 9:50

timeout is now supported by call() and communicate() in the subprocess module (as of Python3.3):

import subprocess"command", timeout=20, shell=True)

This will call the command and raise the exception


if the command doesn't finish after 20 seconds.

You can then handle the exception to continue your code, something like:

try:"command", timeout=20, shell=True)
except subprocess.TimeoutExpired:
    # insert code here

Hope this helps.

share|improve this answer
there is an existing answer that mentions the timeout parameter. Though mentioning it once more wouldn't hurt. – J.F. Sebastian Feb 23 at 2:43
// , I think OP's looking for a solution for the older Python. – Nathan Basanese Sep 2 at 0:29

I've used killableprocess successfully on Windows, Linux and Mac. If you are using Cygwin Python, you'll need OSAF's version of killableprocess because otherwise native Windows processes won't get killed.

share|improve this answer
Looks like killableprocess doesn't add a timeout to the Popen.communicate() call. – Wim Coenen Oct 20 '09 at 17:44

Although I haven't looked at it extensively, this decorator I found at ActiveState seems to be quite useful for this sort of thing. Along with subprocess.Popen(..., close_fds=True), at least I'm ready for shell-scripting in Python.

share|improve this answer
This decorator uses signal.alarm, which is not available on Windows. – dbw Dec 14 '13 at 0:56

Once you understand full process running machinery in *unix, you will easily find simplier solution:

Consider this simple example how to make timeoutable communicate() meth using (available alsmost everythere on *nix nowadays). This also can be written with epoll/poll/kqueue, but variant could be a good example for you. And major limitations of (speed and 1024 max fds) are not applicapable for your task.

This works under *nix, does not create threads, does not uses signals, can be lauched from any thread (not only main), and fast enought to read 250mb/s of data from stdout on my machine (i5 2.3ghz).

There is a problem in join'ing stdout/stderr at the end of communicate. If you have huge program output this could lead to big memory usage. But you can call communicate() several times with smaller timeouts.

class Popen(subprocess.Popen):
    def communicate(self, input=None, timeout=None):
        if timeout is None:
            return subprocess.Popen.communicate(self, input)

        if self.stdin:
            # Flush stdio buffer, this might block if user
            # has been writing to .stdin in an uncontrolled
            # fashion.
            if not input:

        read_set, write_set = [], []
        stdout = stderr = None

        if self.stdin and input:
        if self.stdout:
            stdout = []
        if self.stderr:
            stderr = []

        input_offset = 0
        deadline = time.time() + timeout

        while read_set or write_set:
                rlist, wlist, xlist =, write_set, [], max(0, deadline - time.time()))
            except select.error as ex:
                if ex.args[0] == errno.EINTR:

            if not (rlist or wlist):
                # Just break if timeout
                # Since we do not close stdout/stderr/stdin, we can call
                # communicate() several times reading data by smaller pieces.

            if self.stdin in wlist:
                chunk = input[input_offset:input_offset + subprocess._PIPE_BUF]
                    bytes_written = os.write(self.stdin.fileno(), chunk)
                except OSError as ex:
                    if ex.errno == errno.EPIPE:
                    input_offset += bytes_written
                    if input_offset >= len(input):

            # Read stdout / stderr by 1024 bytes
            for fn, tgt in (
                (self.stdout, stdout),
                (self.stderr, stderr),
                if fn in rlist:
                    data =, 1024)
                    if data == '':

        if stdout is not None:
            stdout = ''.join(stdout)
        if stderr is not None:
            stderr = ''.join(stderr)

        return (stdout, stderr)
share|improve this answer
This only addresses the Unix half of the problem. – Spaceghost Aug 30 '12 at 14:27

Unfortunately, I'm bound by very strict policies on the disclosure of source code by my employer, so I can't provide actual code. But for my taste the best solution is to create a subclass overriding Popen.wait() to poll instead of wait indefinitely, and Popen.__init__ to accept a timeout parameter. Once you do that, all the other Popen methods (which call wait) will work as expected, including communicate.

share|improve this answer provides extensions to the subprocess module which allow you to wait up to a certain period of time, otherwise terminate.

So, to wait up to 10 seconds for the process to terminate, otherwise kill:

pipe  = subprocess.Popen('...')

timeout =  10

results = pipe.waitOrTerminate(timeout)

This is compatible with both windows and unix. "results" is a dictionary, it contains "returnCode" which is the return of the app (or None if it had to be killed), as well as "actionTaken". which will be "SUBPROCESS2_PROCESS_COMPLETED" if the process completed normally, or a mask of "SUBPROCESS2_PROCESS_TERMINATED" and SUBPROCESS2_PROCESS_KILLED depending on action taken (see documentation for full details)

share|improve this answer
import subprocess, optparse, os, sys, re, datetime, threading, time, glob, shutil, xml.dom.minidom, traceback

class OutputManager:
    def __init__(self, filename, mode, console, logonly):
        self.con = console
        self.logtoconsole = True
        self.logtofile = False

        if filename:
                self.f = open(filename, mode)
                self.logtofile = True
                if logonly == True:
                    self.logtoconsole = False
            except IOError:
                print (sys.exc_value)
                print ("Switching to console only output...\n")
                self.logtofile = False
                self.logtoconsole = True

    def write(self, data):
        if self.logtoconsole == True:
        if self.logtofile == True:

def getTimeString():
        return time.strftime("%Y-%m-%d", time.gmtime())

def runCommand(command):
    Execute a command in new thread and return the
    stdout and stderr content of it.
        Output = subprocess.Popen(command, stdout=subprocess.PIPE, shell=True).communicate()[0]
    except Exception as e:
        print ("runCommand failed :%s" % (command))
        print (str(e))
        return None
    return Output

def GetOs():
    Os = ""
    if sys.platform.startswith('win32'):
        Os = "win"
    elif sys.platform.startswith('linux'):
        Os = "linux"
    elif sys.platform.startswith('darwin'):
        Os = "mac"
    return Os

def check_output(*popenargs, **kwargs):
        if 'stdout' in kwargs: 
            raise ValueError('stdout argument not allowed, it will be overridden.') 

        # Get start time.
        startTime =

        cmd = popenargs[0]

        if sys.platform.startswith('win32'):
            process = subprocess.Popen( cmd, stdout=subprocess.PIPE, shell=True) 
        elif sys.platform.startswith('linux'):
            process = subprocess.Popen( cmd , stdout=subprocess.PIPE, shell=True ) 
        elif sys.platform.startswith('darwin'):
            process = subprocess.Popen( cmd , stdout=subprocess.PIPE, shell=True ) 

        stdoutdata, stderrdata = process.communicate( timeout = timeoutValue )
        retcode = process.poll()

        # Catch crash error and log it.
        OutputHandle = None
            if retcode >= 1:
                OutputHandle = OutputManager( 'CrashJob_' + getTimeString() + '.txt', 'a+', sys.stdout, False)
                OutputHandle.write( cmd )
                print (stdoutdata)
                print (stderrdata)
        except Exception as e:
            print (str(e))

    except subprocess.TimeoutExpired:
            # Catch time out error and log it.
            Os = GetOs()
            if Os == 'win':
                killCmd = "taskkill /FI \"IMAGENAME eq {0}\" /T /F"
            elif Os == 'linux':
                killCmd = "pkill {0)"
            elif Os == 'mac':
                # Linux, Mac OS
                killCmd = "killall -KILL {0}"


            OutputHandle = None
                OutputHandle = OutputManager( 'KillJob_' + getTimeString() + '.txt', 'a+', sys.stdout, False)
                OutputHandle.write( cmd )
            except Exception as e:
                print (str(e))
    except Exception as e:
            for frame in traceback.extract_tb(sys.exc_info()[2]):
                        fname,lineno,fn,text = frame
                        print "Error in %s on line %d" % (fname, lineno)
share|improve this answer

Was just trying to write something simpler.


from subprocess import Popen, PIPE
import datetime
import time 

popen = Popen(["/bin/sleep", "10"]);
pid =
sttime = time.time();
waittime =  3

print "Start time %s"%(sttime)

while True:
    rcode = popen.returncode
    now = time.time();
    if [ rcode is None ]  and  [ now > (sttime + waittime) ] :
        print "Killing it now"
share|improve this answer
time.sleep(1) is very bad idea - imagine you want to run many commands that would take about 0.002sec. You should rather wait while poll() (see select, for Linux epol recomended :) – ddzialak May 9 '14 at 21:03

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