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How can I call an external command (as if I'd typed it at the Unix shell or Windows command prompt) from within a Python script?

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@TritonMan: it is not a good tutorial. Use for line in proc.stdout: (or for line in iter(proc.stdout.readline, '') in Python 2) instead of (moronic) for line in proc.stdout.readlines():. See Python: read streaming input from subprocess.communicate() – J.F. Sebastian Jun 12 '15 at 18:41

35 Answers 35

up vote 1762 down vote accepted

Look at the subprocess module in the stdlib:

from subprocess import call
call(["ls", "-l"])

The advantage of subprocess vs system is that it is more flexible (you can get the stdout, stderr, the "real" status code, better error handling, etc...). I think os.system is deprecated, too, or will be:

For quick/dirty/one time scripts, os.system is enough, though.

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Can't see why you'd use os.system even for quick/dirty/one-time. subprocess seems so much better. – nosklo May 26 '09 at 16:40
I agree completely that subprocess is better. I just had to write a quick script like this to run on an old server with Python 2.3.4 which does not have the subprocess module. – Liam Jul 29 '10 at 14:58
here are the subprocess docs – daonb Mar 21 '12 at 7:10
call (..) Gave me an error on oython 2.7.6 : Traceback (most recent call last): File "E:\Ajit\MyPython\", line 27, in <module> call("dir") <br/> File "C:\Python27\lib\", line 524, in call return Popen(*popenargs, **kwargs).wait() <br/> File "C:\Python27\lib\", line 711, in init errread, errwrite)<br/> File "C:\Python27\lib\", line 948, in _execute_child startupinfo)<br/> WindowsError: [Error 2] The system cannot find the file specified – goldenmean Nov 10 '13 at 18:22
@goldenmean: my guess, there is no ls.exe on Windows. Try call("dir", shell=True) – J.F. Sebastian Dec 21 '13 at 4:50

Here's a summary of the ways to call external programs and the advantages and disadvantages of each:

  1. os.system("some_command with args") passes the command and arguments to your system's shell. This is nice because you can actually run multiple commands at once in this manner and set up pipes and input/output redirection. For example,
    os.system("some_command < input_file | another_command > output_file")
    However, while this is convenient, you have to manually handle the escaping of shell characters such as spaces, etc. On the other hand, this also lets you run commands which are simply shell commands and not actually external programs.
    see documentation

  2. stream = os.popen("some_command with args") will do the same thing as os.system except that it gives you a file-like object that you can use to access standard input/output for that process. There are 3 other variants of popen that all handle the i/o slightly differently. If you pass everything as a string, then your command is passed to the shell; if you pass them as a list then you don't need to worry about escaping anything.
    see documentation

  3. The Popen class of the subprocess module. This is intended as a replacement for os.popen but has the downside of being slightly more complicated by virtue of being so comprehensive. For example, you'd say

    print subprocess.Popen("echo Hello World", shell=True, stdout=subprocess.PIPE)

    instead of

    print os.popen("echo Hello World").read()

    but it is nice to have all of the options there in one unified class instead of 4 different popen functions.
    see documentation

  4. The call function from the subprocess module. This is basically just like the Popen class and takes all of the same arguments, but it simply waits until the command completes and gives you the return code. For example:

    return_code ="echo Hello World", shell=True)  

    see documentation

  5. If you're on Python 3.5 or later, you can use the new function, which is a lot like the above but even more flexible and returns a CompletedProcess object when the command finishes executing.

  6. The os module also has all of the fork/exec/spawn functions that you'd have in a C program, but I don't recommend using them directly.

The subprocess module should probably be what you use.

Finally please be aware that for all methods where you pass the final command to be executed by the shell as a string and you are responsible for escaping it there are serious security implications if any part of the string that you pass can not be fully trusted (for example if a user is entering some/any part of the string). If unsure only use these methods with constants. To give you a hint of the implications consider this code

print subprocess.Popen("echo %s " % user_input, stdout=PIPE)

and imagine that the user enters "my mama didnt love me && rm -rf /".

share|improve this answer
You didn't mention the commands module – Casebash May 16 '10 at 0:39
@Casebash: I didn't bother mentioning it because the documentation states that The subprocess module provides more powerful facilities for spawning new processes and retrieving their results. Using the subprocess module is preferable to using the commands module. I similarly didn't mention the popen2 module because it's also obsolete, and both it and the commands module are actually gone in Python 3.0 and later. In lieu of editing my answer, I'll let these comment be the way in which these modules are mentioned. – Eli Courtwright May 16 '10 at 13:16
Great article on the use of subprocess here : – PhoebeB Nov 15 '10 at 10:31
commands module is deprecated now. – jldupont Jan 21 '12 at 0:35
For many cases you don't need to instantiate a Popen object directly, you can use subprocess.check_call and subprocess.check_output – simao Jun 12 '12 at 21:36

I typically use:

import subprocess

p = subprocess.Popen('ls', shell=True, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
for line in p.stdout.readlines():
    print line,
retval = p.wait()

You are free to do what you want with the stdout data in the pipe. In fact, you can simply omit those parameters (stdout= and stderr=) and it'll behave like os.system().

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.readlines() reads all lines at once i.e., it blocks until the subprocess exits (closes its end of the pipe). To read in real time (if there is no buffering issues) you could: for line in iter(p.stdout.readline, ''): print line, – J.F. Sebastian Nov 16 '12 at 14:12
the child process may use block-buffering in non-interactive mode instead of line-buffering so p.stdout.readline() (note: no s at the end) won't see any data until the child fills its buffer. If the child doesn't produce much data then the output won't be in real time. See the second reason in Q: Why not just use a pipe (popen())?. Some workarounds are provided in this answer (pexpect, pty, stdbuf) – J.F. Sebastian Nov 17 '12 at 13:51
@Paul: If your code produces unexpected results then you could create a complete minimal code example that reproduces the problem and post it as a new question. Mention what do you expect to happen and what happens instead. – J.F. Sebastian Apr 10 '13 at 18:41
All right took your advice… thanks! – Paul Apr 11 '13 at 9:49

Some hints on detaching the child process from the calling one (starting the child process in background).

Suppose you want to start a long task from a CGI-script, that is the child process should live longer than the CGI-script execution process.

The classical example from the subprocess module docs is:

import subprocess
import sys

# some code here

pid = subprocess.Popen([sys.executable, ""]) # call subprocess

# some more code here

The idea here is that you do not want to wait in the line 'call subprocess' until the is finished. But it is not clear what happens after the line 'some more code here' from the example.

My target platform was freebsd, but the development was on windows, so I faced the problem on windows first.

On windows (win xp), the parent process will not finish until the has finished its work. It is not what you want in CGI-script. The problem is not specific to Python, in PHP community the problems are the same.

The solution is to pass DETACHED_PROCESS flag to the underlying CreateProcess function in win API. If you happen to have installed pywin32 you can import the flag from the win32process module, otherwise you should define it yourself:


pid = subprocess.Popen([sys.executable, ""],

/* UPD 2015.10.27 @eryksun in a comment below notes, that the semantically correct flag is CREATE_NEW_CONSOLE (0x00000010) */

On freebsd we have another problem: when the parent process is finished, it finishes the child processes as well. And that is not what you want in CGI-script either. Some experiments showed that the problem seemed to be in sharing sys.stdout. And the working solution was the following:

pid = subprocess.Popen([sys.executable, ""], stdout=subprocess.PIPE, stderr=subprocess.PIPE, stdin=subprocess.PIPE)

I have not checked the code on other platforms and do not know the reasons of the behaviour on freebsd. If anyone knows, please share your ideas. Googling on starting background processes in Python does not shed any light yet.

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you might also need CREATE_NEW_PROCESS_GROUP flag. See Popen waiting for child process even when the immediate child has terminated – J.F. Sebastian Nov 16 '12 at 14:16
The following is incorrect: "[o]n windows (win xp), the parent process will not finish until the has finished its work". The parent will exit normally, but the console window (conhost.exe instance) only closes when the last attached process exits, and the child may have inherited the parent's console. Setting DETACHED_PROCESS in creationflags avoids this by preventing the child from inheriting or creating a console. If you instead want a new console, use CREATE_NEW_CONSOLE (0x00000010). – eryksun Oct 27 '15 at 0:27
I didn't mean that executing as a detached process is incorrect. That said, you may need to set the standard handles to files, pipes, or os.devnull because some console programs exit with an error otherwise. Create a new console when you want the child process to interact with the user concurrently with the parent process. It would be confusing to try to do both in a single window. – eryksun Oct 27 '15 at 17:37

I'd recommend using the subprocess module instead of os.system because it does shell escaping for you and is therefore much safer:['ping', 'localhost'])
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subprocess doesn't do shell escaping for you because it avoids using the shell entirely. It actually means that startup is a little faster and there's less overhead. – habnabit Sep 18 '08 at 22:53
import os
cmd = 'ls -al'

If you want to return the results of the command, you can use os.popen. However, this is deprecated since version 2.6 in favor of the subprocess module, which other answers have covered well.

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popen is deprecated in favor of subprocess. – Fox Wilson Aug 8 '14 at 0:22

Check "pexpect" python library, too. It allows for interactive controlling of external programs/commands, even ssh, ftp, telnet etc. You can just type something like:

child = pexpect.spawn('ftp')

child.expect('(?i)name .*: ')


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I always use fabric for this things like:

from fabric.operations import local
result = local('ls', capture=True)
print "Content:/n%s" % (result, )

But this seem to be a good tool: sh (Python subprocess interface).

Look an example:

from sh import vgdisplay
print vgdisplay()
print vgdisplay('-v')
print vgdisplay(v=True)
share|improve this answer
sh is superior to subprocess module. It allows a better shell integration – Yauhen Yakimovich May 23 '13 at 17:39

If what you need is the output from the command you are calling you can use subprocess.check_output since Python 2.7

>>> subprocess.check_output(["ls", "-l", "/dev/null"])
'crw-rw-rw- 1 root root 1, 3 Oct 18  2007 /dev/null\n'
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This is how I run my commands. This code has everything you need pretty much

from subprocess import Popen, PIPE
cmd = "ls -l ~/"
p = Popen(cmd , shell=True, stdout=PIPE, stderr=PIPE)
out, err = p.communicate()
print "Return code: ", p.returncode
print out.rstrip(), err.rstrip()
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import os
os.system("your command")

Note that this is dangerous, since the command isn't cleaned. I leave it up to you to google for the relevant docs on the 'os' and 'sys' modules. There are a bunch of functions (exec* , spawn*) that will do similar things.

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In case you need to go only with standard library, use subprocess module:

from subprocess import call
call(['ls', '-l'])

It is the recommended standard way. However, more complicated tasks (pipes, output, input, etc.) can be tedious to construct and write.

Note: shlex.split can help you to parse the command for call and other subprocess functions in case you don't want (or you can't!) provide them in form of lists:

import shlex
from subprocess import call
call(shlex.split('ls -l'))

If you do not mind external dependencies, install and use sh:

from sh import ifconfig
print ifconfig('wlan0')

It is the best and the most developer-friendly subprocess wrapper I have seen. It is under active development, it has good documentation and you will be usually able to solve any of your tasks on just couple of lines and in a very readable form. The only thing you need to do to have it available is to type pip install sh in your terminal :-)

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without the output of result

import os
os.system("your command here")

with output of result

import commands
commands.getoutput("your command here")
commands.getstatusoutput("your command here")
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Update: is the recommended approach as of Python 3.5 if your code does not need to maintain compatibility with earlier Python versions. It's more consistent and offers similar ease-of-use as Envoy. (Piping isn't as straightforward though. See this question for how.)

Here's some examples from the docs.

Run a process:

>>>["ls", "-l"])  # doesn't capture output
CompletedProcess(args=['ls', '-l'], returncode=0)

Raise on failed run:

>>>"exit 1", shell=True, check=True)
Traceback (most recent call last):
subprocess.CalledProcessError: Command 'exit 1' returned non-zero exit status 1

Capture output:

>>>["ls", "-l", "/dev/null"], stdout=subprocess.PIPE)
CompletedProcess(args=['ls', '-l', '/dev/null'], returncode=0,
stdout=b'crw-rw-rw- 1 root root 1, 3 Jan 23 16:23 /dev/null\n')

Original answer:

I recommend trying Envoy. It's a wrapper for subprocess, which in turn aims to replace the older modules and functions. Envoy is subprocess for humans.

Example usage from the readme:

>>> r ='git config', data='data to pipe in', timeout=2)

>>> r.status_code
>>> r.std_out
'usage: git config [options]'
>>> r.std_err

Pipe stuff around too:

>>> r ='uptime | pbcopy')

>>> r.command
>>> r.status_code

>>> r.history
[<Response 'uptime'>]
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note: that ignores non-zero exit status by default is a regression compared to subprocess.check_call() or subprocess.check_output(). python -mthis: "Errors should never pass silently. Unless explicitly silenced." – J.F. Sebastian Oct 3 '15 at 7:19

os.system is OK, but kind of dated. It's also not very secure. Instead, try subprocess. subprocess does not call sh directly and is therefore more secure than os.system.

Get more information at

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...or for a very simple command:

import os
os.system('cat testfile')
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os.system does not allow you to store results, so if you want to store results in some list or something works.

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There is another difference here which is not mentioned above.

subprocess.Popen executes the as a subprocess. In my case, I need to execute file which needs to communicate with another program .

I tried subprocess, execution was successful. However could not comm w/ . everything normal when I run both from the terminal.

One more: (NOTE: kwrite behaves different from other apps. If you try below with firefox results will not be the same)

If you try os.system("kwrite"), program flow freezes until user closes kwrite. To overcome that I tried instead os.system(konsole -e kwrite). This time program continued to flow but kwrite became the subprocess of the konsole.

Anyone runs the kwrite not being a subprocess (i.e. at the system monitor it must be appear at the leftmost edge of the tree)

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os.system has been superceeded by the subprocess module. Use subproccess instead.

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Perhaps an example of using subprocess? – Michael Mior Mar 29 '10 at 19:09
This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post. – Wtower Jul 10 '15 at 7:09

subprocess.check_call is convenient if you don't want to test return values. It throws an exception on any error.

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There is also Plumbum

>>> from plumbum import local
>>> ls = local["ls"]
>>> ls
LocalCommand(<LocalPath /bin/ls>)
>>> ls()
>>> notepad = local["c:\\windows\\notepad.exe"]
>>> notepad()                                   # Notepad window pops up
u''                                             # Notepad window is closed by user, command returns
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import os 

cmd = 'ls -al'


os - This module provides a portable way of using operating system dependent functionality

for the more os functions here is the documentation.

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I tend to use subprocess together with shlex (to handle escaping of quoted strings):

>>> import subprocess, shlex
>>> command = 'ls -l "/your/path/with spaces/"'
>>> call_params = shlex.split(command)
>>> print call_params
["ls", "-l", "/your/path/with spaces/"]
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you can use Popen, then you can check procedure's status

from subprocess import Popen

proc = Popen(['ls', '-l'])
if proc.poll() is None:

Check this out subprocess.Popen

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There are a lot of different ways to run external commands in python, and all of them have their own plus sides and drawbacks.

My colleagues and me have been writing python sysadmin tools, so we need to run a lot of external commands, and sometimes you want them to block or run asynchronously, time-out, update every second...

There are also different ways of handling the return code and errors, and you might want to parse the output, and provide new input (in an expect kind of style) Or you will need to redirect stdin, stdout and stderr to run in a different tty (e.g., when using screen)

So you will probably have to write a lot of wrappers around the external command. So here is a python module which we have written which can handle almost anything you would want, and if not, it's very flexible so you can easily extend it:

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Very simplest way to run any command and get result back:

from commands import getstatusoutput

    return getstatusoutput("ls -ltr")
except Exception, e:
    return None
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Shameless plug, I wrote a library for this :P

It's basically a wrapper for popen and shlex for now. It also supports piping commands so you can chain commands easier in Python. So you can do things like:

ex('echo hello') | "awk '{print $2}'"
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Just to add to the discussion, if you include using a Python console, you can call external commands from ipython. While in the ipython prompt, you can call call shell commands by prefixing '!'. You can also combine python code with shell, and assign the output of shell scripts to python variables.

For instance:

In [9]: mylist = !ls

In [10]: mylist
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After some research, I have the following code which works very well for me. It basically prints both stdout and stderr in real time. Hope it helps someone else who needs it.

stdout_result = 1
stderr_result = 1

def stdout_thread(pipe):
    global stdout_result
    while True:
        out =
        stdout_result = pipe.poll()
        if out == '' and stdout_result is not None:

        if out != '':

def stderr_thread(pipe):
    global stderr_result
    while True:
        err =
        stderr_result = pipe.poll()
        if err == '' and stderr_result is not None:

        if err != '':

def exec_command(command, cwd=None):
    if cwd is not None:
        print '[' + ' '.join(command) + '] in ' + cwd
        print '[' + ' '.join(command) + ']'

    p = subprocess.Popen(
        command, stdout=subprocess.PIPE, stderr=subprocess.PIPE, cwd=cwd

    out_thread = threading.Thread(name='stdout_thread', target=stdout_thread, args=(p,))
    err_thread = threading.Thread(name='stderr_thread', target=stderr_thread, args=(p,))



    return stdout_result + stderr_result
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A simple way is to use the os module:

import os

Alternatively you can also use the subprocess module

import subprocess

If you want the result to be stored in a variable try:

import subprocess
r = subprocess.check_output('ls')
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protected by Martijn Pieters Apr 16 '13 at 20:23

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