I'm trying to port a shell script to the much more readable python version. The original shell script starts several processes (utilities, monitors, etc.) in the background with "&". How can I achieve the same effect in python? I'd like these processes not to die when the python scripts complete. I am sure it's related to the concept of a daemon somehow, but I couldn't find how to do this easily.
Note: This answer is less current than it was when posted in 2009. Using the subprocess module shown in other answers is now recommended in the docs
(Note that the subprocess module provides more powerful facilities for spawning new processes and retrieving their results; using that module is preferable to using these functions.)
If you want your process to start in the background you can either use system() and call it in the same way your shell script did, or you can spawn it:
import os
os.spawnl(os.P_DETACH, 'some_long_running_command')
(or, alternatively, you may try the less portable os.P_NOWAIT flag).
See the documentation here.
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9Remark: you must specify the full path to the executable. This function will not use the PATH variable and the variant that does use it is not available under Windows. – sorin Oct 28 '09 at 17:14
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9Could the people suggesting using
subprocessgive us a hint how to detach a process withsubprocess? – rakslice Feb 11 '14 at 21:56 -
3How can I use Python script (say attach.py) to find a background process and redirect its IO so that attach.py can read from / write to some_long_running_prog in background? – raof01 Mar 5 '14 at 6:46
While jkp's solution works, the newer way of doing things (and the way the documentation recommends) is to use the subprocess module. For simple commands its equivalent, but it offers more options if you want to do something complicated.
Example for your case:
import subprocess
subprocess.Popen(["rm","-r","some.file"])
This will run rm -r some.file in the background. Note that calling .communicate() on the object returned from Popen will block until it completes, so don't do that if you want it to run in the background:
import subprocess
ls_output=subprocess.Popen(["sleep", "30"])
ls_output.communicate() # Will block for 30 seconds
See the documentation here.
Also, a point of clarification: "Background" as you use it here is purely a shell concept; technically, what you mean is that you want to spawn a process without blocking while you wait for it to complete. However, I've used "background" here to refer to shell-background-like behavior.
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9@Dan: How do I kill the process once it's running in the background? I want to run it for a while (it's a daemon that I interact with) and kill it when I'm done with it. The docs aren't helpful... – Juan Jul 7 '14 at 5:36
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1@Dan but don't I need to know the PID for that? Activity monitor/Task manager not an option (needs to happen programmatically). – Juan Jul 12 '14 at 16:56
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5ok so how do you force the process to background when you need the result of Popen() to write to its stdin? – Michael Jul 19 '14 at 20:23
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2@J.F.Sebastian: I interpreted it as "how can I create an independent process that doesn't stop the execution of the current program". How would you suggest I edit it to make this more explicit? – Dan Dec 17 '14 at 4:51
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1@Dan: the correct answer is: use
Popen()to avoid blocking the main thread and if you need a daemon then look atpython-daemonpackage to understand how a well-defined daemon should behave. Your answer is ok if you remove everything starting with "But be wary" except for the link to subprocess' docs. – jfs Dec 17 '14 at 14:06
You probably want the answer to "How to call an external command in Python".
The simplest approach is to use the os.system function, e.g.:
import os
os.system("some_command &")
Basically, whatever you pass to the system function will be executed the same as if you'd passed it to the shell in a script.
answered Jul 28 '09 at 19:02
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11IMHO, python scripts are usually written to be cross-platform and if there simple cross-platform solution exists it's better to stick with it. Never know if you'll have to work with another platform in future :) Or if some other man would want to migrate your script to his platform. – d9k May 1 '16 at 2:37
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7This command is synchronous (i.e. it always waits for a termination of the started process). – tav Oct 7 '17 at 9:10
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1@d9k isn't the choice of running something in the background already positioning you in posix-land? What would you do on Windows? Run as a service? – lucid_dreamer Jun 4 '18 at 17:57
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I found this here:
On windows (win xp), the parent process will not finish until the longtask.py 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 Process Creation 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:
DETACHED_PROCESS = 0x00000008
pid = subprocess.Popen([sys.executable, "longtask.py"],
creationflags=DETACHED_PROCESS).pid
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8+1 for showing how to retain the process id. And if anyone want to kill the program later with the process id: stackoverflow.com/questions/17856928/… – iChux Sep 17 '15 at 10:38
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Use subprocess.Popen() with the close_fds=True parameter, which will allow the spawned subprocess to be detached from the Python process itself and continue running even after Python exits.
https://gist.github.com/yinjimmy/d6ad0742d03d54518e9f
import os, time, sys, subprocess
if len(sys.argv) == 2:
time.sleep(5)
print 'track end'
if sys.platform == 'darwin':
subprocess.Popen(['say', 'hello'])
else:
print 'main begin'
subprocess.Popen(['python', os.path.realpath(__file__), '0'], close_fds=True)
print 'main end'
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1In windows, it doesn't detach but using creationflags parameter works – Smart Manoj Apr 26 '18 at 15:43
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@TitanFighter this can be avoid by set SIGCHLD SIG_IGN : stackoverflow.com/questions/16807603/… – sailfish009 May 30 at 5:20
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You probably want to start investigating the os module for forking different threads (by opening an interactive session and issuing help(os)). The relevant functions are fork and any of the exec ones. To give you an idea on how to start, put something like this in a function that performs the fork (the function needs to take a list or tuple 'args' as an argument that contains the program's name and its parameters; you may also want to define stdin, out and err for the new thread):
try:
pid = os.fork()
except OSError, e:
## some debug output
sys.exit(1)
if pid == 0:
## eventually use os.putenv(..) to set environment variables
## os.execv strips of args[0] for the arguments
os.execv(args[0], args)
answered Jul 28 '09 at 19:12
Gerald Senarclens de GrancyGerald Senarclens de Grancy
6,2546 gold badges36 silver badges52 bronze badges
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2
os.fork()is really useful, but it does have a notable downside of only being available on *nix. – Evan Fosmark Jul 28 '09 at 19:15 -
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More details about this approach: Creating a daemon the Python way – Amir Ali Akbari Apr 20 '14 at 2:47
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You can also reach similar effects with
threading: stackoverflow.com/a/53751896/895245 I think that might work on Windows. – Ciro Santilli 郝海东冠状病六四事件法轮功 Dec 12 '18 at 21:53
Both capture output and run on background with threading
As mentioned on this answer, if you capture the output with stdout= and then try to read(), then the process blocks.
However, there are cases where you need this. For example, I wanted to launch two processes that talk over a port between them, and save their stdout to a log file and stdout.
The threading module allows us to do that.
First, have a look at how to do the output redirection part alone in this question: Python Popen: Write to stdout AND log file simultaneously
Then:
main.py
#!/usr/bin/env python3
import os
import subprocess
import sys
import threading
def output_reader(proc, file):
while True:
byte = proc.stdout.read(1)
if byte:
sys.stdout.buffer.write(byte)
sys.stdout.flush()
file.buffer.write(byte)
else:
break
with subprocess.Popen(['./sleep.py', '0'], stdout=subprocess.PIPE, stderr=subprocess.PIPE) as proc1, \
subprocess.Popen(['./sleep.py', '10'], stdout=subprocess.PIPE, stderr=subprocess.PIPE) as proc2, \
open('log1.log', 'w') as file1, \
open('log2.log', 'w') as file2:
t1 = threading.Thread(target=output_reader, args=(proc1, file1))
t2 = threading.Thread(target=output_reader, args=(proc2, file2))
t1.start()
t2.start()
t1.join()
t2.join()
sleep.py
#!/usr/bin/env python3
import sys
import time
for i in range(4):
print(i + int(sys.argv[1]))
sys.stdout.flush()
time.sleep(0.5)
After running:
./main.py
stdout get updated every 0.5 seconds for every two lines to contain:
0
10
1
11
2
12
3
13
and each log file contains the respective log for a given process.
Inspired by: https://eli.thegreenplace.net/2017/interacting-with-a-long-running-child-process-in-python/
Tested on Ubuntu 18.04, Python 3.6.7.
answered Dec 12 '18 at 21:48
Ciro Santilli 郝海东冠状病六四事件法轮功Ciro Santilli 郝海东冠状病六四事件法轮功
231k57 gold badges877 silver badges698 bronze badges
subprocess.Popen()is the new recommended way since 2010 (we are in 2015 now) and (3) the duplicated question redirecting here has also an accepted answer aboutsubprocess.Popen(). Cheers :-) – oHo Jun 26 '15 at 8:10subprocess.Popen("<command>")with <command> file led by a suitable shebang. Works perfect for me (Debian) with bash and python scripts, implicitelyshells and survives its parent process.stdoutgoes to same terminal than the parent's. So this works much like&in a shell which was OPs request. But hell, all the questions work out very complex while a little testing showed it in no time ;) – flaschbier Jun 26 '15 at 18:54