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An issue I have with Python's (3.4) subprocess.popen:

Very rarely (once in several thousands), calls to popen seem to create another forked process, in addition to the intentional process, and hanging (possibly waiting?), resulting in the intentional process becoming a zombie.

Here's the call sequence:

with subprocess.Popen(['prog', 'arg1', 'arg2'], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE) as p:
    std_out, std_err = p.communicate()
    p.wait()

Note: the above call sequence is run itself from a forked process (a form of process pooling, see process list below)

The issue happens with multiple programs (7z for example) so I assume the problem is with the caller and not the callee.

prog is zombiefied, so I assume the p.wait() statement is never reached or not executed properly.

The resulting process list (ps -ef output):

my_user  18219 18212  9 16:16 pts/1    00:18:11 python3 script.py        # original process
my_user  1045  18219  0 16:18 pts/1    00:00:14 python3 script.py        # Intentionally forked from original (poor man's process pool) - Seems to be stuck or waiting
my_user  2834  1045   0 16:18 pts/1    00:00:00 [prog] <defunct>         # Program run by subprocess.popen - Zombie
my_user  2841  1045   0 16:18 pts/1    00:00:00 python3 script.py        # !!!! Should not be here, also stuck or waiting, never finishes

Edited (added code sample as requested): The code in questions:

import os
import subprocess

pid = os.fork()
if pid == 0:
    # child
    file_name='test.zip'
    out_dir='/tmp'

    while True:
        with subprocess.Popen(['7z', 'x', '-y', '-p', '-o' + out_dir, file_name], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE) as p:
            try:
                std_out, std_err = p.communicate(timeout=600)
            except subprocess.TimeoutExpired:
                p.kill()
                std_out, std_err = p.communicate()
                logging.critical('7z failed, a timeout has occurred during waiting')
            except:
                p.kill()
                p.wait()
                raise
            return_code = p.poll()

        # do something
else:
    # parent
    wpid, status = os.waitpid(pid, 0)
    exit_code = status >> 8
  • I don't believe that Popen() may create more than one child process. Could you provide a minimal but complete code example that reproduces the behavior? Does your parent Python script use threads? – jfs Dec 1 '15 at 8:20
  • @J.F.Sebastian - Added the code as requested. – Jonathan Dec 1 '15 at 11:35
  • is there a reason, not to use multiprocessing/furures or subprocess instead of os.fork()? – jfs Dec 1 '15 at 17:30
  • @J.F.Sebastian - the reason is irrelevant, I encountered a weird behavior that I want to understand. That said, I used multiprocessing.Pool instead of fork, but some child processes used multiprocessing.Process to spawn children (a library, not my code), which fails ('daemonic processes are not allowed to have children'), switched to fork to create a pool of my own. Subprocess (Popen, check_output, etc.) will not do in my case because they execute a file and I need a clone of my process (I do use it to run 7z though) I did not try futures. I might give it a go – Jonathan Dec 2 '15 at 19:33
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subprocess indeed forks before running the command. This is mentionned in PEP 324 (ctrl-f for “fork”).

The reason is that the command is run using exec, which replaces the calling process by the executed one.

As you can see, it shares the same pid as the executed script, so it actually is the same process, but it is not the python interpreter that is being run.

So, as long as the child process does not return, the caller python process can't.

  • Of course popen forks and then execs, but from the process list you could see that process 2834 and 2841 shares the same PPID (have the same parent), not PID (not the same process), process 2834 is the one I expected to be forked, but I also got 2841 - two forks instead of one. – Jonathan Nov 30 '15 at 21:50
  • the fork creates a new process. The parent python process may continue to run whatever happens in the child process. – jfs Dec 1 '15 at 8:15
  • @J.F.Sebastian - I understand the parent continues, but what it does (or at least meant to do) is to wait for the child (either through communicate or wait methods - see code added to the questions), so the extra child is unexpected. – Jonathan Dec 1 '15 at 11:39
  • @Jonathan: there won't be an extra child (created by a single Popen()) whether the parent waits or does something else. – jfs Dec 1 '15 at 17:24
  • @J.F.Sebastian - I know there shouldn't be another process, this is the reason I submitted this question here. You can see the code, and the resulting process list. Also, if I add prints everywhere it seems the original process is stuck in the p.communicate line, so technically no other statements execute. Nevertheless the extra process exists. – Jonathan Dec 2 '15 at 18:32
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I believe this is an effect of mixing forking and threading, which is a bad thing to do in Linux. Here are a couple references:

I believe your process is multithreaded once you import the logging module. (In my case, I was sometimes seeing my program hang while waiting on a logging futex and sometimes hang while waiting inside subprocess with the subprocess having become a zombie.) That module uses OS locks to ensure that it can be called in a thread-safe manner. Once you fork, that lock's state is inherited by the child process. So the child (which is single threaded but inherited the memory of the parent) can't acquire the logging lock because the lock was sometimes locked when the fork happened.

(I'm not super confident in my explanation. My problem went away when I switched from using multiprocessing's default fork behavior to using spawn behavior. In the latter, a child does not inherit its parent's memory, and subprocess and logging no longer caused hangs for me.)

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