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I've been writing a small Python script that executes some shell commands using the subprocess module and a helper function:

import subprocess as sp
def run(command, description):
    """Runs a command in a formatted manner. Returns its return code."""
    sys.stderr.write('%-65s' % description)
    s=sp.Popen(command, shell=True, stderr=sp.PIPE, stdout=sp.PIPE)
    status='Done' if s.returncode==0 else 'Failed'
    print '%s (%d seconds)' % (status, duration.seconds)

The following lines reads the standard output and error:

    s=sp.Popen(command, shell=True, stderr=sp.PIPE, stdout=sp.PIPE)

As you can see, stdout and stderr are not used. Suppose that I want to write the output and error messages to a log file, in a formatted way, e.g.:

[STDOUT: 2011-01-17 14:53:55] <message>
[STDERR: 2011-01-17 14:53:56] <message>

My question is, what's the most Pythonic way to do it? I thought of three options:

  1. Inherit the file object and override the write method.
  2. Use a Delegate class which implements write.
  3. Connect to the PIPE itself in some way.

UPDATE : reference test script

I'm checking the results with this script, saved as test.py:

import sys


Any ideas?

share|improve this question
I give up. I was able to wrap (subclassing) file so that writes add timestamp and file title, but Popen works on fds and I can't see where the writes happen. Looks like it's just os.execvp and the stdout handle is somewhere magic. So I subclassed Popen but it ignores the fact that it was passed wrapped files and a map of fd:title. – TryPyPy Jan 27 '11 at 21:49
up vote 11 down vote accepted

1 and 2 are reasonable solutions, but overriding write() won't be enough.

The problem is that Popen needs file handles to attach to the process, so Python file objects doesn't work, they have to be OS level. To solve that you have to have a Python object that has a os level file handle. The only way I can think of solving that is to use pipes, so you have an os level file handle to write to. But then you need another thread that sits and polls that pipe for things to read in so it can log it. (So this is more strictly an implementation of 2, as it delegates to logging).

Said and done:

import io
import logging
import os
import select
import subprocess
import time
import threading

LOG_FILENAME = 'output.log'

class StreamLogger(io.IOBase):
    def __init__(self, level):
        self.level = level
        self.pipe = os.pipe()
        self.thread = threading.Thread(target=self._flusher)

    def _flusher(self):
        self._run = True
        buf = b''
        while self._run:
            for fh in select.select([self.pipe[0]], [], [], 0)[0]:
                buf += os.read(fh, 1024)
                while b'\n' in buf:
                    data, buf = buf.split(b'\n', 1)
        self._run = None

    def write(self, data):
        return logging.log(self.level, data)

    def fileno(self):
        return self.pipe[1]

    def close(self):
        if self._run:
            self._run = False
            while self._run is not None:

So that class starts a os level pipe that Popen can attach the stdin/out/error to for the subprocess. It also starts a thread that polls the other end of that pipe once a second for things to log, which it then logs with the logging module.

Possibly this class should implement more things for completeness, but it works in this case anyway.

Example code:

with StreamLogger(logging.INFO) as out:
    with StreamLogger(logging.ERROR) as err:
        subprocess.Popen("ls", stdout=out, stderr=err, shell=True)

output.log ends up like so:


Tested with Python 2.6, 2.7 and 3.1.

I would think any implementation of 1 and 3 would need to use similar techniques. It is a bit involved, but unless you can make the Popen command log correctly itself, I don't have a better idea).

share|improve this answer
+1: this is similar what I was going to suggest, but I couldn't get the logging thread to behave correctly. – senderle Jan 31 '11 at 0:29
will this work on Windows?! i have doubts, because select on win is for sockets only, not files. – Nas Banov Feb 1 '11 at 23:52
I haven't tried it on Windows, but if not then replace select with whatever you do to check if there is something to read on a pipe under Windows. – Lennart Regebro Feb 2 '11 at 0:13
It's great, but it fails (output.txt is empty) when running a simple python scripts which prints something to stdout and something to stderr. Any idea? – Adam Matan Feb 3 '11 at 10:08
@Adam Matan: No, it works with 'ls' as you see, so it's sound in principle. I don't know how your simple python script works, so I can't explain why that fails, although I do see a bug now: It doesn't print the rest of the buffer when exiting, so that could be it. Put in a self.write(buf.decode()) last in the flusher method. Maybe put the sleep(1) first in the loop too. – Lennart Regebro Feb 3 '11 at 10:58

I would suggest option 3, with the logging standard library package. In this case I'd say the other 2 were overkill.

share|improve this answer
How would you redirect the PIPE? – Adam Matan Jan 17 '11 at 17:21

1 and 2 won't work. Here's an implementation of the principle:

import subprocess
import time

FileClass = open('tmptmp123123123.tmp', 'w').__class__

class WrappedFile(FileClass):
    TIMETPL = "%Y-%m-%d %H:%M:%S"
    TEMPLATE = "[%s: %s] "

    def __init__(self, name, mode='r', buffering=None, title=None):
        self.title = title or name

        if buffering is None:
            super(WrappedFile, self).__init__(name, mode)
            super(WrappedFile, self).__init__(name, mode, buffering)

    def write(self, s):
        stamp = time.strftime(self.TIMETPL)
        if not s:
        # Add a line with timestamp per line to be written
        s = s.split('\n')
        spre = self.TEMPLATE % (self.title, stamp)
        s = "\n".join(["%s %s" % (spre, line) for line in s]) + "\n"
        super(WrappedFile, self).write(s)

The reason it doesn't work is that Popen never calls stdout.write. A wrapped file will work fine when we call its write method and will even be written to if passed to Popen, but the write will happen in a lower layer, skipping the write method.

share|improve this answer

This simple solution worked for me:

import sys
import datetime
import tempfile
import subprocess as sp
def run(command, description):
    """Runs a command in a formatted manner. Returns its return code."""
    with tempfile.SpooledTemporaryFile(8*1024) as so:
        print >> sys.stderr, '%-65s' % description
        retcode = sp.call(command, shell=True, stderr=sp.STDOUT, stdout=so)
        for line in so.readlines():
            print >> sys.stderr,'logging this:', line.rstrip()
        status='Done' if retcode == 0 else 'Failed'
        print >> sys.stderr, '%s (%d seconds)' % (status, duration.seconds)

REF_SCRIPT = r"""#!/usr/bin/python
import sys


SCRIPT_NAME = 'refscript.py'

if __name__ == '__main__':
    with open(SCRIPT_NAME, 'w') as script:
    run('python ' + SCRIPT_NAME, 'Reference script')
share|improve this answer
Does it work with mixed error\output results? It failed for my reference script (see update above). – Adam Matan Feb 3 '11 at 10:14
@Adam Matan I tried it with run('ls /nonexistent', 'Does not exist') to check for stderr, and it worked. You do need to make sure that it is stderr=sp.SDOUT in the call to Popen. BTW, I'm changing the code to remove the s.poll() loop because it is probably an unneeded, fast-winding loop. – Apalala Feb 3 '11 at 17:06
@Adam Matan. It works with your reference script too. See the edits. I'm running Ubuntu 10.10 and Python 2.6.6). – Apalala Feb 3 '11 at 17:39
Note that this experiment doesn't allow adding timestamps to the output, o it's probably useless. – Apalala Feb 3 '11 at 21:41

This uses Adam Rosenfield's make_async and read_async. Whereas my original answer used select.epoll and was thus Linux-only, it now uses select.select, which should work under Unix or Windows.

This logs output from the subprocess to /tmp/test.log as it occurs:

import logging
import subprocess
import shlex
import select
import fcntl
import os
import errno

def make_async(fd):
    # http://stackoverflow.com/a/7730201/190597
    '''add the O_NONBLOCK flag to a file descriptor'''
    fcntl.fcntl(fd, fcntl.F_SETFL, fcntl.fcntl(fd, fcntl.F_GETFL) | os.O_NONBLOCK)

def read_async(fd):
    # http://stackoverflow.com/a/7730201/190597
    '''read some data from a file descriptor, ignoring EAGAIN errors'''
        return fd.read()
    except IOError, e:
        if e.errno != errno.EAGAIN:
            raise e
            return ''

def log_process(proc,stdout_logger,stderr_logger):
    loggers = { proc.stdout: stdout_logger, proc.stderr:  stderr_logger }
    def log_fds(fds):
        for fd in fds:
            out = read_async(fd)
            if out.strip():
    while True:
        # Wait for data to become available 
        rlist, wlist, xlist = select.select([proc.stdout, proc.stderr], [], [])
        if proc.poll() is not None:
            # Corner case: check if more output was created
            # between the last call to read_async and now
            log_fds([proc.stdout, proc.stderr])                

if __name__=='__main__':
    formatter = logging.Formatter('[%(name)s: %(asctime)s] %(message)s')
    handler = logging.FileHandler('/tmp/test.log','w')



    proc = subprocess.Popen(shlex.split('ls -laR /tmp'),
share|improve this answer
It's a nice solution, but it keeps the stdout\stderr aside till the process finishes, and then writes them to a log file. It means that the timestamps state the time of logging, not the time of events, and loses track of the order of events (all stdout messages are written, and then all stderr messages are written). – Adam Matan Jan 17 '11 at 20:46

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