This blog post shows a way of doing this: http://stefaanlippens.net/python-asynchronous-subprocess-pipe-reading
Essentially the post shows how to prevent deadlock when reading the output of a process by asynchronously reading both stdout and stderr. You can replace the
producer command from
__main__ to run whatever command you like and the print statements with code to handle the output in Tornado.
Update: I have included the following in case the blog gets taken down:
...what if you want to read standard output and error line by line,
for example because you want to monitor a longer running process? On
the web you can find many solutions, with varying degrees of
complexity, abstraction and dependencies. One solution (with limited
code and no dependencies outside the standard library) is to read the
pipes in separate threads, so one pipe can't block another.
The code below shows an example implementation. The script is set up
in such a way that is used both for the parent as the child process.
For the child process: when called with 'produce' argument, it runs the produce() function that just renders some lines randomly on
standard output and standard error. Between the lines there is a touch
of delay simulate a longer running process.
The parent process (script called without arguments), implemented in the consume() function, invokes the same script in "child mode" as
subprocess and monitors its output line by line, without knowing in
advance from which pipe each line will come.
The AsynchronousFileReader class is for the threads that will read the
standard output and error pipes asynchronously and put each line on a
queue. The main thread can then monitor the subprocess by watching the
lines as they come in on the queues.
Helper class to implement asynchronous reading of a file
in a separate thread. Pushes read lines on a queue to
be consumed in another thread.
def __init__(self, fd, queue):
assert isinstance(queue, Queue.Queue)
self._fd = fd
self._queue = queue
'''The body of the tread: read lines and put them on the queue.'''
for line in iter(self._fd.readline, ''):
'''Check whether there is no more content to expect.'''
return not self.is_alive() and self._queue.empty()
Example of how to consume standard output and standard error of
a subprocess asynchronously without risk on deadlocking.
# Launch the command as subprocess.
process = subprocess.Popen(command, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
# Launch the asynchronous readers of the process' stdout and stderr.
stdout_queue = Queue.Queue()
stdout_reader = AsynchronousFileReader(process.stdout, stdout_queue)
stderr_queue = Queue.Queue()
stderr_reader = AsynchronousFileReader(process.stderr, stderr_queue)
# Check the queues if we received some output (until there is nothing more to get).
while not stdout_reader.eof() or not stderr_reader.eof():
# Show what we received from standard output.
while not stdout_queue.empty():
line = stdout_queue.get()
print 'Received line on standard output: ' + repr(line)
# Show what we received from standard error.
while not stderr_queue.empty():
line = stderr_queue.get()
print 'Received line on standard error: ' + repr(line)
# Sleep a bit before asking the readers again.
# Let's be tidy and join the threads we've started.
# Close subprocess' file descriptors.
Dummy function to randomly render a couple of lines
on standard output and standard error.
for i in range(items):
output = random.choice([sys.stdout, sys.stderr])
output.write('Line %d on %s\n' % (i, output))
if __name__ == '__main__':
# The main flow:
# if there is an command line argument 'produce', act as a producer
# otherwise be a consumer (which launches a producer as subprocess).
if len(sys.argv) == 2 and sys.argv == 'produce':
consume(['python', sys.argv, 'produce'])