You may use an indipendent process (multiprocessing.Process) and using two queues to communicate with it (multiprocessing.Queue) one for the input and the other one for the output.
Example on starting the process:
def processWorker(input, result):
work = input.get()
## execute your command here
pipe = subprocess.Popen(command, stdout = subprocess.PIPE,
stderr = subprocess.PIPE, shell = True)
stdout, stderr = pipe.communicate()
input = multiprocessing.Queue()
result = multiprocessing.Queue()
p = multiprocessing.Process(target = processWorker, args = (input, result))
commandlist = ['ls -l /', 'ls -l /tmp/']
for command in commandlist:
for i in xrange(len(commandlist)):
res = result.get(block = True)
if not res is 0:
print 'One command failed'
Then you may keep track of which command is being executed by each subprocess simply storing the command associated to a workid (the workid can be a counter incremented when the queue get filled with new work).
Usage of multiprocessing.Queue is robust since you do not need to rely on stdout/err parsing and you also avoid related limitation.
Moreover you can easily manage more subprocesses.
Then, you can also set a timeout on how long you want a get call to wait at max, eg:
res = result.get(block = True, timeout = 10)