To run an external program from Python you'll normally want to use the subprocess module.
You could "roll your own" subprocess handling using
os.execve() (or one of its
exec* cousins) ... with any file descriptor plumbing and signal handling magic you like. However, the
subprocess.Popen() function has implemented and exposed most of the features for what you'd want to do for you.
To arrange for the program to die after a given period of time you can have your Python script kill it after the timeout. Naturally you'll want to check to see if the process has already completed before then. Here's a dirt stupid example (using the
split function from the shlex module for additional readability:
from shlex import split as splitsh
cmd = splitsh('/usr/bin/sleep 60')
proc = subprocess.Popen(cmd)
pstatus = proc.poll()
if pstatus is None:
# Could use os.kill() to send a specific signal
# such as HUP or TERM, check status again and
# then resort to proc.kill() or os.kill() for
# SIGKILL only if necessary
As noted there are a few ways to kill your subprocess. Note that I check for "
rather than testing pstatus for truth. If you process completed with an exit value of zero (conventionally indicating that no error occurred) then a naive test of the
proc.poll() results would conflate that completion with the still running process status.
There are also a few ways to determine if sufficient time has passed. In this example we sleep, which is somewhat silly if there's anything else we could be doing. That just leaves our Python process (the parent of your external program) laying about idle.
You could capture the start time using
time.time() then launch your subprocess, then do other work (launch other subprocesses, for example) and check the time (perhaps in a loop of other activity) until your desired timeout has been exceeded.
If any of your other activity involves file or socket (network) operations then you'd want to consider using the select module as a way to return a list of file descriptors which are readable, writable or ready with "exceptional" events. The
select.select() function also takes an optional "timeout" value. A call to
select.select(,,,x) is essentially the same as
time.sleep(x) (in the case where we aren't providing any file descriptors for it to select among).
In lieu of
select.select() it's also possible to use the fcntl module to set your file descriptor into a non-blocking mode and then use
os.read() (NOT the normal file object
.read() methods, but the lower level functionality from theos module). Again it's better to use the higher level interfaces where possible and only to resort to the lower level functions when you must. (If you use non-blocking I/O then all your
os.read() or similar operations must be done within exception handling blocks, since Python will represent the "EWOULDBLOCK" condition as an OSError (exception) like: "OSError: [Errno 11] Resource temporarily unavailable" (Linux). The precise number of the error might vary from one OS to another. However, it should be portable (at least for POSIX systems) to use the
EWOULDBLOCK value from the errno module.
(I realize I'm going down a rathole here, but information on how your program can do something useful while your child processes are running external programs is a natural extension of how to manage the timeouts for them).
Ugly details about non-blocking file I/O (including portability issues with MS Windows) have been discussed here in the past: Stackoverflow: non-blocking read on a stream in Python
As others have commented, it's better to provide more detailed questions and include short, focused snippets of code which show what effort you've already undertaken. Usually you won't find people here inclined to write tutorials rather than answers.