Mercurial > hg > config
view python/example/process.py @ 914:016d27ca39e4
py3
author | Jeff Hammel <k0scist@gmail.com> |
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date | Mon, 27 May 2024 16:02:17 -0700 |
parents | 5364185dcb9b |
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#!/usr/bin/env python """ multiprocessing/subprocess front-end """ # imports import argparse import atexit import os import signal import subprocess # http://bugs.python.org/issue1731717 import sys import time import tempfile # globals __all__ = ['Process'] string = (str, unicode) PIDS = set() # ensure subprocesses gets killed on exit def killall(): """kill all subprocess PIDs""" global PIDS for pid in PIDS.copy(): try: os.kill(pid, 9) # SIGKILL PIDS.discard(pid) except: sys.stderr.write("Unable to kill PID {}\n".format(pid)) atexit.register(killall) signals = (signal.SIGHUP, signal.SIGINT, signal.SIGQUIT, signal.SIGSEGV, signal.SIGTERM) # signals to handle fatal = set([signal.SIGINT, signal.SIGSEGV, signal.SIGKILL, signal.SIGTERM]) # ensure subprocesses get killed on signals def sighandler(signum, frame): """https://docs.python.org/2/library/signal.html""" sys.stderr.write('Signal handler called with signal {}\n; terminating subprocesses: {}'.format(signum, ', '.join([str(pid) for pid in sorted(PIDS)]))) killall() if signum in fatal: print ("Caught signal {}; exiting".format(signum)) sys.exit() for signum in signals: try: signal.signal(signum, sighandler) except RuntimeError as e: print ('[{}] {}'.format(signum, e)) raise class Process(subprocess.Popen): """why would you name a subprocess object Popen?""" # http://docs.python.org/2/library/subprocess.html#popen-constructor defaults = {'bufsize': 1, # line buffered 'store_output': True, # store stdout } def __init__(self, command, **kwargs): # get verbosity self.verbose = kwargs.pop('verbose', False) # setup arguments self.command = command _kwargs = self.defaults.copy() _kwargs.update(kwargs) # on unix, ``shell={True|False}`` should always come from the # type of command (string or list) if not subprocess.mswindows: _kwargs['shell'] = isinstance(command, string) # output buffer self.location = 0 self.output_buffer = tempfile.SpooledTemporaryFile() self.output = '' if _kwargs.pop('store_output') else None _kwargs['stdout'] = self.output_buffer # ensure child in process group # see : # - http://pymotw.com/2/subprocess/#process-groups-sessions # - http://ptspts.blogspot.com/2012/11/how-to-start-and-kill-unix-process-tree.html _kwargs['preexec_fn'] = os.setpgrp # runtime self.start = time.time() self.end = None if self.verbose: # print useful info print ("Running `{}`; started: {}".format(str(self), self.start)) # launch subprocess try: subprocess.Popen.__init__(self, command, **_kwargs) PIDS.add(self.pid) if self.verbose: # print the PID print ("PID: {}".format(self.pid)) except: # print the command print ("Failure to run:") print (self.command) # reraise the hard way: # http://www.ianbicking.org/blog/2007/09/re-raising-exceptions.html exc = sys.exc_info() raise exc[0], exc[1], exc[2] def _finalize(self, process_output): """internal function to finalize""" # read final output if process_output is not None: self.read(process_output) # reset output buffer location self.output_buffer.seek(0) # set end time self.end = time.time() # remove PID from list PIDS.discard(self.pid) def poll(self, process_output=None): if process_output is not None: self.read(process_output) # read from output buffer poll = subprocess.Popen.poll(self) if poll is not None: self._finalize(process_output) return poll def wait(self, maxtime=None, sleep=1., process_output=None): """ maxtime -- timeout in seconds sleep -- number of seconds to sleep between polling """ while self.poll(process_output) is None: # check for timeout curr_time = time.time() run_time = self.runtime() if maxtime is not None and run_time > maxtime: self.kill() self._finalize(process_output) return # naptime if sleep: time.sleep(sleep) # finalize self._finalize(process_output) return self.returncode # set by ``.poll()`` def read(self, process_output=None): """read from the output buffer""" self.output_buffer.seek(self.location) read = self.output_buffer.read() if self.output is not None: self.output += read if process_output: process_output(read) self.location += len(read) return read def commandline(self): """returns string of command line""" if isinstance(self.command, string): return self.command return subprocess.list2cmdline(self.command) __str__ = commandline def runtime(self): """returns time spent running or total runtime if completed""" if self.end is None: return time.time() - self.start return self.end - self.start def main(args=sys.argv[1:]): """CLI""" description = """demonstration of how to do things with subprocess""" # available programs progs = {'yes': ["yes"], 'ping': ['ping', 'google.com']} # parse command line parser = argparse.ArgumentParser(description=description) parser.add_argument("-t", "--time", dest="time", type=float, default=4., help="seconds to run for (or <= 0 for forever)") parser.add_argument("-s", "--sleep", dest="sleep", type=float, default=1., help="sleep this number of seconds between polling") parser.add_argument("-p", "--prog", dest='program', choices=progs.keys(), default='ping', help="subprocess to run") parser.add_argument("--list-programs", dest='list_programs', action='store_true', default=False, help="list available programs") parser.add_argument("--wait", dest='wait', action='store_true', default=False, help="run with ``.wait()`` and a callback") parser.add_argument("--callback", dest='callback', action='store_true', default=False, help="run with polling and a callback") options = parser.parse_args(args) # list programs if options.list_programs: for key in sorted(progs.keys()): print ('{}: {}'.format(key, subprocess.list2cmdline(progs[key]))) sys.exit(0) # select program prog = progs[options.program] # start process proc = Process(prog) # demo function for processing output def output_processor(output): print ('[{}]:\n{}\n{}'.format(proc.runtime(), output.upper(), '-==-'*10)) if options.callback: process_output = output_processor else: process_output = None if options.wait: # wait for being done proc.wait(maxtime=options.time, sleep=options.sleep, process_output=output_processor) else: # start the main subprocess loop while proc.poll(process_output) is None: if options.time > 0 and proc.runtime() > options.time: proc.kill() if options.sleep: time.sleep(options.sleep) if process_output is None: # process the output with ``.read()`` call read = proc.read() output_processor(read) # correctness tests assert proc.end is not None # print summary output = proc.output n_lines = len(output.splitlines()) print ("{}: {} lines, ran for {} seconds".format(subprocess.list2cmdline(prog), n_lines, proc.runtime())) if __name__ == '__main__': main()