#! @PYTHON@ # Copyright (C) 2001-2018 by the Free Software Foundation, Inc. # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License # as published by the Free Software Foundation; either version 2 # of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, # USA. """Run one or more qrunners, once or repeatedly. Each named runner class is run in round-robin fashion. In other words, the first named runner is run to consume all the files currently in its directory. When that qrunner is done, the next one is run to consume all the files in /its/ directory, and so on. The number of total iterations can be given on the command line. Usage: %(PROGRAM)s [options] Options: -r runner[:slice:range] --runner=runner[:slice:range] Run the named qrunner, which must be one of the strings returned by the -l option. Optional slice:range if given, is used to assign multiple qrunner processes to a queue. range is the total number of qrunners for this queue while slice is the number of this qrunner from [0..range). If using the slice:range form, you better make sure that each qrunner for the queue is given the same range value. If slice:runner is not given, then 1:1 is used. Multiple -r options may be given, in which case each qrunner will run once in round-robin fashion. The special runner `All' is shorthand for a qrunner for each listed by the -l option. --once -o Run each named qrunner exactly once through its main loop. Otherwise, each qrunner runs indefinitely, until the process receives a SIGTERM or SIGINT. -l/--list Shows the available qrunner names and exit. -v/--verbose Spit out more debugging information to the logs/qrunner log file. -s/--subproc This should only be used when running qrunner as a subprocess of the mailmanctl startup script. It changes some of the exit-on-error behavior to work better with that framework. -h/--help Print this message and exit. runner is required unless -l or -h is given, and it must be one of the names displayed by the -l switch. Note also that this script should be started up from mailmanctl as a normal operation. It is only useful for debugging if it is run separately. """ import sys import getopt import signal import time import paths from Mailman import mm_cfg from Mailman.i18n import C_ from Mailman.Logging.Syslog import syslog from Mailman.Logging.Utils import LogStdErr PROGRAM = sys.argv[0] COMMASPACE = ', ' # Flag which says whether we're running under mailmanctl or not. AS_SUBPROC = 0 def usage(code, msg=''): if code: fd = sys.stderr else: fd = sys.stdout print >> fd, C_(__doc__) if msg: print >> fd, msg sys.exit(code) def make_qrunner(name, slice, range, once=0): modulename = 'Mailman.Queue.' + name try: __import__(modulename) except ImportError, e: if AS_SUBPROC: # Exit with SIGTERM exit code so mailmanctl won't try to restart us print >> sys.stderr, 'Cannot import runner module', modulename print >> sys.stderr, e sys.exit(signal.SIGTERM) else: usage(1, e) qrclass = getattr(sys.modules[modulename], name) if once: # Subclass to hack in the setting of the stop flag in _doperiodic() class Once(qrclass): def _doperiodic(self): self.stop() qrunner = Once(slice, range) else: qrunner = qrclass(slice, range) return qrunner def set_signals(loop): # Set up the SIGTERM handler for stopping the loop def sigterm_handler(signum, frame, loop=loop): # Exit the qrunner cleanly loop.stop() loop.status = signal.SIGTERM syslog('qrunner', '%s qrunner caught SIGTERM. Stopping.', loop.name()) signal.signal(signal.SIGTERM, sigterm_handler) # Set up the SIGINT handler for stopping the loop. For us, SIGINT is # the same as SIGTERM, but our parent treats the exit statuses # differently (it restarts a SIGINT but not a SIGTERM). def sigint_handler(signum, frame, loop=loop): # Exit the qrunner cleanly loop.stop() loop.status = signal.SIGINT syslog('qrunner', '%s qrunner caught SIGINT. Stopping.', loop.name()) signal.signal(signal.SIGINT, sigint_handler) # SIGHUP just tells us to close our log files. They'll be # automatically reopened at the next log print :) def sighup_handler(signum, frame, loop=loop): syslog.close() syslog('qrunner', '%s qrunner caught SIGHUP. Reopening logs.', loop.name()) signal.signal(signal.SIGHUP, sighup_handler) def main(): global AS_SUBPROC try: opts, args = getopt.getopt( sys.argv[1:], 'hlor:vs', ['help', 'list', 'once', 'runner=', 'verbose', 'subproc']) except getopt.error, msg: usage(1, msg) once = 0 runners = [] verbose = 0 for opt, arg in opts: if opt in ('-h', '--help'): usage(0) elif opt in ('-l', '--list'): for runnername, slices in mm_cfg.QRUNNERS: if runnername.endswith('Runner'): name = runnername[:-len('Runner')] else: name = runnername print C_('%(name)s runs the %(runnername)s qrunner') print C_('All runs all the above qrunners') sys.exit(0) elif opt in ('-o', '--once'): once = 1 elif opt in ('-r', '--runner'): runnerspec = arg parts = runnerspec.split(':') if len(parts) == 1: runner = parts[0] slice = 1 range = 1 elif len(parts) == 3: runner = parts[0] try: slice = int(parts[1]) range = int(parts[2]) except ValueError: usage(1, 'Bad runner specification: %(runnerspec)s') else: usage(1, 'Bad runner specification: %(runnerspec)s') if runner == 'All': for runnername, slices in mm_cfg.QRUNNERS: runners.append((runnername, slice, range)) else: if runner.endswith('Runner'): runners.append((runner, slice, range)) else: runners.append((runner + 'Runner', slice, range)) elif opt in ('-s', '--subproc'): AS_SUBPROC = 1 elif opt in ('-v', '--verbose'): verbose = 1 if len(args) <> 0: usage(1) if len(runners) == 0: usage(1, C_('No runner name given.')) # Before we startup qrunners, we redirect the stderr to mailman syslog. # We assume !AS_SUBPROC is running for debugging purpose and don't # log errors in mailman logs/error but keep printing to stderr. if AS_SUBPROC: LogStdErr('error', 'qrunner', manual_reprime=0, tee_to_real_stderr=0) # Fast track for one infinite runner if len(runners) == 1 and not once: qrunner = make_qrunner(*runners[0]) class Loop: status = 0 def __init__(self, qrunner): self.__qrunner = qrunner def name(self): return self.__qrunner.__class__.__name__ def stop(self): self.__qrunner.stop() loop = Loop(qrunner) set_signals(loop) # Now start up the main loop syslog('qrunner', '%s qrunner started.', loop.name()) qrunner.run() syslog('qrunner', '%s qrunner exiting.', loop.name()) else: # Anything else we have to handle a bit more specially qrunners = [] for runner, slice, range in runners: qrunner = make_qrunner(runner, slice, range, 1) qrunners.append(qrunner) # This class is used to manage the main loop class Loop: status = 0 def __init__(self): self.__isdone = 0 def name(self): return 'Main loop' def stop(self): self.__isdone = 1 def isdone(self): return self.__isdone loop = Loop() set_signals(loop) syslog('qrunner', 'Main qrunner loop started.') while not loop.isdone(): for qrunner in qrunners: # In case the SIGTERM came in the middle of this iteration if loop.isdone(): break if verbose: syslog('qrunner', 'Now doing a %s qrunner iteration', qrunner.__class__.__bases__[0].__name__) qrunner.run() if once: break if mm_cfg.QRUNNER_SLEEP_TIME > 0: time.sleep(mm_cfg.QRUNNER_SLEEP_TIME) syslog('qrunner', 'Main qrunner loop exiting.') # All done sys.exit(loop.status) if __name__ == '__main__': main()