Esempio n. 1
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class ComboLock:
    """ A combined process and thread lock.

    Arguments:
        path (str): path to the lockfile for the lock
    """
    def __init__(self, path):
        self.path = path
        self.plock = InterProcessLock(self.path)
        self.tlock = Lock()

    def acquire(self, blocking=True):
        """ Acquire lock, locks thread and process lock.

        Arguments:
            blocking(bool): Set's blocking mode of acquire operation.
                            Default True.

        Returns: True if lock succeeded otherwise False
        """
        # Create lock file if it doesn't exist and set permissions for
        # all users to lock/unlock
        if not exists(self.path):
            f = open(self.path, 'w+')
            f.close()
            chmod(self.path, 0o777)
        if not blocking:
            # Lock thread
            tlocked = self.tlock.acquire(blocking=False)
            if not tlocked:
                return False
            # Lock process
            plocked = self.plock.acquire(blocking=False)
            if not plocked:
                # Release thread lock if process couldn't be locked
                self.tlock.release()
                return False
        else:  # blocking, just wait and acquire ALL THE LOCKS!!!
            self.tlock.acquire()
            self.plock.acquire()
        return True

    def release(self):
        """ Release acquired lock. """
        self.plock.release()
        self.tlock.release()

    def __enter__(self):
        """ Context handler, acquires lock in blocking mode. """
        self.acquire()
        return self

    def __exit__(self, _type, value, traceback):
        """ Releases the lock. """
        self.release()
Esempio n. 2
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class ComboLock:
    """ A combined process and thread lock.

    Arguments:
        path (str): path to the lockfile for the lock
    """
    def __init__(self, path):
        # Create lock file if it doesn't exist and set permissions for
        # all users to lock/unlock
        if not exists(path):
            f = open(path, 'w+')
            f.close()
            chmod(path, 0o777)
        self.plock = InterProcessLock(path)
        self.tlock = Lock()

    def acquire(self, blocking=True):
        """ Acquire lock, locks thread and process lock.

        Arguments:
            blocking(bool): Set's blocking mode of acquire operation.
                            Default True.

        Returns: True if lock succeeded otherwise False
        """
        if not blocking:
            # Lock thread
            tlocked = self.tlock.acquire(blocking=False)
            if not tlocked:
                return False
            # Lock process
            plocked = self.plock.acquire(blocking=False)
            if not plocked:
                # Release thread lock if process couldn't be locked
                self.tlock.release()
                return False
        else:  # blocking, just wait and acquire ALL THE LOCKS!!!
            self.tlock.acquire()
            self.plock.acquire()
        return True

    def release(self):
        """ Release acquired lock. """
        self.plock.release()
        self.tlock.release()

    def __enter__(self):
        """ Context handler, acquires lock in blocking mode. """
        self.acquire()
        return self

    def __exit__(self, _type, value, traceback):
        """ Releases the lock. """
        self.release()
Esempio n. 3
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def _get_unused_port(start, end=65536):
    """Get an unused port in the range [start, end) .

    Args:
        start (int) : port range start
        end (int): port range end
    """
    process_lock = None
    unused_port = None
    try:
        for port in range(start, end):
            process_lock = InterProcessLock(
                path='/tmp/socialbot/{}.lock'.format(port))
            if not process_lock.acquire(blocking=False):
                process_lock.lockfile.close()
                process_lock = None
                continue
            try:
                with contextlib.closing(socket.socket()) as sock:
                    sock.bind(('', port))
                    unused_port = port
                    break
            except socket.error:
                process_lock.release()
                process_lock = None
        if unused_port is None:
            raise socket.error("No unused port in [{}, {})".format(start, end))
        yield unused_port
    finally:
        if process_lock is not None:
            process_lock.release()
Esempio n. 4
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 def __init__(self, start=4000, stop=6000):
     self.lock = None
     self.bind = None
     self.port = None
     from fasteners.process_lock import InterProcessLock
     import time
     while True:
         bind = BindFreePort(start, stop)
         if bind.port in self.used_ports:
             bind.release()
             continue
         '''
         Since we cannot be certain the user will bind the port 'immediately' (actually it is not possible using
         this flow. We must ensure that the port will not be reacquired even it is not bound to anything
         '''
         lock = InterProcessLock(
             path='/tmp/socialdna/port_{}_lock'.format(bind.port))
         success = lock.acquire(blocking=False)
         if success:
             self.lock = lock
             self.port = bind.port
             self.used_ports.add(bind.port)
             bind.release()
             break
         bind.release()
         time.sleep(0.01)
Esempio n. 5
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class ReducerStats(object):
    """ReducerStats holds stats for the Grizzly reducer.
    """
    FILE = "reducer-stats.json"
    PATH = grz_tmp("status")

    __slots__ = ("_file", "_lock", "error", "failed", "passed")

    def __init__(self):
        self._file = pathjoin(self.PATH, self.FILE)
        self._lock = None
        self.error = 0
        self.failed = 0
        self.passed = 0

    def __enter__(self):
        self._lock = InterProcessLock("%s.lock" % (self._file, ))
        self._lock.acquire()
        try:
            with open(self._file, "r") as in_fp:
                data = load(in_fp)
            self.error = data["error"]
            self.failed = data["failed"]
            self.passed = data["passed"]
        except KeyError:
            LOG.debug("invalid status data in %r", self._file)
        except OSError:
            LOG.debug("%r does not exist", self._file)
        except ValueError:
            LOG.debug("failed to load stats from %r", self._file)
        return self

    def __exit__(self, exc_type, exc_val, exc_tb):
        try:
            with open(self._file, "w") as out_fp:
                dump(
                    {
                        "error": self.error,
                        "failed": self.failed,
                        "passed": self.passed
                    }, out_fp)
        finally:
            if self._lock:
                self._lock.release()
                self._lock = None
Esempio n. 6
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 def get_next(self):
     a_lock = None
     locked = False
     try:
         a_lock = InterProcessLock(self.uid_pidlock_filepath)
         locked = a_lock.acquire(blocking=True)
         if locked:
             v = self.load_value()
             v_next = v + 1
             self.save_value(v_next)
             return v_next
     finally:
         if locked and a_lock is not None:
             a_lock.release()
Esempio n. 7
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def main():
    """Command line interface for the ``executor`` program."""
    # Enable logging to the terminal and system log.
    coloredlogs.install(syslog=True)
    # Command line option defaults.
    command_timeout = 0
    exclusive = False
    fudge_factor = 0
    lock_name = None
    lock_timeout = 0
    # Parse the command line options.
    try:
        options, arguments = getopt.getopt(sys.argv[1:], 'eT:l:t:f:vqh', [
            'exclusive', 'lock-timeout=', 'lock-file=', 'timeout=',
            'fudge-factor=', 'verbose', 'quiet', 'help',
        ])
        for option, value in options:
            if option in ('-e', '--exclusive'):
                exclusive = True
            elif option in ('-T', '--lock-timeout'):
                lock_timeout = parse_timespan(value)
            elif option in ('-l', '--lock-file'):
                lock_name = value
            elif option in ('-t', '--timeout'):
                command_timeout = parse_timespan(value)
            elif option in ('-f', '--fudge-factor'):
                fudge_factor = parse_timespan(value)
            elif option in ('-v', '--verbose'):
                coloredlogs.increase_verbosity()
            elif option in ('-q', '--quiet'):
                coloredlogs.decrease_verbosity()
            elif option in ('-h', '--help'):
                usage(__doc__)
                sys.exit(0)
            else:
                assert False, "Unhandled option!"
        # Make sure the operator provided a program to execute.
        if not arguments:
            usage(__doc__)
            sys.exit(0)
        # Make sure the program actually exists.
        program_name = arguments[0]
        if not os.path.isfile(program_name):
            # Only search the $PATH if the given program name
            # doesn't already include one or more path segments.
            if program_name == os.path.basename(program_name):
                matching_programs = which(program_name)
                if matching_programs:
                    program_name = matching_programs[0]
        # The subprocess.Popen() call later on doesn't search the $PATH so we
        # make sure to give it the absolute pathname to the program.
        arguments[0] = program_name
    except Exception as e:
        warning("Failed to parse command line arguments: %s", e)
        sys.exit(1)
    # Apply the requested fudge factor.
    apply_fudge_factor(fudge_factor)
    # Run the requested command.
    try:
        if exclusive:
            # Select a default lock file name?
            if not lock_name:
                lock_name = os.path.basename(arguments[0])
                logger.debug("Using base name of command as lock file name (%s).", lock_name)
            lock_file = get_lock_path(lock_name)
            lock = InterProcessLock(path=lock_file, logger=logger)
            logger.debug("Trying to acquire exclusive lock: %s", lock_file)
            if lock.acquire(blocking=(lock_timeout > 0), max_delay=lock_timeout):
                logger.info("Successfully acquired exclusive lock: %s", lock_file)
                run_command(arguments, timeout=command_timeout)
            else:
                logger.error("Failed to acquire exclusive lock: %s", lock_file)
                sys.exit(1)
        else:
            run_command(arguments, timeout=command_timeout)
    except ExternalCommandFailed as e:
        logger.error("%s", e.error_message)
        sys.exit(e.command.returncode)
Esempio n. 8
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def main():
    """Command line interface for the ``executor`` program."""
    # Enable logging to the terminal and system log.
    coloredlogs.install(syslog=True)
    # Command line option defaults.
    command_timeout = 0
    exclusive = False
    fudge_factor = 0
    lock_name = None
    lock_timeout = 0
    # Parse the command line options.
    try:
        options, arguments = getopt.getopt(sys.argv[1:], 'eT:l:t:f:vqh', [
            'exclusive', 'lock-timeout=', 'lock-file=', 'timeout=',
            'fudge-factor=', 'verbose', 'quiet', 'help',
        ])
        for option, value in options:
            if option in ('-e', '--exclusive'):
                exclusive = True
            elif option in ('-T', '--lock-timeout'):
                lock_timeout = parse_timespan(value)
            elif option in ('-l', '--lock-file'):
                lock_name = value
            elif option in ('-t', '--timeout'):
                command_timeout = parse_timespan(value)
            elif option in ('-f', '--fudge-factor'):
                fudge_factor = parse_timespan(value)
            elif option in ('-v', '--verbose'):
                coloredlogs.increase_verbosity()
            elif option in ('-q', '--quiet'):
                coloredlogs.decrease_verbosity()
            elif option in ('-h', '--help'):
                usage(__doc__)
                sys.exit(0)
            else:
                assert False, "Unhandled option!"
        # Make sure the operator provided a program to execute.
        if not arguments:
            usage(__doc__)
            sys.exit(0)
        # Make sure the program actually exists.
        program_name = arguments[0]
        if not os.path.isfile(program_name):
            # Only search the $PATH if the given program name
            # doesn't already include one or more path segments.
            if program_name == os.path.basename(program_name):
                matching_programs = which(program_name)
                if matching_programs:
                    program_name = matching_programs[0]
        # The subprocess.Popen() call later on doesn't search the $PATH so we
        # make sure to give it the absolute pathname to the program.
        arguments[0] = program_name
    except Exception as e:
        warning("Failed to parse command line arguments: %s", e)
        sys.exit(1)
    # Apply the requested fudge factor.
    apply_fudge_factor(fudge_factor)
    # Run the requested command.
    try:
        if exclusive:
            # Select a default lock file name?
            if not lock_name:
                lock_name = os.path.basename(arguments[0])
                logger.debug("Using base name of command as lock file name (%s).", lock_name)
            lock_file = get_lock_path(lock_name)
            lock = InterProcessLock(path=lock_file, logger=logger)
            logger.debug("Trying to acquire exclusive lock: %s", lock_file)
            if lock.acquire(blocking=(lock_timeout > 0), max_delay=lock_timeout):
                logger.info("Successfully acquired exclusive lock: %s", lock_file)
                run_command(arguments, timeout=command_timeout)
            else:
                logger.error("Failed to acquire exclusive lock: %s", lock_file)
                sys.exit(1)
        else:
            run_command(arguments, timeout=command_timeout)
    except ExternalCommandFailed as e:
        logger.error("%s", e.error_message)
        sys.exit(e.command.returncode)
Esempio n. 9
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    if do_collect:
        try:
            subprocess.check_output((bin_path('collect'), '--commands'),
                                    stderr=subprocess.STDOUT)
        except subprocess.CalledProcessError as e:
            log.error('collect --commands failed:\n{}',
                      e.output.decode('utf8'))

        # We don't want to hose the machine, so even when collecting fails, we
        # still wait for the configured interval.
        update_stamp(collect_stamp_file)

        try:
            subprocess.check_output((bin_path('submit'),),
                                    stderr=subprocess.STDOUT)
        except subprocess.CalledProcessError as e:
            log.error('submit failed:\n{}', e.output.decode('utf8'))
        else:
            update_stamp(submit_stamp_file)


if __name__ == '__main__':
    lock_file = os.path.join(var_dir, 'client-cron.lock')
    lock = InterProcessLock(lock_file)
    # Note: Not necessary to explicitly release the lock, since fasteners
    # guarantees that the lock is released when the process exits.
    if not lock.acquire(timeout=59, delay=1, max_delay=1):
        log.warn('Failed to acquire lock')
        sys.exit(1)
    main()
Esempio n. 10
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    if len(sys.argv) > 1:
        port = sys.argv[1]

    for i in range(2, len(sys.argv)):
        if sys.argv[i] == '--shutdown_on_idle':
            shutdown_on_idle = True
        if sys.argv[i] == '--launch_client':
            launch_client = True
        if sys.argv[i] == '--debug':
            debug = True

    app_data_path = Dirs.app_data_dir()
    lock_path = Dirs.app_data_dir() + '/lock'
    lock = Lock(lock_path)

    if lock.acquire(blocking=False):

        left_over_lock_files = glob.glob(app_data_path + '/*.lock')
        for left_over in left_over_lock_files:
            os.remove(left_over)

        server = Server(port, shutdown_on_idle=shutdown_on_idle, debug=debug)
        server.add_ports_opened_listener(_ports_opened)
        server.start()

    else:

        print('Server already running')

        if launch_client:
            server_found = False