Beispiel #1
0
    def __init__(self, invoker, config):
        self.invoker = invoker
        self.config = config

        self.logfile = config.LOGFILE
        self.loglevel = config.LOGLEVEL

        self.threads = config.THREADS
        self.periodic_commands = config.PERIODIC

        self.default_delay = config.INITIAL_DELAY
        self.backoff_factor = config.BACKOFF
        self.max_delay = config.MAX_DELAY

        self.utc = config.UTC

        # initialize delay
        self.delay = self.default_delay

        self.logger = self.get_logger()

        # queue to track messages to be processed
        self._queue = IterableQueue()
        self._pool = threading.BoundedSemaphore(self.threads)

        self._shutdown = threading.Event()

        # initialize the command schedule
        self.schedule = CommandSchedule(self.invoker)
Beispiel #2
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    def __init__(self, invoker, config):
        self.invoker = invoker
        self.config = config
        
        self.logfile = config.LOGFILE
        self.loglevel = config.LOGLEVEL
        
        self.threads = config.THREADS
        self.periodic_commands = config.PERIODIC

        self.default_delay = config.INITIAL_DELAY
        self.backoff_factor = config.BACKOFF
        self.max_delay = config.MAX_DELAY
        
        self.utc = config.UTC
        
        # initialize delay
        self.delay = self.default_delay
        
        self.logger = self.get_logger()
        
        # queue to track messages to be processed
        self._queue = IterableQueue()
        self._pool = threading.BoundedSemaphore(self.threads)
        
        self._shutdown = threading.Event()
        
        # initialize the command schedule
        self.schedule = CommandSchedule(self.invoker)
Beispiel #3
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    def test_revoke(self):
        ac = AddCommand(('k', 'v'))
        ac2 = AddCommand(('k2', 'v2'))
        ac3 = AddCommand(('k3', 'v3'))

        res_invoker.enqueue(ac)
        res_invoker.enqueue(ac2)
        res_invoker.enqueue(ac3)
        res_invoker.enqueue(ac2)
        res_invoker.enqueue(ac)

        self.assertEqual(len(res_queue), 5)
        res_invoker.revoke(ac2)

        schedule = CommandSchedule(res_invoker)

        while res_queue:
            cmd = res_invoker.dequeue()
            if schedule.can_run(cmd):
                res_invoker.execute(cmd)

        self.assertEqual(state, {'k': 'v', 'k3': 'v3'})
Beispiel #4
0
class Consumer(object):
    def __init__(self, invoker, config):
        self.invoker = invoker
        self.config = config
        
        self.logfile = config.LOGFILE
        self.loglevel = config.LOGLEVEL
        
        self.threads = config.THREADS
        self.periodic_commands = config.PERIODIC

        self.default_delay = config.INITIAL_DELAY
        self.backoff_factor = config.BACKOFF
        self.max_delay = config.MAX_DELAY
        
        self.utc = config.UTC
        
        # initialize delay
        self.delay = self.default_delay
        
        self.logger = self.get_logger()
        
        # queue to track messages to be processed
        self._queue = IterableQueue()
        self._pool = threading.BoundedSemaphore(self.threads)
        
        self._shutdown = threading.Event()
        
        # initialize the command schedule
        self.schedule = CommandSchedule(self.invoker)
    
    def get_logger(self):
        log = logging.getLogger('huey.consumer.logger')
        log.setLevel(self.loglevel)
        
        if not log.handlers and self.logfile:
            handler = RotatingFileHandler(self.logfile, maxBytes=1024*1024, backupCount=3)
            handler.setFormatter(logging.Formatter("%(asctime)s:%(name)s:%(levelname)s:%(message)s"))
            
            log.addHandler(handler)
        
        return log
    
    def get_now(self):
        if self.utc:
            return datetime.datetime.utcnow()
        else:
            return datetime.datetime.now()
    
    def spawn(self, func, *args, **kwargs):
        t = threading.Thread(target=func, args=args, kwargs=kwargs)
        t.daemon = True
        t.start()
        return t
    
    def start_periodic_task_scheduler(self):
        self.logger.info('starting periodic task scheduler thread')
        return self.spawn(self.schedule_periodic_tasks)
    
    def schedule_periodic_tasks(self):
        while not self._shutdown.is_set():
            start = time.time()
            self.enqueue_periodic_commands(self.get_now())
            time.sleep(60 - (time.time() - start))
    
    def start_scheduler(self):
        self.logger.info('starting scheduler thread')
        return self.spawn(self.schedule_commands)

    def schedule_commands(self):
        while not self._shutdown.is_set():
            start = time.time()
            self.check_schedule(self.get_now())
            
            # check schedule once per second
            delta = time.time() - start
            if delta < 1:
                time.sleep(1 - (time.time() - start))
    
    def check_schedule(self, dt):
        for command in self.schedule.commands():
            if self.schedule.should_run(command, dt):
                self.schedule.remove(command)
                self.invoker.enqueue(command)
    
    def enqueue_periodic_commands(self, dt):
        self.logger.debug('enqueueing periodic commands')
        
        for command in registry.get_periodic_commands():
            if command.validate_datetime(dt):
                self.invoker.enqueue(command)
    
    def start_message_receiver(self):
        self.logger.info('starting message receiver thread')
        return self.spawn(self.receive_messages)
    
    def receive_messages(self):
        while not self._shutdown.is_set():
            self.check_message()
    
    def check_message(self):
        try:
            command = self.invoker.dequeue()
        except QueueReadException:
            self.logger.error('error reading from queue', exc_info=1)
        except QueueException:
            self.logger.error('queue exception', exc_info=1)
        else:
            if not command and not self.invoker.blocking:
                # no new messages and our queue doesn't block, so sleep a bit before
                # checking again
                self.sleep()
            elif command:
                if self.schedule.should_run(command, self.get_now()):
                    self.process_command(command)
                else:
                    # schedule the command for execution
                    self.schedule.add(command)
    
    def process_command(self, command):
        self._pool.acquire()
        
        self.logger.info('processing: %s' % command)
        self.delay = self.default_delay

        # put the command into the queue for the worker pool
        self._queue.put(command)
        
        # wait to acknowledge receipt of the command
        self.logger.debug('waiting for receipt of command')
        self._queue.join()

    def sleep(self):
        if self.delay > self.max_delay:
            self.delay = self.max_delay
        
        self.logger.debug('no commands, sleeping for: %s' % self.delay)
        time.sleep(self.delay)
        
        self.delay *= self.backoff_factor
    
    def start_worker_pool(self):
        self.logger.info('starting worker threadpool')
        return self.spawn(self.worker_pool)
    
    def worker_pool(self):
        for job in self._queue:
            # spin up a worker with the given job
            self.spawn(self.worker, job)
            
            # indicate receipt of the task
            self._queue.task_done()
    
    def worker(self, command):        
        try:
            self.invoker.execute(command)
        except DataStorePutException:
            self.logger.warn('error storing result', exc_info=1)
        except:
            self.logger.error('unhandled exception in worker thread', exc_info=1)
            if command.retries:
                self.requeue_command(command)
        finally:
            self._pool.release()
    
    def requeue_command(self, command):
        command.retries -= 1
        self.logger.info('re-enqueueing task %s, %s tries left' % (command.task_id, command.retries))
        try:
            if command.retry_delay:
                delay = datetime.timedelta(seconds=command.retry_delay)
                command.execute_time = self.get_now() + delay
                self.schedule.add(command)
            else:
                self.invoker.enqueue(command)
        except QueueWriteException:
            self.logger.error('unable to re-enqueue %s, error writing to backend' % command.task_id)

    def start(self):
        self.load_schedule()
        
        self.start_scheduler()
        
        if self.periodic_commands:
            self.start_periodic_task_scheduler()
        
        self._receiver_t = self.start_message_receiver()
        self._worker_pool_t = self.start_worker_pool()
    
    def shutdown(self):
        self._shutdown.set()
        self._queue.put(StopIteration)
    
    def handle_signal(self, sig_num, frame):
        self.logger.info('received SIGTERM, shutting down')
        self.shutdown()
    
    def set_signal_handler(self):
        self.logger.info('setting signal handler')
        signal.signal(signal.SIGTERM, self.handle_signal)
    
    def load_schedule(self):
        self.logger.info('loading command schedule')
        self.schedule.load()
    
    def save_schedule(self):
        self.logger.info('saving command schedule')
        self.schedule.save()

    def log_registered_commands(self):
        msg = ['huey initialized with following commands']
        for command in registry._registry:
            msg.append('+ %s' % command)

        self.logger.info('\n'.join(msg))
    
    def run(self):
        self.set_signal_handler()

        self.log_registered_commands()
        
        try:
            self.start()
            
            # it seems that calling self._shutdown.wait() here prevents the
            # signal handler from executing
            while not self._shutdown.is_set():
                self._shutdown.wait(.1)
        except:
            self.logger.error('error', exc_info=1)
            self.shutdown()
        
        self.save_schedule()
        
        self.logger.info('shutdown...')
Beispiel #5
0
    def test_task_delay(self):
        schedule = CommandSchedule(res_invoker)
        curr = datetime.datetime.utcnow()
        curr50 = curr + datetime.timedelta(seconds=50)
        curr70 = curr + datetime.timedelta(seconds=70)

        add2.schedule(args=('k', 'v'), delay=60)
        cmd1 = res_invoker.dequeue()

        add2.schedule(args=('k2', 'v2'), delay=600)
        cmd2 = res_invoker.dequeue()

        add2('k3', 'v3')
        cmd3 = res_invoker.dequeue()

        # add the command to the schedule
        schedule.add(cmd1)
        schedule.add(cmd2)
        schedule.add(cmd3)

        # sanity check what should be run
        self.assertFalse(schedule.should_run(cmd1))
        self.assertFalse(schedule.should_run(cmd2))
        self.assertTrue(schedule.should_run(cmd3))

        self.assertFalse(schedule.should_run(cmd1, curr50))
        self.assertFalse(schedule.should_run(cmd2, curr50))
        self.assertTrue(schedule.should_run(cmd3, curr50))

        self.assertTrue(schedule.should_run(cmd1, curr70))
        self.assertFalse(schedule.should_run(cmd2, curr70))
        self.assertTrue(schedule.should_run(cmd3, curr70))
Beispiel #6
0
    def test_task_store(self):
        schedule = CommandSchedule(res_invoker)

        dt1 = datetime.datetime(2011, 1, 1, 0, 0)
        dt2 = datetime.datetime(2035, 1, 1, 0, 0)

        add2.schedule(args=('k', 'v'), eta=dt1)
        cmd1 = res_invoker.dequeue()

        add2.schedule(args=('k2', 'v2'), eta=dt2)
        cmd2 = res_invoker.dequeue()

        add2('k3', 'v3')
        cmd3 = res_invoker.dequeue()

        # add the command to the schedule
        schedule.add(cmd1)
        self.assertEqual(schedule.commands(), [cmd1])

        # cmd1 is in the schedule, cmd2 is not
        self.assertTrue(schedule.is_pending(cmd1))
        self.assertFalse(schedule.is_pending(cmd2))

        # multiple adds do not result in the list growing
        schedule.add(cmd1)
        self.assertEqual(schedule.commands(), [cmd1])

        # removing a non-existant cmd does not error
        schedule.remove(cmd2)

        # add a future-dated command
        schedule.add(cmd2)

        # sanity check what should be run
        self.assertTrue(schedule.should_run(cmd1))
        self.assertFalse(schedule.should_run(cmd2))
        self.assertTrue(schedule.should_run(cmd3))

        # check remove works
        schedule.remove(cmd1)
        self.assertEqual(schedule.commands(), [cmd2])

        # check saving works
        schedule.save()
        schedule._schedule = {}
        self.assertEqual(schedule.commands(), [])

        # check loading works
        schedule.load()
        self.assertEqual(schedule.commands(), [cmd2])

        schedule.add(cmd1)
        schedule.add(cmd3)
        schedule.save()
        schedule._schedule = {}

        schedule.load()
        self.assertEqual(len(schedule.commands()), 3)
        self.assertTrue(cmd1 in schedule.commands())
        self.assertTrue(cmd2 in schedule.commands())
        self.assertTrue(cmd3 in schedule.commands())
Beispiel #7
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    def test_task_store(self):
        schedule = CommandSchedule(res_invoker)

        dt1 = datetime.datetime(2011, 1, 1, 0, 0)
        dt2 = datetime.datetime(2035, 1, 1, 0, 0)

        add2.schedule(args=('k', 'v'), eta=dt1)
        cmd1 = res_invoker.dequeue()

        add2.schedule(args=('k2', 'v2'), eta=dt2)
        cmd2 = res_invoker.dequeue()

        add2('k3', 'v3')
        cmd3 = res_invoker.dequeue()

        # add the command to the schedule
        schedule.add(cmd1)
        self.assertEqual(schedule.commands(), [cmd1])

        # cmd1 is in the schedule, cmd2 is not
        self.assertTrue(schedule.is_pending(cmd1))
        self.assertFalse(schedule.is_pending(cmd2))

        # multiple adds do not result in the list growing
        schedule.add(cmd1)
        self.assertEqual(schedule.commands(), [cmd1])

        # removing a non-existant cmd does not error
        schedule.remove(cmd2)

        # add a future-dated command
        schedule.add(cmd2)

        # sanity check what should be run
        self.assertTrue(schedule.should_run(cmd1))
        self.assertFalse(schedule.should_run(cmd2))
        self.assertTrue(schedule.should_run(cmd3))

        # check remove works
        schedule.remove(cmd1)
        self.assertEqual(schedule.commands(), [cmd2])

        # check saving works
        schedule.save()
        schedule._schedule = {}
        self.assertEqual(schedule.commands(), [])

        # check loading works
        schedule.load()
        self.assertEqual(schedule.commands(), [cmd2])

        schedule.add(cmd1)
        schedule.add(cmd3)
        schedule.save()
        schedule._schedule = {}

        schedule.load()
        self.assertEqual(len(schedule.commands()), 3)
        self.assertTrue(cmd1 in schedule.commands())
        self.assertTrue(cmd2 in schedule.commands())
        self.assertTrue(cmd3 in schedule.commands())
Beispiel #8
0
class Consumer(object):
    def __init__(self, invoker, config):
        self.invoker = invoker
        self.config = config

        self.logfile = config.LOGFILE
        self.loglevel = config.LOGLEVEL

        self.threads = config.THREADS
        self.periodic_commands = config.PERIODIC

        self.default_delay = config.INITIAL_DELAY
        self.backoff_factor = config.BACKOFF
        self.max_delay = config.MAX_DELAY

        self.utc = config.UTC

        # initialize delay
        self.delay = self.default_delay

        self.logger = self.get_logger()

        # queue to track messages to be processed
        self._queue = IterableQueue()
        self._pool = threading.BoundedSemaphore(self.threads)

        self._shutdown = threading.Event()

        # initialize the command schedule
        self.schedule = CommandSchedule(self.invoker)

    def get_logger(self):
        log = logging.getLogger('huey.consumer.logger')
        log.setLevel(self.loglevel)

        if not log.handlers and self.logfile:
            handler = RotatingFileHandler(self.logfile,
                                          maxBytes=1024 * 1024,
                                          backupCount=3)
            handler.setFormatter(
                logging.Formatter(
                    "%(asctime)s:%(name)s:%(levelname)s:%(message)s"))

            log.addHandler(handler)

        return log

    def get_now(self):
        if self.utc:
            return datetime.datetime.utcnow()
        else:
            return datetime.datetime.now()

    def spawn(self, func, *args, **kwargs):
        t = threading.Thread(target=func, args=args, kwargs=kwargs)
        t.daemon = True
        t.start()
        return t

    def start_periodic_task_scheduler(self):
        self.logger.info('starting periodic task scheduler thread')
        return self.spawn(self.schedule_periodic_tasks)

    def schedule_periodic_tasks(self):
        while not self._shutdown.is_set():
            start = time.time()
            self.enqueue_periodic_commands(self.get_now())
            time.sleep(60 - (time.time() - start))

    def start_scheduler(self):
        self.logger.info('starting scheduler thread')
        return self.spawn(self.schedule_commands)

    def schedule_commands(self):
        while not self._shutdown.is_set():
            start = time.time()
            self.check_schedule(self.get_now())

            # check schedule once per second
            delta = time.time() - start
            if delta < 1:
                time.sleep(1 - (time.time() - start))

    def check_schedule(self, dt):
        for command in self.schedule.commands():
            if self.schedule.should_run(command, dt):
                self.schedule.remove(command)
                self.invoker.enqueue(command)

    def enqueue_periodic_commands(self, dt):
        self.logger.debug('enqueueing periodic commands')

        for command in registry.get_periodic_commands():
            if command.validate_datetime(dt):
                self.invoker.enqueue(command)

    def start_message_receiver(self):
        self.logger.info('starting message receiver thread')
        return self.spawn(self.receive_messages)

    def receive_messages(self):
        while not self._shutdown.is_set():
            self.check_message()

    def check_message(self):
        try:
            command = self.invoker.dequeue()
        except QueueReadException:
            self.logger.error('error reading from queue', exc_info=1)
        except QueueException:
            self.logger.error('queue exception', exc_info=1)
        else:
            if not command and not self.invoker.blocking:
                # no new messages and our queue doesn't block, so sleep a bit before
                # checking again
                self.sleep()
            elif command:
                if self.schedule.should_run(command, self.get_now()):
                    self.process_command(command)
                else:
                    # schedule the command for execution
                    self.schedule.add(command)

    def process_command(self, command):
        self._pool.acquire()

        self.logger.info('processing: %s' % command)
        self.delay = self.default_delay

        # put the command into the queue for the worker pool
        self._queue.put(command)

        # wait to acknowledge receipt of the command
        self.logger.debug('waiting for receipt of command')
        self._queue.join()

    def sleep(self):
        if self.delay > self.max_delay:
            self.delay = self.max_delay

        self.logger.debug('no commands, sleeping for: %s' % self.delay)
        time.sleep(self.delay)

        self.delay *= self.backoff_factor

    def start_worker_pool(self):
        self.logger.info('starting worker threadpool')
        return self.spawn(self.worker_pool)

    def worker_pool(self):
        for job in self._queue:
            # spin up a worker with the given job
            self.spawn(self.worker, job)

            # indicate receipt of the task
            self._queue.task_done()

    def worker(self, command):
        try:
            self.invoker.execute(command)
        except DataStorePutException:
            self.logger.warn('error storing result', exc_info=1)
        except:
            self.logger.error('unhandled exception in worker thread',
                              exc_info=1)
            if command.retries:
                self.requeue_command(command)
        finally:
            self._pool.release()

    def requeue_command(self, command):
        command.retries -= 1
        self.logger.info('re-enqueueing task %s, %s tries left' %
                         (command.task_id, command.retries))
        try:
            if command.retry_delay:
                delay = datetime.timedelta(seconds=command.retry_delay)
                command.execute_time = self.get_now() + delay
                self.schedule.add(command)
            else:
                self.invoker.enqueue(command)
        except QueueWriteException:
            self.logger.error(
                'unable to re-enqueue %s, error writing to backend' %
                command.task_id)

    def start(self):
        self.load_schedule()

        self.start_scheduler()

        if self.periodic_commands:
            self.start_periodic_task_scheduler()

        self._receiver_t = self.start_message_receiver()
        self._worker_pool_t = self.start_worker_pool()

    def shutdown(self):
        self._shutdown.set()
        self._queue.put(StopIteration)

    def handle_signal(self, sig_num, frame):
        self.logger.info('received SIGTERM, shutting down')
        self.shutdown()

    def set_signal_handler(self):
        self.logger.info('setting signal handler')
        signal.signal(signal.SIGTERM, self.handle_signal)

    def load_schedule(self):
        self.logger.info('loading command schedule')
        self.schedule.load()

    def save_schedule(self):
        self.logger.info('saving command schedule')
        self.schedule.save()

    def log_registered_commands(self):
        msg = ['huey initialized with following commands']
        for command in registry._registry:
            msg.append('+ %s' % command)

        self.logger.info('\n'.join(msg))

    def run(self):
        self.set_signal_handler()

        self.log_registered_commands()

        try:
            self.start()

            # it seems that calling self._shutdown.wait() here prevents the
            # signal handler from executing
            while not self._shutdown.is_set():
                self._shutdown.wait(.1)
        except:
            self.logger.error('error', exc_info=1)
            self.shutdown()

        self.save_schedule()

        self.logger.info('shutdown...')