This document describes the current stable version of Celery (5.2). For development docs, go here.

Source code for celery.beat

"""The periodic task scheduler."""

import copy
import errno
import heapq
import os
import shelve
import sys
import time
import traceback
from calendar import timegm
from collections import namedtuple
from functools import total_ordering
from threading import Event, Thread

from billiard import ensure_multiprocessing
from billiard.common import reset_signals
from billiard.context import Process
from kombu.utils.functional import maybe_evaluate, reprcall
from kombu.utils.objects import cached_property

from . import __version__, platforms, signals
from .exceptions import reraise
from .schedules import crontab, maybe_schedule
from .utils.imports import load_extension_class_names, symbol_by_name
from .utils.log import get_logger, iter_open_logger_fds
from .utils.time import humanize_seconds, maybe_make_aware

__all__ = (
    'SchedulingError', 'ScheduleEntry', 'Scheduler',
    'PersistentScheduler', 'Service', 'EmbeddedService',
)

event_t = namedtuple('event_t', ('time', 'priority', 'entry'))

logger = get_logger(__name__)
debug, info, error, warning = (logger.debug, logger.info,
                               logger.error, logger.warning)

DEFAULT_MAX_INTERVAL = 300  # 5 minutes


[docs]class SchedulingError(Exception): """An error occurred while scheduling a task."""
class BeatLazyFunc: """An lazy function declared in 'beat_schedule' and called before sending to worker. Example: beat_schedule = { 'test-every-5-minutes': { 'task': 'test', 'schedule': 300, 'kwargs': { "current": BeatCallBack(datetime.datetime.now) } } } """ def __init__(self, func, *args, **kwargs): self._func = func self._func_params = { "args": args, "kwargs": kwargs } def __call__(self): return self.delay() def delay(self): return self._func(*self._func_params["args"], **self._func_params["kwargs"])
[docs]@total_ordering class ScheduleEntry: """An entry in the scheduler. Arguments: name (str): see :attr:`name`. schedule (~celery.schedules.schedule): see :attr:`schedule`. args (Tuple): see :attr:`args`. kwargs (Dict): see :attr:`kwargs`. options (Dict): see :attr:`options`. last_run_at (~datetime.datetime): see :attr:`last_run_at`. total_run_count (int): see :attr:`total_run_count`. relative (bool): Is the time relative to when the server starts? """ #: The task name name = None #: The schedule (:class:`~celery.schedules.schedule`) schedule = None #: Positional arguments to apply. args = None #: Keyword arguments to apply. kwargs = None #: Task execution options. options = None #: The time and date of when this task was last scheduled. last_run_at = None #: Total number of times this task has been scheduled. total_run_count = 0 def __init__(self, name=None, task=None, last_run_at=None, total_run_count=None, schedule=None, args=(), kwargs=None, options=None, relative=False, app=None): self.app = app self.name = name self.task = task self.args = args self.kwargs = kwargs if kwargs else {} self.options = options if options else {} self.schedule = maybe_schedule(schedule, relative, app=self.app) self.last_run_at = last_run_at or self.default_now() self.total_run_count = total_run_count or 0
[docs] def default_now(self): return self.schedule.now() if self.schedule else self.app.now()
_default_now = default_now # compat def _next_instance(self, last_run_at=None): """Return new instance, with date and count fields updated.""" return self.__class__(**dict( self, last_run_at=last_run_at or self.default_now(), total_run_count=self.total_run_count + 1, )) __next__ = next = _next_instance # for 2to3 def __reduce__(self): return self.__class__, ( self.name, self.task, self.last_run_at, self.total_run_count, self.schedule, self.args, self.kwargs, self.options, )
[docs] def update(self, other): """Update values from another entry. Will only update "editable" fields: ``task``, ``schedule``, ``args``, ``kwargs``, ``options``. """ self.__dict__.update({ 'task': other.task, 'schedule': other.schedule, 'args': other.args, 'kwargs': other.kwargs, 'options': other.options, })
[docs] def is_due(self): """See :meth:`~celery.schedule.schedule.is_due`.""" return self.schedule.is_due(self.last_run_at)
def __iter__(self): return iter(vars(self).items()) def __repr__(self): return '<{name}: {0.name} {call} {0.schedule}'.format( self, call=reprcall(self.task, self.args or (), self.kwargs or {}), name=type(self).__name__, ) def __lt__(self, other): if isinstance(other, ScheduleEntry): # How the object is ordered doesn't really matter, as # in the scheduler heap, the order is decided by the # preceding members of the tuple ``(time, priority, entry)``. # # If all that's left to order on is the entry then it can # just as well be random. return id(self) < id(other) return NotImplemented
[docs] def editable_fields_equal(self, other): for attr in ('task', 'args', 'kwargs', 'options', 'schedule'): if getattr(self, attr) != getattr(other, attr): return False return True
def __eq__(self, other): """Test schedule entries equality. Will only compare "editable" fields: ``task``, ``schedule``, ``args``, ``kwargs``, ``options``. """ return self.editable_fields_equal(other) def __ne__(self, other): """Test schedule entries inequality. Will only compare "editable" fields: ``task``, ``schedule``, ``args``, ``kwargs``, ``options``. """ return not self == other
def _evaluate_entry_args(entry_args): if not entry_args: return [] return [ v() if isinstance(v, BeatLazyFunc) else v for v in entry_args ] def _evaluate_entry_kwargs(entry_kwargs): if not entry_kwargs: return {} return { k: v() if isinstance(v, BeatLazyFunc) else v for k, v in entry_kwargs.items() }
[docs]class Scheduler: """Scheduler for periodic tasks. The :program:`celery beat` program may instantiate this class multiple times for introspection purposes, but then with the ``lazy`` argument set. It's important for subclasses to be idempotent when this argument is set. Arguments: schedule (~celery.schedules.schedule): see :attr:`schedule`. max_interval (int): see :attr:`max_interval`. lazy (bool): Don't set up the schedule. """ Entry = ScheduleEntry #: The schedule dict/shelve. schedule = None #: Maximum time to sleep between re-checking the schedule. max_interval = DEFAULT_MAX_INTERVAL #: How often to sync the schedule (3 minutes by default) sync_every = 3 * 60 #: How many tasks can be called before a sync is forced. sync_every_tasks = None _last_sync = None _tasks_since_sync = 0 logger = logger # compat def __init__(self, app, schedule=None, max_interval=None, Producer=None, lazy=False, sync_every_tasks=None, **kwargs): self.app = app self.data = maybe_evaluate({} if schedule is None else schedule) self.max_interval = (max_interval or app.conf.beat_max_loop_interval or self.max_interval) self.Producer = Producer or app.amqp.Producer self._heap = None self.old_schedulers = None self.sync_every_tasks = ( app.conf.beat_sync_every if sync_every_tasks is None else sync_every_tasks) if not lazy: self.setup_schedule()
[docs] def install_default_entries(self, data): entries = {} if self.app.conf.result_expires and \ not self.app.backend.supports_autoexpire: if 'celery.backend_cleanup' not in data: entries['celery.backend_cleanup'] = { 'task': 'celery.backend_cleanup', 'schedule': crontab('0', '4', '*'), 'options': {'expires': 12 * 3600}} self.update_from_dict(entries)
[docs] def apply_entry(self, entry, producer=None): info('Scheduler: Sending due task %s (%s)', entry.name, entry.task) try: result = self.apply_async(entry, producer=producer, advance=False) except Exception as exc: # pylint: disable=broad-except error('Message Error: %s\n%s', exc, traceback.format_stack(), exc_info=True) else: debug('%s sent. id->%s', entry.task, result.id)
[docs] def adjust(self, n, drift=-0.010): if n and n > 0: return n + drift return n
[docs] def is_due(self, entry): return entry.is_due()
def _when(self, entry, next_time_to_run, mktime=timegm): """Return a utc timestamp, make sure heapq in currect order.""" adjust = self.adjust as_now = maybe_make_aware(entry.default_now()) return (mktime(as_now.utctimetuple()) + as_now.microsecond / 1e6 + (adjust(next_time_to_run) or 0))
[docs] def populate_heap(self, event_t=event_t, heapify=heapq.heapify): """Populate the heap with the data contained in the schedule.""" priority = 5 self._heap = [] for entry in self.schedule.values(): is_due, next_call_delay = entry.is_due() self._heap.append(event_t( self._when( entry, 0 if is_due else next_call_delay ) or 0, priority, entry )) heapify(self._heap)
# pylint disable=redefined-outer-name
[docs] def tick(self, event_t=event_t, min=min, heappop=heapq.heappop, heappush=heapq.heappush): """Run a tick - one iteration of the scheduler. Executes one due task per call. Returns: float: preferred delay in seconds for next call. """ adjust = self.adjust max_interval = self.max_interval if (self._heap is None or not self.schedules_equal(self.old_schedulers, self.schedule)): self.old_schedulers = copy.copy(self.schedule) self.populate_heap() H = self._heap if not H: return max_interval event = H[0] entry = event[2] is_due, next_time_to_run = self.is_due(entry) if is_due: verify = heappop(H) if verify is event: next_entry = self.reserve(entry) self.apply_entry(entry, producer=self.producer) heappush(H, event_t(self._when(next_entry, next_time_to_run), event[1], next_entry)) return 0 else: heappush(H, verify) return min(verify[0], max_interval) return min(adjust(next_time_to_run) or max_interval, max_interval)
[docs] def schedules_equal(self, old_schedules, new_schedules): if old_schedules is new_schedules is None: return True if old_schedules is None or new_schedules is None: return False if set(old_schedules.keys()) != set(new_schedules.keys()): return False for name, old_entry in old_schedules.items(): new_entry = new_schedules.get(name) if not new_entry: return False if new_entry != old_entry: return False return True
[docs] def should_sync(self): return ( (not self._last_sync or (time.monotonic() - self._last_sync) > self.sync_every) or (self.sync_every_tasks and self._tasks_since_sync >= self.sync_every_tasks) )
[docs] def reserve(self, entry): new_entry = self.schedule[entry.name] = next(entry) return new_entry
[docs] def apply_async(self, entry, producer=None, advance=True, **kwargs): # Update time-stamps and run counts before we actually execute, # so we have that done if an exception is raised (doesn't schedule # forever.) entry = self.reserve(entry) if advance else entry task = self.app.tasks.get(entry.task) try: entry_args = _evaluate_entry_args(entry.args) entry_kwargs = _evaluate_entry_kwargs(entry.kwargs) if task: return task.apply_async(entry_args, entry_kwargs, producer=producer, **entry.options) else: return self.send_task(entry.task, entry_args, entry_kwargs, producer=producer, **entry.options) except Exception as exc: # pylint: disable=broad-except reraise(SchedulingError, SchedulingError( "Couldn't apply scheduled task {0.name}: {exc}".format( entry, exc=exc)), sys.exc_info()[2]) finally: self._tasks_since_sync += 1 if self.should_sync(): self._do_sync()
[docs] def send_task(self, *args, **kwargs): return self.app.send_task(*args, **kwargs)
[docs] def setup_schedule(self): self.install_default_entries(self.data) self.merge_inplace(self.app.conf.beat_schedule)
def _do_sync(self): try: debug('beat: Synchronizing schedule...') self.sync() finally: self._last_sync = time.monotonic() self._tasks_since_sync = 0
[docs] def sync(self): pass
[docs] def close(self): self.sync()
[docs] def add(self, **kwargs): entry = self.Entry(app=self.app, **kwargs) self.schedule[entry.name] = entry return entry
def _maybe_entry(self, name, entry): if isinstance(entry, self.Entry): entry.app = self.app return entry return self.Entry(**dict(entry, name=name, app=self.app))
[docs] def update_from_dict(self, dict_): self.schedule.update({ name: self._maybe_entry(name, entry) for name, entry in dict_.items() })
[docs] def merge_inplace(self, b): schedule = self.schedule A, B = set(schedule), set(b) # Remove items from disk not in the schedule anymore. for key in A ^ B: schedule.pop(key, None) # Update and add new items in the schedule for key in B: entry = self.Entry(**dict(b[key], name=key, app=self.app)) if schedule.get(key): schedule[key].update(entry) else: schedule[key] = entry
def _ensure_connected(self): # callback called for each retry while the connection # can't be established. def _error_handler(exc, interval): error('beat: Connection error: %s. ' 'Trying again in %s seconds...', exc, interval) return self.connection.ensure_connection( _error_handler, self.app.conf.broker_connection_max_retries )
[docs] def get_schedule(self): return self.data
[docs] def set_schedule(self, schedule): self.data = schedule
schedule = property(get_schedule, set_schedule) @cached_property def connection(self): return self.app.connection_for_write() @cached_property def producer(self): return self.Producer(self._ensure_connected(), auto_declare=False) @property def info(self): return ''
[docs]class PersistentScheduler(Scheduler): """Scheduler backed by :mod:`shelve` database.""" persistence = shelve known_suffixes = ('', '.db', '.dat', '.bak', '.dir') _store = None def __init__(self, *args, **kwargs): self.schedule_filename = kwargs.get('schedule_filename') super().__init__(*args, **kwargs) def _remove_db(self): for suffix in self.known_suffixes: with platforms.ignore_errno(errno.ENOENT): os.remove(self.schedule_filename + suffix) def _open_schedule(self): return self.persistence.open(self.schedule_filename, writeback=True) def _destroy_open_corrupted_schedule(self, exc): error('Removing corrupted schedule file %r: %r', self.schedule_filename, exc, exc_info=True) self._remove_db() return self._open_schedule()
[docs] def setup_schedule(self): try: self._store = self._open_schedule() # In some cases there may be different errors from a storage # backend for corrupted files. Example - DBPageNotFoundError # exception from bsddb. In such case the file will be # successfully opened but the error will be raised on first key # retrieving. self._store.keys() except Exception as exc: # pylint: disable=broad-except self._store = self._destroy_open_corrupted_schedule(exc) self._create_schedule() tz = self.app.conf.timezone stored_tz = self._store.get('tz') if stored_tz is not None and stored_tz != tz: warning('Reset: Timezone changed from %r to %r', stored_tz, tz) self._store.clear() # Timezone changed, reset db! utc = self.app.conf.enable_utc stored_utc = self._store.get('utc_enabled') if stored_utc is not None and stored_utc != utc: choices = {True: 'enabled', False: 'disabled'} warning('Reset: UTC changed from %s to %s', choices[stored_utc], choices[utc]) self._store.clear() # UTC setting changed, reset db! entries = self._store.setdefault('entries', {}) self.merge_inplace(self.app.conf.beat_schedule) self.install_default_entries(self.schedule) self._store.update({ '__version__': __version__, 'tz': tz, 'utc_enabled': utc, }) self.sync() debug('Current schedule:\n' + '\n'.join( repr(entry) for entry in entries.values()))
def _create_schedule(self): for _ in (1, 2): try: self._store['entries'] except KeyError: # new schedule db try: self._store['entries'] = {} except KeyError as exc: self._store = self._destroy_open_corrupted_schedule(exc) continue else: if '__version__' not in self._store: warning('DB Reset: Account for new __version__ field') self._store.clear() # remove schedule at 2.2.2 upgrade. elif 'tz' not in self._store: warning('DB Reset: Account for new tz field') self._store.clear() # remove schedule at 3.0.8 upgrade elif 'utc_enabled' not in self._store: warning('DB Reset: Account for new utc_enabled field') self._store.clear() # remove schedule at 3.0.9 upgrade break
[docs] def get_schedule(self): return self._store['entries']
[docs] def set_schedule(self, schedule): self._store['entries'] = schedule
schedule = property(get_schedule, set_schedule)
[docs] def sync(self): if self._store is not None: self._store.sync()
[docs] def close(self): self.sync() self._store.close()
@property def info(self): return f' . db -> {self.schedule_filename}'
[docs]class Service: """Celery periodic task service.""" scheduler_cls = PersistentScheduler def __init__(self, app, max_interval=None, schedule_filename=None, scheduler_cls=None): self.app = app self.max_interval = (max_interval or app.conf.beat_max_loop_interval) self.scheduler_cls = scheduler_cls or self.scheduler_cls self.schedule_filename = ( schedule_filename or app.conf.beat_schedule_filename) self._is_shutdown = Event() self._is_stopped = Event() def __reduce__(self): return self.__class__, (self.max_interval, self.schedule_filename, self.scheduler_cls, self.app)
[docs] def start(self, embedded_process=False): info('beat: Starting...') debug('beat: Ticking with max interval->%s', humanize_seconds(self.scheduler.max_interval)) signals.beat_init.send(sender=self) if embedded_process: signals.beat_embedded_init.send(sender=self) platforms.set_process_title('celery beat') try: while not self._is_shutdown.is_set(): interval = self.scheduler.tick() if interval and interval > 0.0: debug('beat: Waking up %s.', humanize_seconds(interval, prefix='in ')) time.sleep(interval) if self.scheduler.should_sync(): self.scheduler._do_sync() except (KeyboardInterrupt, SystemExit): self._is_shutdown.set() finally: self.sync()
[docs] def sync(self): self.scheduler.close() self._is_stopped.set()
[docs] def stop(self, wait=False): info('beat: Shutting down...') self._is_shutdown.set() wait and self._is_stopped.wait() # block until shutdown done.
[docs] def get_scheduler(self, lazy=False, extension_namespace='celery.beat_schedulers'): filename = self.schedule_filename aliases = dict(load_extension_class_names(extension_namespace)) return symbol_by_name(self.scheduler_cls, aliases=aliases)( app=self.app, schedule_filename=filename, max_interval=self.max_interval, lazy=lazy, )
@cached_property def scheduler(self): return self.get_scheduler()
class _Threaded(Thread): """Embedded task scheduler using threading.""" def __init__(self, app, **kwargs): super().__init__() self.app = app self.service = Service(app, **kwargs) self.daemon = True self.name = 'Beat' def run(self): self.app.set_current() self.service.start() def stop(self): self.service.stop(wait=True) try: ensure_multiprocessing() except NotImplementedError: # pragma: no cover _Process = None else: class _Process(Process): def __init__(self, app, **kwargs): super().__init__() self.app = app self.service = Service(app, **kwargs) self.name = 'Beat' def run(self): reset_signals(full=False) platforms.close_open_fds([ sys.__stdin__, sys.__stdout__, sys.__stderr__, ] + list(iter_open_logger_fds())) self.app.set_default() self.app.set_current() self.service.start(embedded_process=True) def stop(self): self.service.stop() self.terminate()
[docs]def EmbeddedService(app, max_interval=None, **kwargs): """Return embedded clock service. Arguments: thread (bool): Run threaded instead of as a separate process. Uses :mod:`multiprocessing` by default, if available. """ if kwargs.pop('thread', False) or _Process is None: # Need short max interval to be able to stop thread # in reasonable time. return _Threaded(app, max_interval=1, **kwargs) return _Process(app, max_interval=max_interval, **kwargs)