"""Beat Scheduler Implementation.""" import datetime import logging import math from multiprocessing.util import Finalize from celery import current_app, schedules from celery.beat import ScheduleEntry, Scheduler from celery.utils.log import get_logger from celery.utils.time import maybe_make_aware from django.conf import settings from django.core.exceptions import ObjectDoesNotExist from django.db import close_old_connections, transaction from django.db.utils import DatabaseError, InterfaceError from kombu.utils.encoding import safe_repr, safe_str from kombu.utils.json import dumps, loads from .clockedschedule import clocked from .models import (ClockedSchedule, CrontabSchedule, IntervalSchedule, PeriodicTask, PeriodicTasks, SolarSchedule) from .utils import NEVER_CHECK_TIMEOUT # This scheduler must wake up more frequently than the # regular of 5 minutes because it needs to take external # changes to the schedule into account. DEFAULT_MAX_INTERVAL = 5 # seconds ADD_ENTRY_ERROR = """\ Cannot add entry %r to database schedule: %r. Contents: %r """ logger = get_logger(__name__) debug, info, warning = logger.debug, logger.info, logger.warning class ModelEntry(ScheduleEntry): """Scheduler entry taken from database row.""" model_schedules = ( (schedules.crontab, CrontabSchedule, 'crontab'), (schedules.schedule, IntervalSchedule, 'interval'), (schedules.solar, SolarSchedule, 'solar'), (clocked, ClockedSchedule, 'clocked') ) save_fields = ['last_run_at', 'total_run_count', 'no_changes'] def __init__(self, model, app=None): """Initialize the model entry.""" self.app = app or current_app._get_current_object() self.name = model.name self.task = model.task try: self.schedule = model.schedule except model.DoesNotExist: logger.error( 'Disabling schedule %s that was removed from database', self.name, ) self._disable(model) try: self.args = loads(model.args or '[]') self.kwargs = loads(model.kwargs or '{}') except ValueError as exc: logger.exception( 'Removing schedule %s for argument deseralization error: %r', self.name, exc, ) self._disable(model) self.options = {} for option in ['queue', 'exchange', 'routing_key', 'priority']: value = getattr(model, option) if value is None: continue self.options[option] = value if getattr(model, 'expires_', None): self.options['expires'] = getattr(model, 'expires_') self.options['headers'] = loads(model.headers or '{}') self.options['periodic_task_name'] = model.name self.total_run_count = model.total_run_count self.model = model if not model.last_run_at: model.last_run_at = self._default_now() # if last_run_at is not set and # model.start_time last_run_at should be in way past. # This will trigger the job to run at start_time # and avoid the heap block. if self.model.start_time: model.last_run_at = model.last_run_at \ - datetime.timedelta(days=365 * 30) self.last_run_at = model.last_run_at def _disable(self, model): model.no_changes = True model.enabled = False model.save() def is_due(self): if not self.model.enabled: # 5 second delay for re-enable. return schedules.schedstate(False, 5.0) # START DATE: only run after the `start_time`, if one exists. if self.model.start_time is not None: now = self._default_now() if getattr(settings, 'DJANGO_CELERY_BEAT_TZ_AWARE', True): now = maybe_make_aware(self._default_now()) if now < self.model.start_time: # The datetime is before the start date - don't run. # send a delay to retry on start_time delay = math.ceil( (self.model.start_time - now).total_seconds() ) return schedules.schedstate(False, delay) # ONE OFF TASK: Disable one off tasks after they've ran once if self.model.one_off and self.model.enabled \ and self.model.total_run_count > 0: self.model.enabled = False self.model.total_run_count = 0 # Reset self.model.no_changes = False # Mark the model entry as changed self.model.save() # Don't recheck return schedules.schedstate(False, NEVER_CHECK_TIMEOUT) # CAUTION: make_aware assumes settings.TIME_ZONE for naive datetimes, # while maybe_make_aware assumes utc for naive datetimes tz = self.app.timezone last_run_at_in_tz = maybe_make_aware(self.last_run_at).astimezone(tz) return self.schedule.is_due(last_run_at_in_tz) def _default_now(self): if getattr(settings, 'DJANGO_CELERY_BEAT_TZ_AWARE', True): now = datetime.datetime.now(self.app.timezone) else: # this ends up getting passed to maybe_make_aware, which expects # all naive datetime objects to be in utc time. now = datetime.datetime.utcnow() return now def __next__(self): self.model.last_run_at = self._default_now() self.model.total_run_count += 1 self.model.no_changes = True return self.__class__(self.model) next = __next__ # for 2to3 def save(self): # Object may not be synchronized, so only # change the fields we care about. obj = type(self.model)._default_manager.get(pk=self.model.pk) for field in self.save_fields: setattr(obj, field, getattr(self.model, field)) obj.save() @classmethod def to_model_schedule(cls, schedule): for schedule_type, model_type, model_field in cls.model_schedules: schedule = schedules.maybe_schedule(schedule) if isinstance(schedule, schedule_type): model_schedule = model_type.from_schedule(schedule) model_schedule.save() return model_schedule, model_field raise ValueError( f'Cannot convert schedule type {schedule!r} to model') @classmethod def from_entry(cls, name, app=None, **entry): obj, created = PeriodicTask._default_manager.update_or_create( name=name, defaults=cls._unpack_fields(**entry), ) return cls(obj, app=app) @classmethod def _unpack_fields(cls, schedule, args=None, kwargs=None, relative=None, options=None, **entry): entry_schedules = { model_field: None for _, _, model_field in cls.model_schedules } model_schedule, model_field = cls.to_model_schedule(schedule) entry_schedules[model_field] = model_schedule entry.update( entry_schedules, args=dumps(args or []), kwargs=dumps(kwargs or {}), **cls._unpack_options(**options or {}) ) return entry @classmethod def _unpack_options(cls, queue=None, exchange=None, routing_key=None, priority=None, headers=None, expire_seconds=None, **kwargs): return { 'queue': queue, 'exchange': exchange, 'routing_key': routing_key, 'priority': priority, 'headers': dumps(headers or {}), 'expire_seconds': expire_seconds, } def __repr__(self): return ''.format( safe_str(self.name), self.task, safe_repr(self.args), safe_repr(self.kwargs), self.schedule, ) class DatabaseScheduler(Scheduler): """Database-backed Beat Scheduler.""" Entry = ModelEntry Model = PeriodicTask Changes = PeriodicTasks _schedule = None _last_timestamp = None _initial_read = True _heap_invalidated = False def __init__(self, *args, **kwargs): """Initialize the database scheduler.""" self._dirty = set() Scheduler.__init__(self, *args, **kwargs) self._finalize = Finalize(self, self.sync, exitpriority=5) self.max_interval = ( kwargs.get('max_interval') or self.app.conf.beat_max_loop_interval or DEFAULT_MAX_INTERVAL) def setup_schedule(self): self.install_default_entries(self.schedule) self.update_from_dict(self.app.conf.beat_schedule) def all_as_schedule(self): debug('DatabaseScheduler: Fetching database schedule') s = {} for model in self.Model.objects.enabled(): try: s[model.name] = self.Entry(model, app=self.app) except ValueError: pass return s def schedule_changed(self): try: close_old_connections() # If MySQL is running with transaction isolation level # REPEATABLE-READ (default), then we won't see changes done by # other transactions until the current transaction is # committed (Issue #41). try: transaction.commit() except transaction.TransactionManagementError: pass # not in transaction management. last, ts = self._last_timestamp, self.Changes.last_change() except DatabaseError as exc: logger.exception('Database gave error: %r', exc) return False except InterfaceError: warning( 'DatabaseScheduler: InterfaceError in schedule_changed(), ' 'waiting to retry in next call...' ) return False try: if ts and ts > (last if last else ts): return True finally: self._last_timestamp = ts return False def reserve(self, entry): new_entry = next(entry) # Need to store entry by name, because the entry may change # in the mean time. self._dirty.add(new_entry.name) return new_entry def sync(self): if logger.isEnabledFor(logging.DEBUG): debug('Writing entries...') _tried = set() _failed = set() try: close_old_connections() while self._dirty: name = self._dirty.pop() try: self._schedule[name].save() _tried.add(name) except (KeyError, TypeError, ObjectDoesNotExist): _failed.add(name) except DatabaseError as exc: logger.exception('Database error while sync: %r', exc) except InterfaceError: warning( 'DatabaseScheduler: InterfaceError in sync(), ' 'waiting to retry in next call...' ) finally: # retry later, only for the failed ones self._dirty |= _failed def update_from_dict(self, mapping): s = {} for name, entry_fields in mapping.items(): try: entry = self.Entry.from_entry(name, app=self.app, **entry_fields) if entry.model.enabled: s[name] = entry except Exception as exc: logger.exception(ADD_ENTRY_ERROR, name, exc, entry_fields) self.schedule.update(s) def install_default_entries(self, data): entries = {} if self.app.conf.result_expires: entries.setdefault( 'celery.backend_cleanup', { 'task': 'celery.backend_cleanup', 'schedule': schedules.crontab('0', '4', '*'), 'options': {'expire_seconds': 12 * 3600}, }, ) self.update_from_dict(entries) def schedules_equal(self, *args, **kwargs): if self._heap_invalidated: self._heap_invalidated = False return False return super().schedules_equal(*args, **kwargs) @property def schedule(self): initial = update = False if self._initial_read: debug('DatabaseScheduler: initial read') initial = update = True self._initial_read = False elif self.schedule_changed(): info('DatabaseScheduler: Schedule changed.') update = True if update: self.sync() self._schedule = self.all_as_schedule() # the schedule changed, invalidate the heap in Scheduler.tick if not initial: self._heap = [] self._heap_invalidated = True if logger.isEnabledFor(logging.DEBUG): debug('Current schedule:\n%s', '\n'.join( repr(entry) for entry in self._schedule.values()), ) return self._schedule