"""Database models.""" try: from zoneinfo import available_timezones except ImportError: from backports.zoneinfo import available_timezones from datetime import timedelta import timezone_field from celery import current_app, schedules from cron_descriptor import (FormatException, MissingFieldException, WrongArgumentException, get_description) from django.conf import settings from django.core.exceptions import MultipleObjectsReturned, ValidationError from django.core.validators import MaxValueValidator, MinValueValidator from django.db import models from django.utils.translation import gettext_lazy as _ from . import querysets, validators from .clockedschedule import clocked from .tzcrontab import TzAwareCrontab from .utils import make_aware, now DAYS = 'days' HOURS = 'hours' MINUTES = 'minutes' SECONDS = 'seconds' MICROSECONDS = 'microseconds' PERIOD_CHOICES = ( (DAYS, _('Days')), (HOURS, _('Hours')), (MINUTES, _('Minutes')), (SECONDS, _('Seconds')), (MICROSECONDS, _('Microseconds')), ) SINGULAR_PERIODS = ( (DAYS, _('Day')), (HOURS, _('Hour')), (MINUTES, _('Minute')), (SECONDS, _('Second')), (MICROSECONDS, _('Microsecond')), ) SOLAR_SCHEDULES = [ ("dawn_astronomical", _("Astronomical dawn")), ("dawn_civil", _("Civil dawn")), ("dawn_nautical", _("Nautical dawn")), ("dusk_astronomical", _("Astronomical dusk")), ("dusk_civil", _("Civil dusk")), ("dusk_nautical", _("Nautical dusk")), ("solar_noon", _("Solar noon")), ("sunrise", _("Sunrise")), ("sunset", _("Sunset")), ] def cronexp(field): """Representation of cron expression.""" return field and str(field).replace(' ', '') or '*' def crontab_schedule_celery_timezone(): """Return timezone string from Django settings ``CELERY_TIMEZONE`` variable. If is not defined or is not a valid timezone, return ``"UTC"`` instead. """ # noqa: E501 try: CELERY_TIMEZONE = getattr( settings, '%s_TIMEZONE' % current_app.namespace) except AttributeError: return 'UTC' if CELERY_TIMEZONE in available_timezones(): return CELERY_TIMEZONE return 'UTC' class SolarSchedule(models.Model): """Schedule following astronomical patterns. Example: to run every sunrise in New York City: >>> event='sunrise', latitude=40.7128, longitude=74.0060 """ event = models.CharField( max_length=24, choices=SOLAR_SCHEDULES, verbose_name=_('Solar Event'), help_text=_('The type of solar event when the job should run'), ) latitude = models.DecimalField( max_digits=9, decimal_places=6, verbose_name=_('Latitude'), help_text=_('Run the task when the event happens at this latitude'), validators=[MinValueValidator(-90), MaxValueValidator(90)], ) longitude = models.DecimalField( max_digits=9, decimal_places=6, verbose_name=_('Longitude'), help_text=_('Run the task when the event happens at this longitude'), validators=[MinValueValidator(-180), MaxValueValidator(180)], ) class Meta: """Table information.""" verbose_name = _('solar event') verbose_name_plural = _('solar events') ordering = ('event', 'latitude', 'longitude') unique_together = ('event', 'latitude', 'longitude') @property def schedule(self): return schedules.solar(self.event, self.latitude, self.longitude, nowfun=lambda: make_aware(now())) @classmethod def from_schedule(cls, schedule): spec = {'event': schedule.event, 'latitude': schedule.lat, 'longitude': schedule.lon} # we do not check for MultipleObjectsReturned exception here because # the unique_together constraint safely prevents from duplicates try: return cls.objects.get(**spec) except cls.DoesNotExist: return cls(**spec) def __str__(self): return '{} ({}, {})'.format( self.get_event_display(), self.latitude, self.longitude ) class IntervalSchedule(models.Model): """Schedule executing on a regular interval. Example: execute every 2 days: >>> every=2, period=DAYS """ DAYS = DAYS HOURS = HOURS MINUTES = MINUTES SECONDS = SECONDS MICROSECONDS = MICROSECONDS PERIOD_CHOICES = PERIOD_CHOICES every = models.IntegerField( null=False, verbose_name=_('Number of Periods'), help_text=_('Number of interval periods to wait before ' 'running the task again'), validators=[MinValueValidator(1)], ) period = models.CharField( max_length=24, choices=PERIOD_CHOICES, verbose_name=_('Interval Period'), help_text=_('The type of period between task runs (Example: days)'), ) class Meta: """Table information.""" verbose_name = _('interval') verbose_name_plural = _('intervals') ordering = ['period', 'every'] @property def schedule(self): return schedules.schedule( timedelta(**{self.period: self.every}), nowfun=lambda: make_aware(now()) ) @classmethod def from_schedule(cls, schedule, period=SECONDS): every = max(schedule.run_every.total_seconds(), 0) try: return cls.objects.get(every=every, period=period) except cls.DoesNotExist: return cls(every=every, period=period) except MultipleObjectsReturned: return cls.objects.filter(every=every, period=period).first() def __str__(self): readable_period = None if self.every == 1: for period, _readable_period in SINGULAR_PERIODS: if period == self.period: readable_period = _readable_period.lower() break return _('every {}').format(readable_period) for period, _readable_period in PERIOD_CHOICES: if period == self.period: readable_period = _readable_period.lower() break return _('every {} {}').format(self.every, readable_period) @property def period_singular(self): return self.period[:-1] class ClockedSchedule(models.Model): """clocked schedule.""" clocked_time = models.DateTimeField( verbose_name=_('Clock Time'), help_text=_('Run the task at clocked time'), ) class Meta: """Table information.""" verbose_name = _('clocked') verbose_name_plural = _('clocked') ordering = ['clocked_time'] def __str__(self): return f'{make_aware(self.clocked_time)}' @property def schedule(self): c = clocked(clocked_time=self.clocked_time) return c @classmethod def from_schedule(cls, schedule): spec = {'clocked_time': schedule.clocked_time} try: return cls.objects.get(**spec) except cls.DoesNotExist: return cls(**spec) except MultipleObjectsReturned: return cls.objects.filter(**spec).first() class CrontabSchedule(models.Model): """Timezone Aware Crontab-like schedule. Example: Run every hour at 0 minutes for days of month 10-15: >>> minute="0", hour="*", day_of_week="*", ... day_of_month="10-15", month_of_year="*" """ # # The worst case scenario for day of month is a list of all 31 day numbers # '[1, 2, ..., 31]' which has a length of 115. Likewise, minute can be # 0..59 and hour can be 0..23. Ensure we can accomodate these by allowing # 4 chars for each value (what we save on 0-9 accomodates the []). # We leave the other fields at their historical length. # minute = models.CharField( max_length=60 * 4, default='*', verbose_name=_('Minute(s)'), help_text=_( 'Cron Minutes to Run. Use "*" for "all". (Example: "0,30")'), validators=[validators.minute_validator], ) hour = models.CharField( max_length=24 * 4, default='*', verbose_name=_('Hour(s)'), help_text=_( 'Cron Hours to Run. Use "*" for "all". (Example: "8,20")'), validators=[validators.hour_validator], ) day_of_month = models.CharField( max_length=31 * 4, default='*', verbose_name=_('Day(s) Of The Month'), help_text=_( 'Cron Days Of The Month to Run. Use "*" for "all". ' '(Example: "1,15")'), validators=[validators.day_of_month_validator], ) month_of_year = models.CharField( max_length=64, default='*', verbose_name=_('Month(s) Of The Year'), help_text=_( 'Cron Months (1-12) Of The Year to Run. Use "*" for "all". ' '(Example: "1,12")'), validators=[validators.month_of_year_validator], ) day_of_week = models.CharField( max_length=64, default='*', verbose_name=_('Day(s) Of The Week'), help_text=_( 'Cron Days Of The Week to Run. Use "*" for "all", Sunday ' 'is 0 or 7, Monday is 1. (Example: "0,5")'), validators=[validators.day_of_week_validator], ) timezone = timezone_field.TimeZoneField( default=crontab_schedule_celery_timezone, use_pytz=False, verbose_name=_('Cron Timezone'), help_text=_( 'Timezone to Run the Cron Schedule on. Default is UTC.'), ) class Meta: """Table information.""" verbose_name = _('crontab') verbose_name_plural = _('crontabs') ordering = ['month_of_year', 'day_of_month', 'day_of_week', 'hour', 'minute', 'timezone'] @property def human_readable(self): try: c = schedules.crontab( minute=self.minute, hour=self.hour, day_of_week=self.day_of_week, day_of_month=self.day_of_month, month_of_year=self.month_of_year, ) day_of_week = cronexp(",".join(str(day) for day in c.day_of_week)) except ValueError: day_of_week = cronexp(self.day_of_week) cron_expression = '{} {} {} {} {}'.format( cronexp(self.minute), cronexp(self.hour), cronexp(self.day_of_month), cronexp(self.month_of_year), day_of_week ) try: human_readable = get_description(cron_expression) except ( MissingFieldException, FormatException, WrongArgumentException ): return f'{cron_expression} {str(self.timezone)}' return f'{human_readable} {str(self.timezone)}' def __str__(self): return '{} {} {} {} {} (m/h/dM/MY/d) {}'.format( cronexp(self.minute), cronexp(self.hour), cronexp(self.day_of_month), cronexp(self.month_of_year), cronexp(self.day_of_week), str(self.timezone) ) @property def schedule(self): crontab = schedules.crontab( minute=self.minute, hour=self.hour, day_of_week=self.day_of_week, day_of_month=self.day_of_month, month_of_year=self.month_of_year, ) if getattr(settings, 'DJANGO_CELERY_BEAT_TZ_AWARE', True): crontab = TzAwareCrontab( minute=self.minute, hour=self.hour, day_of_week=self.day_of_week, day_of_month=self.day_of_month, month_of_year=self.month_of_year, tz=self.timezone ) return crontab @classmethod def from_schedule(cls, schedule): spec = {'minute': schedule._orig_minute, 'hour': schedule._orig_hour, 'day_of_week': schedule._orig_day_of_week, 'day_of_month': schedule._orig_day_of_month, 'month_of_year': schedule._orig_month_of_year, 'timezone': schedule.tz } try: return cls.objects.get(**spec) except cls.DoesNotExist: return cls(**spec) except MultipleObjectsReturned: return cls.objects.filter(**spec).first() class PeriodicTasks(models.Model): """Helper table for tracking updates to periodic tasks. This stores a single row with ``ident=1``. ``last_update`` is updated via signals whenever anything changes in the :class:`~.PeriodicTask` model. Basically this acts like a DB data audit trigger. Doing this so we also track deletions, and not just insert/update. """ ident = models.SmallIntegerField(default=1, primary_key=True, unique=True) last_update = models.DateTimeField(null=False) class Meta: verbose_name = _('periodic task track') verbose_name_plural = _('periodic task tracks') @classmethod def changed(cls, instance, **kwargs): if not instance.no_changes: cls.update_changed() @classmethod def update_changed(cls, **kwargs): cls.objects.update_or_create(ident=1, defaults={'last_update': now()}) @classmethod def last_change(cls): try: return cls.objects.get(ident=1).last_update except cls.DoesNotExist: pass class PeriodicTask(models.Model): """Model representing a periodic task.""" name = models.CharField( max_length=200, unique=True, verbose_name=_('Name'), help_text=_('Short Description For This Task'), ) task = models.CharField( max_length=200, verbose_name='Task Name', help_text=_('The Name of the Celery Task that Should be Run. ' '(Example: "proj.tasks.import_contacts")'), ) # You can only set ONE of the following schedule FK's # TODO: Redo this as a GenericForeignKey interval = models.ForeignKey( IntervalSchedule, on_delete=models.CASCADE, null=True, blank=True, verbose_name=_('Interval Schedule'), help_text=_('Interval Schedule to run the task on. ' 'Set only one schedule type, leave the others null.'), ) crontab = models.ForeignKey( CrontabSchedule, on_delete=models.CASCADE, null=True, blank=True, verbose_name=_('Crontab Schedule'), help_text=_('Crontab Schedule to run the task on. ' 'Set only one schedule type, leave the others null.'), ) solar = models.ForeignKey( SolarSchedule, on_delete=models.CASCADE, null=True, blank=True, verbose_name=_('Solar Schedule'), help_text=_('Solar Schedule to run the task on. ' 'Set only one schedule type, leave the others null.'), ) clocked = models.ForeignKey( ClockedSchedule, on_delete=models.CASCADE, null=True, blank=True, verbose_name=_('Clocked Schedule'), help_text=_('Clocked Schedule to run the task on. ' 'Set only one schedule type, leave the others null.'), ) # TODO: use django's JsonField args = models.TextField( blank=True, default='[]', verbose_name=_('Positional Arguments'), help_text=_( 'JSON encoded positional arguments ' '(Example: ["arg1", "arg2"])'), ) kwargs = models.TextField( blank=True, default='{}', verbose_name=_('Keyword Arguments'), help_text=_( 'JSON encoded keyword arguments ' '(Example: {"argument": "value"})'), ) queue = models.CharField( max_length=200, blank=True, null=True, default=None, verbose_name=_('Queue Override'), help_text=_( 'Queue defined in CELERY_TASK_QUEUES. ' 'Leave None for default queuing.'), ) # you can use low-level AMQP routing options here, # but you almost certaily want to leave these as None # http://docs.celeryproject.org/en/latest/userguide/routing.html#exchanges-queues-and-routing-keys exchange = models.CharField( max_length=200, blank=True, null=True, default=None, verbose_name=_('Exchange'), help_text=_('Override Exchange for low-level AMQP routing'), ) routing_key = models.CharField( max_length=200, blank=True, null=True, default=None, verbose_name=_('Routing Key'), help_text=_('Override Routing Key for low-level AMQP routing'), ) headers = models.TextField( blank=True, default='{}', verbose_name=_('AMQP Message Headers'), help_text=_('JSON encoded message headers for the AMQP message.'), ) priority = models.PositiveIntegerField( default=None, validators=[MaxValueValidator(255)], blank=True, null=True, verbose_name=_('Priority'), help_text=_( 'Priority Number between 0 and 255. ' 'Supported by: RabbitMQ, Redis (priority reversed, 0 is highest).') ) expires = models.DateTimeField( blank=True, null=True, verbose_name=_('Expires Datetime'), help_text=_( 'Datetime after which the schedule will no longer ' 'trigger the task to run'), ) expire_seconds = models.PositiveIntegerField( blank=True, null=True, verbose_name=_('Expires timedelta with seconds'), help_text=_( 'Timedelta with seconds which the schedule will no longer ' 'trigger the task to run'), ) one_off = models.BooleanField( default=False, verbose_name=_('One-off Task'), help_text=_( 'If True, the schedule will only run the task a single time'), ) start_time = models.DateTimeField( blank=True, null=True, verbose_name=_('Start Datetime'), help_text=_( 'Datetime when the schedule should begin ' 'triggering the task to run'), ) enabled = models.BooleanField( default=True, verbose_name=_('Enabled'), help_text=_('Set to False to disable the schedule'), ) last_run_at = models.DateTimeField( auto_now=False, auto_now_add=False, editable=False, blank=True, null=True, verbose_name=_('Last Run Datetime'), help_text=_( 'Datetime that the schedule last triggered the task to run. ' 'Reset to None if enabled is set to False.'), ) total_run_count = models.PositiveIntegerField( default=0, editable=False, verbose_name=_('Total Run Count'), help_text=_( 'Running count of how many times the schedule ' 'has triggered the task'), ) date_changed = models.DateTimeField( auto_now=True, verbose_name=_('Last Modified'), help_text=_('Datetime that this PeriodicTask was last modified'), ) description = models.TextField( blank=True, verbose_name=_('Description'), help_text=_( 'Detailed description about the details of this Periodic Task'), ) objects = querysets.PeriodicTaskQuerySet.as_manager() no_changes = False class Meta: """Table information.""" verbose_name = _('periodic task') verbose_name_plural = _('periodic tasks') def validate_unique(self, *args, **kwargs): super().validate_unique(*args, **kwargs) schedule_types = ['interval', 'crontab', 'solar', 'clocked'] selected_schedule_types = [s for s in schedule_types if getattr(self, s)] if len(selected_schedule_types) == 0: raise ValidationError( 'One of clocked, interval, crontab, or solar ' 'must be set.' ) err_msg = 'Only one of clocked, interval, crontab, '\ 'or solar must be set' if len(selected_schedule_types) > 1: error_info = {} for selected_schedule_type in selected_schedule_types: error_info[selected_schedule_type] = [err_msg] raise ValidationError(error_info) # clocked must be one off task if self.clocked and not self.one_off: err_msg = 'clocked must be one off, one_off must set True' raise ValidationError(err_msg) def save(self, *args, **kwargs): self.exchange = self.exchange or None self.routing_key = self.routing_key or None self.queue = self.queue or None self.headers = self.headers or None if not self.enabled: self.last_run_at = None self._clean_expires() self.validate_unique() super().save(*args, **kwargs) PeriodicTasks.changed(self) def delete(self, *args, **kwargs): super().delete(*args, **kwargs) PeriodicTasks.changed(self) def _clean_expires(self): if self.expire_seconds is not None and self.expires: raise ValidationError( _('Only one can be set, in expires and expire_seconds') ) @property def expires_(self): return self.expires or self.expire_seconds def __str__(self): fmt = '{0.name}: {{no schedule}}' if self.interval: fmt = '{0.name}: {0.interval}' if self.crontab: fmt = '{0.name}: {0.crontab}' if self.solar: fmt = '{0.name}: {0.solar}' if self.clocked: fmt = '{0.name}: {0.clocked}' return fmt.format(self) @property def scheduler(self): if self.interval: return self.interval if self.crontab: return self.crontab if self.solar: return self.solar if self.clocked: return self.clocked @property def schedule(self): return self.scheduler.schedule