platypush/platypush/cron/scheduler.py

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import datetime
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import enum
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import logging
import threading
import time
from typing import Dict, Optional
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import croniter
from dateutil.tz import gettz
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from platypush.procedure import Procedure
from platypush.utils import get_remaining_timeout, is_functional_cron
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logger = logging.getLogger('platypush:cron')
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def get_now() -> datetime.datetime:
"""
:return: A timezone-aware representation of `now`
"""
return datetime.datetime.now().replace(
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tzinfo=gettz() # lgtm [py/call-to-non-callable]
)
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class CronjobState(enum.IntEnum):
"""
An enum used to model the possible states of a cronjob.
"""
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IDLE = 0
WAIT = 1
RUNNING = 2
DONE = 3
ERROR = 4
class CronjobEvent(enum.IntEnum):
"""
A list of events used to synchronize with a cronjob.
"""
NONE = 0
STOP = 1
TIME_SYNC = 2
class Cronjob(threading.Thread):
"""
Representation of a cronjob. The inner logic is wrapped by a thread that
waits until the next execution slot, and can quickly synchronize in case of
clock change/drift.
"""
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def __init__(self, name, cron_expression, actions):
super().__init__(name=f'cron:{name}')
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self.cron_expression = cron_expression
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self.name = name
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self.state = CronjobState.IDLE
self._event = threading.Event()
self._event_type = CronjobEvent.NONE
self._event_lock = threading.RLock()
if isinstance(actions, (list, dict)):
self.actions = Procedure.build(
name=name + '__Cron', _async=False, requests=actions
)
else:
self.actions = actions
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def notify(self, event: CronjobEvent):
"""
Send an event to this cronjob.
"""
with self._event_lock:
self._event_type = event
self._event.set()
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def run(self):
"""
Inner logic of the cronjob thread.
"""
# Wait until an event is received or the next execution slot is reached
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self.wait()
# Early exit if we received a stop event
if self.should_stop():
return
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self.state = CronjobState.RUNNING
try:
logger.info('Running cronjob {}'.format(self.name))
context = {}
if isinstance(self.actions, Procedure):
# If the cronjob wraps a procedure, execute it
response = self.actions.execute(_async=False, **context)
else:
# Otherwise, execute the scheduled actions one by one
response = self.actions(**context)
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logger.info('Response from cronjob {}: {}'.format(self.name, response))
self.state = CronjobState.DONE
except Exception as e:
logger.exception(e)
self.state = CronjobState.ERROR
def wait(self):
"""
Wait until the next slot is reached.
"""
# Set the cronjob in WAIT state
with self._event_lock:
self.state = CronjobState.WAIT
self._event.clear()
self._event_type = CronjobEvent.TIME_SYNC
# Keep iterating until it's our time to run. If we receive clock
# synchronization events, the cronjob updates its next expected run and
# keeps waiting.
while self._event_type == CronjobEvent.TIME_SYNC:
self._event_type = CronjobEvent.NONE
next_run = self._get_next_run_secs()
self._event.wait(next_run)
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with self._event_lock:
self._event.clear()
def _get_next_run_secs(self) -> int:
"""
Get the number of seconds between now and the next scheduled run.
"""
now = get_now()
cron = croniter.croniter(self.cron_expression, now)
next_run = cron.get_next(datetime.datetime)
return max(0, (next_run - now).total_seconds())
def should_stop(self):
return self._event_type == CronjobEvent.STOP
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class CronScheduler(threading.Thread):
"""
Main cron scheduler job.
"""
def __init__(self, jobs, poll_seconds: float = 0.5):
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super().__init__()
self.jobs_config = jobs
self._jobs: Dict[str, Cronjob] = {}
self._poll_seconds = max(1e-3, poll_seconds)
self._should_stop = threading.Event()
logger.info(
'Cron scheduler initialized with {} jobs'.format(
len(self.jobs_config.keys())
)
)
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def _get_job(self, name, config) -> Cronjob:
"""
Get a cronjob by name.
"""
# Check if the cronjob has already been indexed.
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job = self._jobs.get(name)
if job and job.state not in [CronjobState.DONE, CronjobState.ERROR]:
return job
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if isinstance(config, dict):
# If the cronjob is a static list of actions, initialize it from dict
self._jobs[name] = Cronjob(
name=name,
cron_expression=config['cron_expression'],
actions=config['actions'],
)
elif is_functional_cron(config):
# Otherwise, initialize it as a native Python function
self._jobs[name] = Cronjob(
name=name, cron_expression=config.cron_expression, actions=config
)
else:
raise AssertionError(
'Expected type dict or function for cron {}, got {}'.format(
name, type(config)
)
)
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return self._jobs[name]
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def stop(self):
"""
Stop the scheduler and send a STOP signal to all the registered cronjobs.
"""
for job in self._jobs.values():
job.notify(CronjobEvent.STOP)
self._should_stop.set()
def should_stop(self):
return self._should_stop.is_set()
def wait_stop(self, timeout: Optional[float] = None):
start = time.time()
stopped = self._should_stop.wait(
timeout=get_remaining_timeout(timeout=timeout, start=start)
)
if not stopped:
raise TimeoutError(
f'Timeout waiting for {self.__class__.__name__} to stop.'
)
if threading.get_ident() != self.ident:
self.join(timeout=get_remaining_timeout(timeout=timeout, start=start))
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def run(self):
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logger.info('Running cron scheduler')
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while not self.should_stop():
for job_name, job_config in self.jobs_config.items():
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job = self._get_job(name=job_name, config=job_config)
if job.state == CronjobState.IDLE:
try:
job.start()
except Exception as e:
logger.warning(f'Could not start cronjob {job_name}: {e}')
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t_before_wait = get_now().timestamp()
self._should_stop.wait(timeout=self._poll_seconds)
t_after_wait = get_now().timestamp()
time_drift = abs(t_after_wait - t_before_wait) - self._poll_seconds
if not self.should_stop() and time_drift > 1:
# If the system clock has been adjusted by more than one second
# (e.g. because of DST change or NTP sync) then ensure that the
# registered cronjobs are synchronized with the new datetime
logger.info(
'System clock drift detected: %f secs. Synchronizing the cronjobs',
time_drift,
)
for job in self._jobs.values():
job.notify(CronjobEvent.TIME_SYNC)
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logger.info('Terminating cron scheduler')
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# vim:sw=4:ts=4:et: