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- """
- celery.concurrency.eventlet
- ~~~~~~~~~~~~~~~~~~~~~~~~~~~
- Eventlet pool implementation.
- """
- from __future__ import absolute_import
- import os
- EVENTLET_NOPATCH = os.environ.get('EVENTLET_NOPATCH', False)
- EVENTLET_DBLOCK = int(os.environ.get('EVENTLET_NOBLOCK', 0))
- W_RACE = """\
- Celery module with %s imported before eventlet patched\
- """
- def _racedetect():
- import sys
- for mod in (mod for mod in sys.modules if mod.startswith('celery.')):
- for side in ('thread', 'threading', 'socket'):
- if getattr(mod, side, None):
- warnings.warn(RuntimeWarning(W_RACE % side))
- _racedetect()
- PATCHED = [0]
- if not EVENTLET_NOPATCH and not PATCHED[0]:
- PATCHED[0] += 1
- import eventlet
- import eventlet.debug
- eventlet.monkey_patch()
- eventlet.debug.hub_prevent_multiple_readers(True)
- eventlet.debug.hub_blocking_detection(EVENTLET_DBLOCK)
- from time import time
- from celery import signals
- from celery.utils import timer2
- from . import base
- def apply_target(target, args=(), kwargs={}, callback=None,
- accept_callback=None, getpid=None):
- return base.apply_target(target, args, kwargs, callback, accept_callback,
- pid=getpid())
- class Schedule(timer2.Schedule):
- def __init__(self, *args, **kwargs):
- from eventlet.greenthread import spawn_after
- from greenlet import GreenletExit
- super(Schedule, self).__init__(*args, **kwargs)
- self.GreenletExit = GreenletExit
- self._spawn_after = spawn_after
- self._queue = set()
- def _enter(self, eta, priority, entry):
- secs = max(eta - time(), 0)
- g = self._spawn_after(secs, entry)
- self._queue.add(g)
- g.link(self._entry_exit, entry)
- g.entry = entry
- g.eta = eta
- g.priority = priority
- g.cancelled = False
- return g
- def _entry_exit(self, g, entry):
- try:
- try:
- g.wait()
- except self.GreenletExit:
- entry.cancel()
- g.cancelled = True
- finally:
- self._queue.discard(g)
- def clear(self):
- queue = self._queue
- while queue:
- try:
- queue.pop().cancel()
- except (KeyError, self.GreenletExit):
- pass
- @property
- def queue(self):
- return [(g.eta, g.priority, g.entry) for g in self._queue]
- class Timer(timer2.Timer):
- Schedule = Schedule
- def ensure_started(self):
- pass
- def stop(self):
- self.schedule.clear()
- def cancel(self, tref):
- try:
- tref.cancel()
- except self.schedule.GreenletExit:
- pass
- def start(self):
- pass
- class TaskPool(base.BasePool):
- Timer = Timer
- rlimit_safe = False
- signal_safe = False
- is_green = True
- def __init__(self, *args, **kwargs):
- from eventlet import greenthread
- from eventlet.greenpool import GreenPool
- self.Pool = GreenPool
- self.getcurrent = greenthread.getcurrent
- self.getpid = lambda: id(greenthread.getcurrent())
- self.spawn_n = greenthread.spawn_n
- super(TaskPool, self).__init__(*args, **kwargs)
- def on_start(self):
- self._pool = self.Pool(self.limit)
- signals.eventlet_pool_started.send(sender=self)
- self._quick_put = self._pool.spawn_n
- self._quick_apply_sig = signals.eventlet_pool_apply.send
- def on_stop(self):
- signals.eventlet_pool_preshutdown.send(sender=self)
- if self._pool is not None:
- self._pool.waitall()
- signals.eventlet_pool_postshutdown.send(sender=self)
- def on_apply(self, target, args=None, kwargs=None, callback=None,
- accept_callback=None, **_):
- self._quick_apply_sig(sender=self,
- target=target, args=args, kwargs=kwargs)
- self._quick_put(apply_target, target, args, kwargs,
- callback, accept_callback,
- self.getpid)
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