# -*- coding: utf-8 -*- """ celery.concurrency.eventlet ~~~~~~~~~~~~~~~~~~~~~~~~~~~ Eventlet pool implementation. """ from __future__ import absolute_import import sys from time import time __all__ = ['TaskPool'] W_RACE = """\ Celery module with %s imported before eventlet patched\ """ RACE_MODS = ('billiard.', 'celery.', 'kombu.') #: Warn if we couldn't patch early enough, #: and thread/socket depending celery modules have already been loaded. for mod in (mod for mod in sys.modules if mod.startswith(RACE_MODS)): for side in ('thread', 'threading', 'socket'): # pragma: no cover if getattr(mod, side, None): import warnings warnings.warn(RuntimeWarning(W_RACE % side)) from celery import signals # noqa from celery.utils import timer2 # noqa from . import base # noqa 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.canceled = False return g def _entry_exit(self, g, entry): try: try: g.wait() except self.GreenletExit: entry.cancel() g.canceled = 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 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 signal_safe = False is_green = True task_join_will_block = False 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) def grow(self, n=1): limit = self.limit + n self._pool.resize(limit) self.limit = limit def shrink(self, n=1): limit = self.limit - n self._pool.resize(limit) self.limit = limit def _get_info(self): return { 'max-concurrency': self.limit, 'free-threads': self._pool.free(), 'running-threads': self._pool.running(), }