This document describes the current stable version of Celery (5.2). For development docs, go here.

Source code for celery.concurrency.base

"""Base Execution Pool."""
import logging
import os
import sys
import time

from billiard.einfo import ExceptionInfo
from billiard.exceptions import WorkerLostError
from kombu.utils.encoding import safe_repr

from celery.exceptions import WorkerShutdown, WorkerTerminate, reraise
from celery.utils import timer2
from celery.utils.log import get_logger
from celery.utils.text import truncate

__all__ = ('BasePool', 'apply_target')

logger = get_logger('celery.pool')


[docs]def apply_target(target, args=(), kwargs=None, callback=None, accept_callback=None, pid=None, getpid=os.getpid, propagate=(), monotonic=time.monotonic, **_): """Apply function within pool context.""" kwargs = {} if not kwargs else kwargs if accept_callback: accept_callback(pid or getpid(), monotonic()) try: ret = target(*args, **kwargs) except propagate: raise except Exception: raise except (WorkerShutdown, WorkerTerminate): raise except BaseException as exc: try: reraise(WorkerLostError, WorkerLostError(repr(exc)), sys.exc_info()[2]) except WorkerLostError: callback(ExceptionInfo()) else: callback(ret)
[docs]class BasePool: """Task pool.""" RUN = 0x1 CLOSE = 0x2 TERMINATE = 0x3 Timer = timer2.Timer #: set to true if the pool can be shutdown from within #: a signal handler. signal_safe = True #: set to true if pool uses greenlets. is_green = False _state = None _pool = None _does_debug = True #: only used by multiprocessing pool uses_semaphore = False task_join_will_block = True body_can_be_buffer = False def __init__(self, limit=None, putlocks=True, forking_enable=True, callbacks_propagate=(), app=None, **options): self.limit = limit self.putlocks = putlocks self.options = options self.forking_enable = forking_enable self.callbacks_propagate = callbacks_propagate self.app = app
[docs] def on_start(self): pass
[docs] def did_start_ok(self): return True
[docs] def flush(self): pass
[docs] def on_stop(self): pass
[docs] def register_with_event_loop(self, loop): pass
[docs] def on_apply(self, *args, **kwargs): pass
[docs] def on_terminate(self): pass
[docs] def on_soft_timeout(self, job): pass
[docs] def on_hard_timeout(self, job): pass
[docs] def maintain_pool(self, *args, **kwargs): pass
[docs] def terminate_job(self, pid, signal=None): raise NotImplementedError( f'{type(self)} does not implement kill_job')
[docs] def restart(self): raise NotImplementedError( f'{type(self)} does not implement restart')
[docs] def stop(self): self.on_stop() self._state = self.TERMINATE
[docs] def terminate(self): self._state = self.TERMINATE self.on_terminate()
[docs] def start(self): self._does_debug = logger.isEnabledFor(logging.DEBUG) self.on_start() self._state = self.RUN
[docs] def close(self): self._state = self.CLOSE self.on_close()
[docs] def on_close(self): pass
[docs] def apply_async(self, target, args=None, kwargs=None, **options): """Equivalent of the :func:`apply` built-in function. Callbacks should optimally return as soon as possible since otherwise the thread which handles the result will get blocked. """ kwargs = {} if not kwargs else kwargs args = [] if not args else args if self._does_debug: logger.debug('TaskPool: Apply %s (args:%s kwargs:%s)', target, truncate(safe_repr(args), 1024), truncate(safe_repr(kwargs), 1024)) return self.on_apply(target, args, kwargs, waitforslot=self.putlocks, callbacks_propagate=self.callbacks_propagate, **options)
def _get_info(self): return { 'max-concurrency': self.limit, } @property def info(self): return self._get_info() @property def active(self): return self._state == self.RUN @property def num_processes(self): return self.limit