# Copyright 2012 Red Hat, Inc. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import threading import eventlet from eventlet import greenpool from neutron.openstack.common import log as logging from neutron.openstack.common import loopingcall LOG = logging.getLogger(__name__) def _thread_done(gt, *args, **kwargs): """Callback function to be passed to GreenThread.link() when we spawn() Calls the :class:`ThreadGroup` to notify if. """ kwargs['group'].thread_done(kwargs['thread']) class Thread(object): """Wrapper around a greenthread, that holds a reference to the :class:`ThreadGroup`. The Thread will notify the :class:`ThreadGroup` when it has done so it can be removed from the threads list. """ def __init__(self, thread, group): self.thread = thread self.thread.link(_thread_done, group=group, thread=self) def stop(self): self.thread.kill() def wait(self): return self.thread.wait() def link(self, func, *args, **kwargs): self.thread.link(func, *args, **kwargs) class ThreadGroup(object): """The point of the ThreadGroup class is to: * keep track of timers and greenthreads (making it easier to stop them when need be). * provide an easy API to add timers. """ def __init__(self, thread_pool_size=10): self.pool = greenpool.GreenPool(thread_pool_size) self.threads = [] self.timers = [] def add_dynamic_timer(self, callback, initial_delay=None, periodic_interval_max=None, *args, **kwargs): timer = loopingcall.DynamicLoopingCall(callback, *args, **kwargs) timer.start(initial_delay=initial_delay, periodic_interval_max=periodic_interval_max) self.timers.append(timer) def add_timer(self, interval, callback, initial_delay=None, *args, **kwargs): pulse = loopingcall.FixedIntervalLoopingCall(callback, *args, **kwargs) pulse.start(interval=interval, initial_delay=initial_delay) self.timers.append(pulse) def add_thread(self, callback, *args, **kwargs): gt = self.pool.spawn(callback, *args, **kwargs) th = Thread(gt, self) self.threads.append(th) return th def thread_done(self, thread): self.threads.remove(thread) def _stop_threads(self): current = threading.current_thread() # Iterate over a copy of self.threads so thread_done doesn't # modify the list while we're iterating for x in self.threads[:]: if x is current: # don't kill the current thread. continue try: x.stop() except Exception as ex: LOG.exception(ex) def stop_timers(self): for x in self.timers: try: x.stop() except Exception as ex: LOG.exception(ex) self.timers = [] def stop(self, graceful=False): """stop function has the option of graceful=True/False. * In case of graceful=True, wait for all threads to be finished. Never kill threads. * In case of graceful=False, kill threads immediately. """ self.stop_timers() if graceful: # In case of graceful=True, wait for all threads to be # finished, never kill threads self.wait() else: # In case of graceful=False(Default), kill threads # immediately self._stop_threads() def wait(self): for x in self.timers: try: x.wait() except eventlet.greenlet.GreenletExit: pass except Exception as ex: LOG.exception(ex) current = threading.current_thread() # Iterate over a copy of self.threads so thread_done doesn't # modify the list while we're iterating for x in self.threads[:]: if x is current: continue try: x.wait() except eventlet.greenlet.GreenletExit: pass except Exception as ex: LOG.exception(ex)