# -*- test-case-name: twisted.python.test_threadable -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ A module to provide some very basic threading primitives, such as synchronization. """ from functools import wraps class DummyLock: """ Hack to allow locks to be unpickled on an unthreaded system. """ def __reduce__(self): return (unpickle_lock, ()) def unpickle_lock(): if threadingmodule is not None: return XLock() else: return DummyLock() unpickle_lock.__safe_for_unpickling__ = True # type: ignore[attr-defined] def _synchPre(self): if "_threadable_lock" not in self.__dict__: _synchLockCreator.acquire() if "_threadable_lock" not in self.__dict__: self.__dict__["_threadable_lock"] = XLock() _synchLockCreator.release() self._threadable_lock.acquire() def _synchPost(self): self._threadable_lock.release() def _sync(klass, function): @wraps(function) def sync(self, *args, **kwargs): _synchPre(self) try: return function(self, *args, **kwargs) finally: _synchPost(self) return sync def synchronize(*klasses): """ Make all methods listed in each class' synchronized attribute synchronized. The synchronized attribute should be a list of strings, consisting of the names of methods that must be synchronized. If we are running in threaded mode these methods will be wrapped with a lock. """ if threadingmodule is not None: for klass in klasses: for methodName in klass.synchronized: sync = _sync(klass, klass.__dict__[methodName]) setattr(klass, methodName, sync) def init(with_threads=1): """Initialize threading. Don't bother calling this. If it needs to happen, it will happen. """ global threaded, _synchLockCreator, XLock if with_threads: if not threaded: if threadingmodule is not None: threaded = True class XLock(threadingmodule._RLock): def __reduce__(self): return (unpickle_lock, ()) _synchLockCreator = XLock() else: raise RuntimeError( "Cannot initialize threading, platform lacks thread support" ) else: if threaded: raise RuntimeError("Cannot uninitialize threads") else: pass _dummyID = object() def getThreadID(): if threadingmodule is None: return _dummyID return threadingmodule.current_thread().ident def isInIOThread(): """Are we in the thread responsible for I/O requests (the event loop)?""" return ioThread == getThreadID() def registerAsIOThread(): """Mark the current thread as responsible for I/O requests.""" global ioThread ioThread = getThreadID() ioThread = None threaded = False # Define these globals which might be overwritten in init(). _synchLockCreator = None XLock = None try: import threading as _threadingmodule except ImportError: threadingmodule = None else: threadingmodule = _threadingmodule init(True) __all__ = ["isInIOThread", "registerAsIOThread", "getThreadID", "XLock"]