import sys import threading from twisted.internet.base import DelayedCall as TwistedDelayedCall from eventlet.support import greenlets as greenlet from eventlet.hubs.hub import FdListener, READ, WRITE class DelayedCall(TwistedDelayedCall): "fix DelayedCall to behave like eventlet's Timer in some respects" def cancel(self): if self.cancelled or self.called: self.cancelled = True return return TwistedDelayedCall.cancel(self) class LocalDelayedCall(DelayedCall): def __init__(self, *args, **kwargs): self.greenlet = greenlet.getcurrent() DelayedCall.__init__(self, *args, **kwargs) def _get_cancelled(self): if self.greenlet is None or self.greenlet.dead: return True return self.__dict__['cancelled'] def _set_cancelled(self, value): self.__dict__['cancelled'] = value cancelled = property(_get_cancelled, _set_cancelled) def callLater(DelayedCallClass, reactor, _seconds, _f, *args, **kw): # the same as original but creates fixed DelayedCall instance assert callable(_f), "%s is not callable" % _f if not isinstance(_seconds, (int, long, float)): raise TypeError("Seconds must be int, long, or float, was " + type(_seconds)) assert sys.maxint >= _seconds >= 0, \ "%s is not greater than or equal to 0 seconds" % (_seconds,) tple = DelayedCallClass(reactor.seconds() + _seconds, _f, args, kw, reactor._cancelCallLater, reactor._moveCallLaterSooner, seconds=reactor.seconds) reactor._newTimedCalls.append(tple) return tple class socket_rwdescriptor(FdListener): #implements(IReadWriteDescriptor) def __init__(self, evtype, fileno, cb): super(socket_rwdescriptor, self).__init__(evtype, fileno, cb) if not isinstance(fileno, (int,long)): raise TypeError("Expected int or long, got %s" % type(fileno)) # Twisted expects fileno to be a callable, not an attribute def _fileno(): return fileno self.fileno = _fileno # required by glib2reactor disconnected = False def doRead(self): if self.evtype is READ: self.cb(self) def doWrite(self): if self.evtype == WRITE: self.cb(self) def connectionLost(self, reason): self.disconnected = True if self.cb: self.cb(reason) # trampoline() will now switch into the greenlet that owns the socket # leaving the mainloop unscheduled. However, when the next switch # to the mainloop occurs, twisted will not re-evaluate the delayed calls # because it assumes that none were scheduled since no client code was executed # (it has no idea it was switched away). So, we restart the mainloop. # XXX this is not enough, pollreactor prints the traceback for # this and epollreactor times out. see test__hub.TestCloseSocketWhilePolling raise greenlet.GreenletExit logstr = "twistedr" def logPrefix(self): return self.logstr class BaseTwistedHub(object): """This hub does not run a dedicated greenlet for the mainloop (unlike TwistedHub). Instead, it assumes that the mainloop is run in the main greenlet. This makes running "green" functions in the main greenlet impossible but is useful when you want to call reactor.run() yourself. """ # XXX: remove me from here. make functions that depend on reactor # XXX: hub's methods uses_twisted_reactor = True WRITE = WRITE READ = READ def __init__(self, mainloop_greenlet): self.greenlet = mainloop_greenlet def switch(self): assert greenlet.getcurrent() is not self.greenlet, \ "Cannot switch from MAINLOOP to MAINLOOP" try: greenlet.getcurrent().parent = self.greenlet except ValueError: pass return self.greenlet.switch() def stop(self): from twisted.internet import reactor reactor.stop() def add(self, evtype, fileno, cb): from twisted.internet import reactor descriptor = socket_rwdescriptor(evtype, fileno, cb) if evtype is READ: reactor.addReader(descriptor) if evtype is WRITE: reactor.addWriter(descriptor) return descriptor def remove(self, descriptor): from twisted.internet import reactor reactor.removeReader(descriptor) reactor.removeWriter(descriptor) def schedule_call_local(self, seconds, func, *args, **kwargs): from twisted.internet import reactor def call_if_greenlet_alive(*args1, **kwargs1): if timer.greenlet.dead: return return func(*args1, **kwargs1) timer = callLater(LocalDelayedCall, reactor, seconds, call_if_greenlet_alive, *args, **kwargs) return timer schedule_call = schedule_call_local def schedule_call_global(self, seconds, func, *args, **kwargs): from twisted.internet import reactor return callLater(DelayedCall, reactor, seconds, func, *args, **kwargs) def abort(self): from twisted.internet import reactor reactor.crash() @property def running(self): from twisted.internet import reactor return reactor.running # for debugging: def get_readers(self): from twisted.internet import reactor readers = reactor.getReaders() readers.remove(getattr(reactor, 'waker')) return readers def get_writers(self): from twisted.internet import reactor return reactor.getWriters() def get_timers_count(self): from twisted.internet import reactor return len(reactor.getDelayedCalls()) class TwistedHub(BaseTwistedHub): # wrapper around reactor that runs reactor's main loop in a separate greenlet. # whenever you need to wait, i.e. inside a call that must appear # blocking, call hub.switch() (then your blocking operation should switch back to you # upon completion) # unlike other eventlet hubs, which are created per-thread, # this one cannot be instantiated more than once, because # twisted doesn't allow that # 0-not created # 1-initialized but not started # 2-started # 3-restarted state = 0 installSignalHandlers = False def __init__(self): assert Hub.state==0, ('%s hub can only be instantiated once'%type(self).__name__, Hub.state) Hub.state = 1 make_twisted_threadpool_daemonic() # otherwise the program # would hang after the main # greenlet exited g = greenlet.greenlet(self.run) BaseTwistedHub.__init__(self, g) def switch(self): assert greenlet.getcurrent() is not self.greenlet, \ "Cannot switch from MAINLOOP to MAINLOOP" if self.greenlet.dead: self.greenlet = greenlet.greenlet(self.run) try: greenlet.getcurrent().parent = self.greenlet except ValueError: pass return self.greenlet.switch() def run(self, installSignalHandlers=None): if installSignalHandlers is None: installSignalHandlers = self.installSignalHandlers # main loop, executed in a dedicated greenlet from twisted.internet import reactor assert Hub.state in [1, 3], ('run function is not reentrant', Hub.state) if Hub.state == 1: reactor.startRunning(installSignalHandlers=installSignalHandlers) elif not reactor.running: # if we're here, then reactor was explicitly stopped with reactor.stop() # restarting reactor (like we would do after an exception) in this case # is not an option. raise AssertionError("reactor is not running") try: self.mainLoop(reactor) except: # an exception in the mainLoop is a normal operation (e.g. user's # signal handler could raise an exception). In this case we will re-enter # the main loop at the next switch. Hub.state = 3 raise # clean exit here is needed for abort() method to work # do not raise an exception here. def mainLoop(self, reactor): Hub.state = 2 # Unlike reactor's mainLoop, this function does not catch exceptions. # Anything raised goes into the main greenlet (because it is always the # parent of this one) while reactor.running: # Advance simulation time in delayed event processors. reactor.runUntilCurrent() t2 = reactor.timeout() t = reactor.running and t2 reactor.doIteration(t) Hub = TwistedHub class DaemonicThread(threading.Thread): def _set_daemon(self): return True def make_twisted_threadpool_daemonic(): from twisted.python.threadpool import ThreadPool if ThreadPool.threadFactory != DaemonicThread: ThreadPool.threadFactory = DaemonicThread