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# Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Utilities for unit testing reactor implementations. The main feature of this module is L{ReactorBuilder}, a base class for use when writing interface/blackbox tests for reactor implementations. Test case classes for reactor features should subclass L{ReactorBuilder} instead of L{SynchronousTestCase}. All of the features of L{SynchronousTestCase} will be available. Additionally, the tests will automatically be applied to all available reactor implementations. """ __all__ = ["TestTimeoutError", "ReactorBuilder", "needsRunningReactor"] import os import signal import time from typing import TYPE_CHECKING, Callable, Dict, Optional, Sequence, Type, Union, cast from zope.interface import Interface from twisted.python import log from twisted.python.deprecate import _fullyQualifiedName as fullyQualifiedName from twisted.python.failure import Failure from twisted.python.reflect import namedAny from twisted.python.runtime import platform from twisted.trial.unittest import SkipTest, SynchronousTestCase from twisted.trial.util import DEFAULT_TIMEOUT_DURATION, acquireAttribute if TYPE_CHECKING: # Only bring in this name to support the type annotation below. We don't # really want to import a reactor module this early at runtime. from twisted.internet import asyncioreactor # Access private APIs. try: from twisted.internet import process as _process except ImportError: process = None else: process = _process class TestTimeoutError(Exception): """ The reactor was still running after the timeout period elapsed in L{ReactorBuilder.runReactor}. """ def needsRunningReactor(reactor, thunk): """ Various functions within these tests need an already-running reactor at some point. They need to stop the reactor when the test has completed, and that means calling reactor.stop(). However, reactor.stop() raises an exception if the reactor isn't already running, so if the L{Deferred} that a particular API under test returns fires synchronously (as especially an endpoint's C{connect()} method may do, if the connect is to a local interface address) then the test won't be able to stop the reactor being tested and finish. So this calls C{thunk} only once C{reactor} is running. (This is just an alias for L{twisted.internet.interfaces.IReactorCore.callWhenRunning} on the given reactor parameter, in order to centrally reference the above paragraph and repeating it everywhere as a comment.) @param reactor: the L{twisted.internet.interfaces.IReactorCore} under test @param thunk: a 0-argument callable, which eventually finishes the test in question, probably in a L{Deferred} callback. """ reactor.callWhenRunning(thunk) def stopOnError(case, reactor, publisher=None): """ Stop the reactor as soon as any error is logged on the given publisher. This is beneficial for tests which will wait for a L{Deferred} to fire before completing (by passing or failing). Certain implementation bugs may prevent the L{Deferred} from firing with any result at all (consider a protocol's {dataReceived} method that raises an exception: this exception is logged but it won't ever cause a L{Deferred} to fire). In that case the test would have to complete by timing out which is a much less desirable outcome than completing as soon as the unexpected error is encountered. @param case: A L{SynchronousTestCase} to use to clean up the necessary log observer when the test is over. @param reactor: The reactor to stop. @param publisher: A L{LogPublisher} to watch for errors. If L{None}, the global log publisher will be watched. """ if publisher is None: from twisted.python import log as publisher running = [None] def stopIfError(event): if running and event.get("isError"): running.pop() reactor.stop() publisher.addObserver(stopIfError) case.addCleanup(publisher.removeObserver, stopIfError) class ReactorBuilder: """ L{SynchronousTestCase} mixin which provides a reactor-creation API. This mixin defines C{setUp} and C{tearDown}, so mix it in before L{SynchronousTestCase} or call its methods from the overridden ones in the subclass. @cvar skippedReactors: A dict mapping FQPN strings of reactors for which the tests defined by this class will be skipped to strings giving the skip message. @cvar requiredInterfaces: A C{list} of interfaces which the reactor must provide or these tests will be skipped. The default, L{None}, means that no interfaces are required. @ivar reactorFactory: A no-argument callable which returns the reactor to use for testing. @ivar originalHandler: The SIGCHLD handler which was installed when setUp ran and which will be re-installed when tearDown runs. @ivar _reactors: A list of FQPN strings giving the reactors for which L{SynchronousTestCase}s will be created. """ _reactors = [ # Select works everywhere "twisted.internet.selectreactor.SelectReactor", ] if platform.isWindows(): # PortableGtkReactor is only really interesting on Windows, # but not really Windows specific; if you want you can # temporarily move this up to the all-platforms list to test # it on other platforms. It's not there in general because # it's not _really_ worth it to support on other platforms, # since no one really wants to use it on other platforms. _reactors.extend( [ "twisted.internet.gireactor.PortableGIReactor", "twisted.internet.win32eventreactor.Win32Reactor", "twisted.internet.iocpreactor.reactor.IOCPReactor", ] ) else: _reactors.extend( [ "twisted.internet.gireactor.GIReactor", ] ) _reactors.append("twisted.internet.test.reactormixins.AsyncioSelectorReactor") if platform.isMacOSX(): _reactors.append("twisted.internet.cfreactor.CFReactor") else: _reactors.extend( [ "twisted.internet.pollreactor.PollReactor", "twisted.internet.epollreactor.EPollReactor", ] ) if not platform.isLinux(): # Presumably Linux is not going to start supporting kqueue, so # skip even trying this configuration. _reactors.extend( [ # Support KQueue on non-OS-X POSIX platforms for now. "twisted.internet.kqreactor.KQueueReactor", ] ) reactorFactory: Optional[Callable[[], object]] = None originalHandler = None requiredInterfaces: Optional[Sequence[Type[Interface]]] = None skippedReactors: Dict[str, str] = {} def setUp(self): """ Clear the SIGCHLD handler, if there is one, to ensure an environment like the one which exists prior to a call to L{reactor.run}. """ if not platform.isWindows(): self.originalHandler = signal.signal(signal.SIGCHLD, signal.SIG_DFL) def tearDown(self): """ Restore the original SIGCHLD handler and reap processes as long as there seem to be any remaining. """ if self.originalHandler is not None: signal.signal(signal.SIGCHLD, self.originalHandler) if process is not None: begin = time.time() while process.reapProcessHandlers: log.msg( "ReactorBuilder.tearDown reaping some processes %r" % (process.reapProcessHandlers,) ) process.reapAllProcesses() # The process should exit on its own. However, if it # doesn't, we're stuck in this loop forever. To avoid # hanging the test suite, eventually give the process some # help exiting and move on. time.sleep(0.001) if time.time() - begin > 60: for pid in process.reapProcessHandlers: os.kill(pid, signal.SIGKILL) raise Exception( "Timeout waiting for child processes to exit: %r" % (process.reapProcessHandlers,) ) def _unbuildReactor(self, reactor): """ Clean up any resources which may have been allocated for the given reactor by its creation or by a test which used it. """ # Chris says: # # XXX These explicit calls to clean up the waker (and any other # internal readers) should become obsolete when bug #3063 is # fixed. -radix, 2008-02-29. Fortunately it should probably cause an # error when bug #3063 is fixed, so it should be removed in the same # branch that fixes it. # # -exarkun reactor._uninstallHandler() if getattr(reactor, "_internalReaders", None) is not None: for reader in reactor._internalReaders: reactor.removeReader(reader) reader.connectionLost(None) reactor._internalReaders.clear() # Here's an extra thing unrelated to wakers but necessary for # cleaning up after the reactors we make. -exarkun reactor.disconnectAll() # It would also be bad if any timed calls left over were allowed to # run. calls = reactor.getDelayedCalls() for c in calls: c.cancel() # Restore the original reactor state: from twisted.internet import reactor as globalReactor globalReactor.__dict__ = reactor._originalReactorDict globalReactor.__class__ = reactor._originalReactorClass def buildReactor(self): """ Create and return a reactor using C{self.reactorFactory}. """ try: from twisted.internet import reactor as globalReactor from twisted.internet.cfreactor import CFReactor except ImportError: pass else: if ( isinstance(globalReactor, CFReactor) and self.reactorFactory is CFReactor ): raise SkipTest( "CFReactor uses APIs which manipulate global state, " "so it's not safe to run its own reactor-builder tests " "under itself" ) try: assert self.reactorFactory is not None reactor = self.reactorFactory() reactor._originalReactorDict = globalReactor.__dict__ reactor._originalReactorClass = globalReactor.__class__ # Make twisted.internet.reactor point to the new reactor, # temporarily; this is undone in unbuildReactor(). globalReactor.__dict__ = reactor.__dict__ globalReactor.__class__ = reactor.__class__ except BaseException: # Unfortunately, not all errors which result in a reactor # being unusable are detectable without actually # instantiating the reactor. So we catch some more here # and skip the test if necessary. We also log it to aid # with debugging, but flush the logged error so the test # doesn't fail. log.err(None, "Failed to install reactor") self.flushLoggedErrors() raise SkipTest(Failure().getErrorMessage()) else: if self.requiredInterfaces is not None: missing = [ required for required in self.requiredInterfaces if not required.providedBy(reactor) ] if missing: self._unbuildReactor(reactor) raise SkipTest( "%s does not provide %s" % ( fullyQualifiedName(reactor.__class__), ",".join([fullyQualifiedName(x) for x in missing]), ) ) self.addCleanup(self._unbuildReactor, reactor) return reactor def getTimeout(self): """ Determine how long to run the test before considering it failed. @return: A C{int} or C{float} giving a number of seconds. """ return acquireAttribute(self._parents, "timeout", DEFAULT_TIMEOUT_DURATION) def runReactor(self, reactor, timeout=None): """ Run the reactor for at most the given amount of time. @param reactor: The reactor to run. @type timeout: C{int} or C{float} @param timeout: The maximum amount of time, specified in seconds, to allow the reactor to run. If the reactor is still running after this much time has elapsed, it will be stopped and an exception raised. If L{None}, the default test method timeout imposed by Trial will be used. This depends on the L{IReactorTime} implementation of C{reactor} for correct operation. @raise TestTimeoutError: If the reactor is still running after C{timeout} seconds. """ if timeout is None: timeout = self.getTimeout() timedOut = [] def stop(): timedOut.append(None) reactor.stop() timedOutCall = reactor.callLater(timeout, stop) reactor.run() if timedOut: raise TestTimeoutError(f"reactor still running after {timeout} seconds") else: timedOutCall.cancel() @classmethod def makeTestCaseClasses( cls: Type["ReactorBuilder"], ) -> Dict[str, Union[Type["ReactorBuilder"], Type[SynchronousTestCase]]]: """ Create a L{SynchronousTestCase} subclass which mixes in C{cls} for each known reactor and return a dict mapping their names to them. """ classes: Dict[ str, Union[Type["ReactorBuilder"], Type[SynchronousTestCase]] ] = {} for reactor in cls._reactors: shortReactorName = reactor.split(".")[-1] name = (cls.__name__ + "." + shortReactorName + "Tests").replace(".", "_") class testcase(cls, SynchronousTestCase): # type: ignore[valid-type,misc] __module__ = cls.__module__ if reactor in cls.skippedReactors: skip = cls.skippedReactors[reactor] try: reactorFactory = namedAny(reactor) except BaseException: skip = Failure().getErrorMessage() testcase.__name__ = name testcase.__qualname__ = ".".join(cls.__qualname__.split()[0:-1] + [name]) classes[testcase.__name__] = testcase return classes def asyncioSelectorReactor(self: object) -> "asyncioreactor.AsyncioSelectorReactor": """ Make a new asyncio reactor associated with a new event loop. The test suite prefers this constructor because having a new event loop for each reactor provides better test isolation. The real constructor prefers to re-use (or create) a global loop because of how this interacts with other asyncio-based libraries and applications (though maybe it shouldn't). @param self: The L{ReactorBuilder} subclass this is being called on. We don't use this parameter but we get called with it anyway. """ from asyncio import get_event_loop, new_event_loop, set_event_loop from twisted.internet import asyncioreactor asTestCase = cast(SynchronousTestCase, self) originalLoop = get_event_loop() loop = new_event_loop() set_event_loop(loop) @asTestCase.addCleanup def cleanUp(): loop.close() set_event_loop(originalLoop) return asyncioreactor.AsyncioSelectorReactor(loop) # Give it an alias that makes the names of the generated test classes fit the # pattern. AsyncioSelectorReactor = asyncioSelectorReactor