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# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.
"""
Tests for lots of functionality provided by L{twisted.internet}.
"""
import os
import sys
import time
from unittest import skipIf
from twisted.internet import abstract, base, defer, error, interfaces, protocol, reactor
from twisted.internet.defer import Deferred, passthru
from twisted.internet.tcp import Connector
from twisted.python import util
from twisted.trial.unittest import TestCase
try:
from twisted.internet import ssl as _ssl
except ImportError:
ssl = None
else:
ssl = _ssl
if ssl and not ssl.supported:
ssl = None
class ThreePhaseEventTests(TestCase):
"""
Tests for the private implementation helpers for system event triggers.
"""
def setUp(self):
"""
Create a trigger, an argument, and an event to be used by tests.
"""
self.trigger = lambda x: None
self.arg = object()
self.event = base._ThreePhaseEvent()
def test_addInvalidPhase(self):
"""
L{_ThreePhaseEvent.addTrigger} should raise L{KeyError} when called
with an invalid phase.
"""
self.assertRaises(
KeyError, self.event.addTrigger, "xxx", self.trigger, self.arg
)
def test_addBeforeTrigger(self):
"""
L{_ThreePhaseEvent.addTrigger} should accept C{'before'} as a phase, a
callable, and some arguments and add the callable with the arguments to
the before list.
"""
self.event.addTrigger("before", self.trigger, self.arg)
self.assertEqual(self.event.before, [(self.trigger, (self.arg,), {})])
def test_addDuringTrigger(self):
"""
L{_ThreePhaseEvent.addTrigger} should accept C{'during'} as a phase, a
callable, and some arguments and add the callable with the arguments to
the during list.
"""
self.event.addTrigger("during", self.trigger, self.arg)
self.assertEqual(self.event.during, [(self.trigger, (self.arg,), {})])
def test_addAfterTrigger(self):
"""
L{_ThreePhaseEvent.addTrigger} should accept C{'after'} as a phase, a
callable, and some arguments and add the callable with the arguments to
the after list.
"""
self.event.addTrigger("after", self.trigger, self.arg)
self.assertEqual(self.event.after, [(self.trigger, (self.arg,), {})])
def test_removeTrigger(self):
"""
L{_ThreePhaseEvent.removeTrigger} should accept an opaque object
previously returned by L{_ThreePhaseEvent.addTrigger} and remove the
associated trigger.
"""
handle = self.event.addTrigger("before", self.trigger, self.arg)
self.event.removeTrigger(handle)
self.assertEqual(self.event.before, [])
def test_removeNonexistentTrigger(self):
"""
L{_ThreePhaseEvent.removeTrigger} should raise L{ValueError} when given
an object not previously returned by L{_ThreePhaseEvent.addTrigger}.
"""
self.assertRaises(ValueError, self.event.removeTrigger, object())
def test_removeRemovedTrigger(self):
"""
L{_ThreePhaseEvent.removeTrigger} should raise L{ValueError} the second
time it is called with an object returned by
L{_ThreePhaseEvent.addTrigger}.
"""
handle = self.event.addTrigger("before", self.trigger, self.arg)
self.event.removeTrigger(handle)
self.assertRaises(ValueError, self.event.removeTrigger, handle)
def test_removeAlmostValidTrigger(self):
"""
L{_ThreePhaseEvent.removeTrigger} should raise L{ValueError} if it is
given a trigger handle which resembles a valid trigger handle aside
from its phase being incorrect.
"""
self.assertRaises(
KeyError, self.event.removeTrigger, ("xxx", self.trigger, (self.arg,), {})
)
def test_fireEvent(self):
"""
L{_ThreePhaseEvent.fireEvent} should call I{before}, I{during}, and
I{after} phase triggers in that order.
"""
events = []
self.event.addTrigger("after", events.append, ("first", "after"))
self.event.addTrigger("during", events.append, ("first", "during"))
self.event.addTrigger("before", events.append, ("first", "before"))
self.event.addTrigger("before", events.append, ("second", "before"))
self.event.addTrigger("during", events.append, ("second", "during"))
self.event.addTrigger("after", events.append, ("second", "after"))
self.assertEqual(events, [])
self.event.fireEvent()
self.assertEqual(
events,
[
("first", "before"),
("second", "before"),
("first", "during"),
("second", "during"),
("first", "after"),
("second", "after"),
],
)
def test_asynchronousBefore(self):
"""
L{_ThreePhaseEvent.fireEvent} should wait for any L{Deferred} returned
by a I{before} phase trigger before proceeding to I{during} events.
"""
events = []
beforeResult = Deferred()
self.event.addTrigger("before", lambda: beforeResult)
self.event.addTrigger("during", events.append, "during")
self.event.addTrigger("after", events.append, "after")
self.assertEqual(events, [])
self.event.fireEvent()
self.assertEqual(events, [])
beforeResult.callback(None)
self.assertEqual(events, ["during", "after"])
def test_beforeTriggerException(self):
"""
If a before-phase trigger raises a synchronous exception, it should be
logged and the remaining triggers should be run.
"""
events = []
class DummyException(Exception):
pass
def raisingTrigger():
raise DummyException()
self.event.addTrigger("before", raisingTrigger)
self.event.addTrigger("before", events.append, "before")
self.event.addTrigger("during", events.append, "during")
self.event.fireEvent()
self.assertEqual(events, ["before", "during"])
errors = self.flushLoggedErrors(DummyException)
self.assertEqual(len(errors), 1)
def test_duringTriggerException(self):
"""
If a during-phase trigger raises a synchronous exception, it should be
logged and the remaining triggers should be run.
"""
events = []
class DummyException(Exception):
pass
def raisingTrigger():
raise DummyException()
self.event.addTrigger("during", raisingTrigger)
self.event.addTrigger("during", events.append, "during")
self.event.addTrigger("after", events.append, "after")
self.event.fireEvent()
self.assertEqual(events, ["during", "after"])
errors = self.flushLoggedErrors(DummyException)
self.assertEqual(len(errors), 1)
def test_synchronousRemoveAlreadyExecutedBefore(self):
"""
If a before-phase trigger tries to remove another before-phase trigger
which has already run, a warning should be emitted.
"""
events = []
def removeTrigger():
self.event.removeTrigger(beforeHandle)
beforeHandle = self.event.addTrigger(
"before", events.append, ("first", "before")
)
self.event.addTrigger("before", removeTrigger)
self.event.addTrigger("before", events.append, ("second", "before"))
self.assertWarns(
DeprecationWarning,
"Removing already-fired system event triggers will raise an "
"exception in a future version of Twisted.",
__file__,
self.event.fireEvent,
)
self.assertEqual(events, [("first", "before"), ("second", "before")])
def test_synchronousRemovePendingBefore(self):
"""
If a before-phase trigger removes another before-phase trigger which
has not yet run, the removed trigger should not be run.
"""
events = []
self.event.addTrigger("before", lambda: self.event.removeTrigger(beforeHandle))
beforeHandle = self.event.addTrigger(
"before", events.append, ("first", "before")
)
self.event.addTrigger("before", events.append, ("second", "before"))
self.event.fireEvent()
self.assertEqual(events, [("second", "before")])
def test_synchronousBeforeRemovesDuring(self):
"""
If a before-phase trigger removes a during-phase trigger, the
during-phase trigger should not be run.
"""
events = []
self.event.addTrigger("before", lambda: self.event.removeTrigger(duringHandle))
duringHandle = self.event.addTrigger("during", events.append, "during")
self.event.addTrigger("after", events.append, "after")
self.event.fireEvent()
self.assertEqual(events, ["after"])
def test_asynchronousBeforeRemovesDuring(self):
"""
If a before-phase trigger returns a L{Deferred} and later removes a
during-phase trigger before the L{Deferred} fires, the during-phase
trigger should not be run.
"""
events = []
beforeResult = Deferred()
self.event.addTrigger("before", lambda: beforeResult)
duringHandle = self.event.addTrigger("during", events.append, "during")
self.event.addTrigger("after", events.append, "after")
self.event.fireEvent()
self.event.removeTrigger(duringHandle)
beforeResult.callback(None)
self.assertEqual(events, ["after"])
def test_synchronousBeforeRemovesConspicuouslySimilarDuring(self):
"""
If a before-phase trigger removes a during-phase trigger which is
identical to an already-executed before-phase trigger aside from their
phases, no warning should be emitted and the during-phase trigger
should not be run.
"""
events = []
def trigger():
events.append("trigger")
self.event.addTrigger("before", trigger)
self.event.addTrigger("before", lambda: self.event.removeTrigger(duringTrigger))
duringTrigger = self.event.addTrigger("during", trigger)
self.event.fireEvent()
self.assertEqual(events, ["trigger"])
def test_synchronousRemovePendingDuring(self):
"""
If a during-phase trigger removes another during-phase trigger which
has not yet run, the removed trigger should not be run.
"""
events = []
self.event.addTrigger("during", lambda: self.event.removeTrigger(duringHandle))
duringHandle = self.event.addTrigger(
"during", events.append, ("first", "during")
)
self.event.addTrigger("during", events.append, ("second", "during"))
self.event.fireEvent()
self.assertEqual(events, [("second", "during")])
def test_triggersRunOnce(self):
"""
A trigger should only be called on the first call to
L{_ThreePhaseEvent.fireEvent}.
"""
events = []
self.event.addTrigger("before", events.append, "before")
self.event.addTrigger("during", events.append, "during")
self.event.addTrigger("after", events.append, "after")
self.event.fireEvent()
self.event.fireEvent()
self.assertEqual(events, ["before", "during", "after"])
def test_finishedBeforeTriggersCleared(self):
"""
The temporary list L{_ThreePhaseEvent.finishedBefore} should be emptied
and the state reset to C{'BASE'} before the first during-phase trigger
executes.
"""
events = []
def duringTrigger():
events.append("during")
self.assertEqual(self.event.finishedBefore, [])
self.assertEqual(self.event.state, "BASE")
self.event.addTrigger("before", events.append, "before")
self.event.addTrigger("during", duringTrigger)
self.event.fireEvent()
self.assertEqual(events, ["before", "during"])
class SystemEventTests(TestCase):
"""
Tests for the reactor's implementation of the C{fireSystemEvent},
C{addSystemEventTrigger}, and C{removeSystemEventTrigger} methods of the
L{IReactorCore} interface.
@ivar triggers: A list of the handles to triggers which have been added to
the reactor.
"""
def setUp(self):
"""
Create an empty list in which to store trigger handles.
"""
self.triggers = []
def tearDown(self):
"""
Remove all remaining triggers from the reactor.
"""
while self.triggers:
trigger = self.triggers.pop()
try:
reactor.removeSystemEventTrigger(trigger)
except (ValueError, KeyError):
pass
def addTrigger(self, event, phase, func):
"""
Add a trigger to the reactor and remember it in C{self.triggers}.
"""
t = reactor.addSystemEventTrigger(event, phase, func)
self.triggers.append(t)
return t
def removeTrigger(self, trigger):
"""
Remove a trigger by its handle from the reactor and from
C{self.triggers}.
"""
reactor.removeSystemEventTrigger(trigger)
self.triggers.remove(trigger)
def _addSystemEventTriggerTest(self, phase):
eventType = "test"
events = []
def trigger():
events.append(None)
self.addTrigger(phase, eventType, trigger)
self.assertEqual(events, [])
reactor.fireSystemEvent(eventType)
self.assertEqual(events, [None])
def test_beforePhase(self):
"""
L{IReactorCore.addSystemEventTrigger} should accept the C{'before'}
phase and not call the given object until the right event is fired.
"""
self._addSystemEventTriggerTest("before")
def test_duringPhase(self):
"""
L{IReactorCore.addSystemEventTrigger} should accept the C{'during'}
phase and not call the given object until the right event is fired.
"""
self._addSystemEventTriggerTest("during")
def test_afterPhase(self):
"""
L{IReactorCore.addSystemEventTrigger} should accept the C{'after'}
phase and not call the given object until the right event is fired.
"""
self._addSystemEventTriggerTest("after")
def test_unknownPhase(self):
"""
L{IReactorCore.addSystemEventTrigger} should reject phases other than
C{'before'}, C{'during'}, or C{'after'}.
"""
eventType = "test"
self.assertRaises(KeyError, self.addTrigger, "xxx", eventType, lambda: None)
def test_beforePreceedsDuring(self):
"""
L{IReactorCore.addSystemEventTrigger} should call triggers added to the
C{'before'} phase before it calls triggers added to the C{'during'}
phase.
"""
eventType = "test"
events = []
def beforeTrigger():
events.append("before")
def duringTrigger():
events.append("during")
self.addTrigger("before", eventType, beforeTrigger)
self.addTrigger("during", eventType, duringTrigger)
self.assertEqual(events, [])
reactor.fireSystemEvent(eventType)
self.assertEqual(events, ["before", "during"])
def test_duringPreceedsAfter(self):
"""
L{IReactorCore.addSystemEventTrigger} should call triggers added to the
C{'during'} phase before it calls triggers added to the C{'after'}
phase.
"""
eventType = "test"
events = []
def duringTrigger():
events.append("during")
def afterTrigger():
events.append("after")
self.addTrigger("during", eventType, duringTrigger)
self.addTrigger("after", eventType, afterTrigger)
self.assertEqual(events, [])
reactor.fireSystemEvent(eventType)
self.assertEqual(events, ["during", "after"])
def test_beforeReturnsDeferred(self):
"""
If a trigger added to the C{'before'} phase of an event returns a
L{Deferred}, the C{'during'} phase should be delayed until it is called
back.
"""
triggerDeferred = Deferred()
eventType = "test"
events = []
def beforeTrigger():
return triggerDeferred
def duringTrigger():
events.append("during")
self.addTrigger("before", eventType, beforeTrigger)
self.addTrigger("during", eventType, duringTrigger)
self.assertEqual(events, [])
reactor.fireSystemEvent(eventType)
self.assertEqual(events, [])
triggerDeferred.callback(None)
self.assertEqual(events, ["during"])
def test_multipleBeforeReturnDeferred(self):
"""
If more than one trigger added to the C{'before'} phase of an event
return L{Deferred}s, the C{'during'} phase should be delayed until they
are all called back.
"""
firstDeferred = Deferred()
secondDeferred = Deferred()
eventType = "test"
events = []
def firstBeforeTrigger():
return firstDeferred
def secondBeforeTrigger():
return secondDeferred
def duringTrigger():
events.append("during")
self.addTrigger("before", eventType, firstBeforeTrigger)
self.addTrigger("before", eventType, secondBeforeTrigger)
self.addTrigger("during", eventType, duringTrigger)
self.assertEqual(events, [])
reactor.fireSystemEvent(eventType)
self.assertEqual(events, [])
firstDeferred.callback(None)
self.assertEqual(events, [])
secondDeferred.callback(None)
self.assertEqual(events, ["during"])
def test_subsequentBeforeTriggerFiresPriorBeforeDeferred(self):
"""
If a trigger added to the C{'before'} phase of an event calls back a
L{Deferred} returned by an earlier trigger in the C{'before'} phase of
the same event, the remaining C{'before'} triggers for that event
should be run and any further L{Deferred}s waited on before proceeding
to the C{'during'} events.
"""
eventType = "test"
events = []
firstDeferred = Deferred()
secondDeferred = Deferred()
def firstBeforeTrigger():
return firstDeferred
def secondBeforeTrigger():
firstDeferred.callback(None)
def thirdBeforeTrigger():
events.append("before")
return secondDeferred
def duringTrigger():
events.append("during")
self.addTrigger("before", eventType, firstBeforeTrigger)
self.addTrigger("before", eventType, secondBeforeTrigger)
self.addTrigger("before", eventType, thirdBeforeTrigger)
self.addTrigger("during", eventType, duringTrigger)
self.assertEqual(events, [])
reactor.fireSystemEvent(eventType)
self.assertEqual(events, ["before"])
secondDeferred.callback(None)
self.assertEqual(events, ["before", "during"])
def test_removeSystemEventTrigger(self):
"""
A trigger removed with L{IReactorCore.removeSystemEventTrigger} should
not be called when the event fires.
"""
eventType = "test"
events = []
def firstBeforeTrigger():
events.append("first")
def secondBeforeTrigger():
events.append("second")
self.addTrigger("before", eventType, firstBeforeTrigger)
self.removeTrigger(self.addTrigger("before", eventType, secondBeforeTrigger))
self.assertEqual(events, [])
reactor.fireSystemEvent(eventType)
self.assertEqual(events, ["first"])
def test_removeNonExistentSystemEventTrigger(self):
"""
Passing an object to L{IReactorCore.removeSystemEventTrigger} which was
not returned by a previous call to
L{IReactorCore.addSystemEventTrigger} or which has already been passed
to C{removeSystemEventTrigger} should result in L{TypeError},
L{KeyError}, or L{ValueError} being raised.
"""
b = self.addTrigger("during", "test", lambda: None)
self.removeTrigger(b)
self.assertRaises(TypeError, reactor.removeSystemEventTrigger, None)
self.assertRaises(ValueError, reactor.removeSystemEventTrigger, b)
self.assertRaises(
KeyError, reactor.removeSystemEventTrigger, (b[0], ("xxx",) + b[1][1:])
)
def test_interactionBetweenDifferentEvents(self):
"""
L{IReactorCore.fireSystemEvent} should behave the same way for a
particular system event regardless of whether Deferreds are being
waited on for a different system event.
"""
events = []
firstEvent = "first-event"
firstDeferred = Deferred()
def beforeFirstEvent():
events.append(("before", "first"))
return firstDeferred
def afterFirstEvent():
events.append(("after", "first"))
secondEvent = "second-event"
secondDeferred = Deferred()
def beforeSecondEvent():
events.append(("before", "second"))
return secondDeferred
def afterSecondEvent():
events.append(("after", "second"))
self.addTrigger("before", firstEvent, beforeFirstEvent)
self.addTrigger("after", firstEvent, afterFirstEvent)
self.addTrigger("before", secondEvent, beforeSecondEvent)
self.addTrigger("after", secondEvent, afterSecondEvent)
self.assertEqual(events, [])
# After this, firstEvent should be stuck before 'during' waiting for
# firstDeferred.
reactor.fireSystemEvent(firstEvent)
self.assertEqual(events, [("before", "first")])
# After this, secondEvent should be stuck before 'during' waiting for
# secondDeferred.
reactor.fireSystemEvent(secondEvent)
self.assertEqual(events, [("before", "first"), ("before", "second")])
# After this, firstEvent should have finished completely, but
# secondEvent should be at the same place.
firstDeferred.callback(None)
self.assertEqual(
events, [("before", "first"), ("before", "second"), ("after", "first")]
)
# After this, secondEvent should have finished completely.
secondDeferred.callback(None)
self.assertEqual(
events,
[
("before", "first"),
("before", "second"),
("after", "first"),
("after", "second"),
],
)
class TimeTests(TestCase):
"""
Tests for the IReactorTime part of the reactor.
"""
def test_seconds(self):
"""
L{twisted.internet.reactor.seconds} should return something
like a number.
1. This test specifically does not assert any relation to the
"system time" as returned by L{time.time} or
L{twisted.python.runtime.seconds}, because at some point we
may find a better option for scheduling calls than
wallclock-time.
2. This test *also* does not assert anything about the type of
the result, because operations may not return ints or
floats: For example, datetime-datetime == timedelta(0).
"""
now = reactor.seconds()
self.assertEqual(now - now + now, now)
def test_callLaterUsesReactorSecondsInDelayedCall(self):
"""
L{reactor.callLater<twisted.internet.interfaces.IReactorTime.callLater>}
should use the reactor's seconds factory
to produce the time at which the DelayedCall will be called.
"""
oseconds = reactor.seconds
reactor.seconds = lambda: 100
try:
call = reactor.callLater(5, lambda: None)
self.assertEqual(call.getTime(), 105)
finally:
reactor.seconds = oseconds
call.cancel()
def test_callLaterUsesReactorSecondsAsDelayedCallSecondsFactory(self):
"""
L{reactor.callLater<twisted.internet.interfaces.IReactorTime.callLater>}
should propagate its own seconds factory
to the DelayedCall to use as its own seconds factory.
"""
oseconds = reactor.seconds
reactor.seconds = lambda: 100
try:
call = reactor.callLater(5, lambda: None)
self.assertEqual(call.seconds(), 100)
finally:
reactor.seconds = oseconds
call.cancel()
def test_callLater(self):
"""
Test that a DelayedCall really calls the function it is
supposed to call.
"""
d = Deferred()
reactor.callLater(0, d.callback, None)
d.addCallback(self.assertEqual, None)
return d
def test_callLaterReset(self):
"""
A L{DelayedCall} that is reset will be scheduled at the new time.
"""
call = reactor.callLater(2, passthru, passthru)
self.addCleanup(call.cancel)
origTime = call.time
call.reset(1)
self.assertNotEqual(call.time, origTime)
def test_cancelDelayedCall(self):
"""
Test that when a DelayedCall is cancelled it does not run.
"""
called = []
def function():
called.append(None)
call = reactor.callLater(0, function)
call.cancel()
# Schedule a call in two "iterations" to check to make sure that the
# above call never ran.
d = Deferred()
def check():
try:
self.assertEqual(called, [])
except BaseException:
d.errback()
else:
d.callback(None)
reactor.callLater(0, reactor.callLater, 0, check)
return d
def test_cancelCancelledDelayedCall(self):
"""
Test that cancelling a DelayedCall which has already been cancelled
raises the appropriate exception.
"""
call = reactor.callLater(0, lambda: None)
call.cancel()
self.assertRaises(error.AlreadyCancelled, call.cancel)
def test_cancelCalledDelayedCallSynchronous(self):
"""
Test that cancelling a DelayedCall in the DelayedCall's function as
that function is being invoked by the DelayedCall raises the
appropriate exception.
"""
d = Deferred()
def later():
try:
self.assertRaises(error.AlreadyCalled, call.cancel)
except BaseException:
d.errback()
else:
d.callback(None)
call = reactor.callLater(0, later)
return d
def test_cancelCalledDelayedCallAsynchronous(self):
"""
Test that cancelling a DelayedCall after it has run its function
raises the appropriate exception.
"""
d = Deferred()
def check():
try:
self.assertRaises(error.AlreadyCalled, call.cancel)
except BaseException:
d.errback()
else:
d.callback(None)
def later():
reactor.callLater(0, check)
call = reactor.callLater(0, later)
return d
def testCallLaterTime(self):
d = reactor.callLater(10, lambda: None)
try:
self.assertTrue(d.getTime() - (time.time() + 10) < 1)
finally:
d.cancel()
def testDelayedCallStringification(self):
# Mostly just make sure str() isn't going to raise anything for
# DelayedCalls within reason.
dc = reactor.callLater(0, lambda x, y: None, "x", y=10)
str(dc)
dc.reset(5)
str(dc)
dc.cancel()
str(dc)
dc = reactor.callLater(
0, lambda: None, x=[({"hello": "world"}, 10j), reactor], *range(10)
)
str(dc)
dc.cancel()
str(dc)
def calledBack(ignored):
str(dc)
d = Deferred().addCallback(calledBack)
dc = reactor.callLater(0, d.callback, None)
str(dc)
return d
def testDelayedCallSecondsOverride(self):
"""
Test that the C{seconds} argument to DelayedCall gets used instead of
the default timing function, if it is not None.
"""
def seconds():
return 10
dc = base.DelayedCall(
5, lambda: None, (), {}, lambda dc: None, lambda dc: None, seconds
)
self.assertEqual(dc.getTime(), 5)
dc.reset(3)
self.assertEqual(dc.getTime(), 13)
class CallFromThreadStopsAndWakeUpTests(TestCase):
@skipIf(
not interfaces.IReactorThreads(reactor, None),
"Nothing to wake up for without thread support",
)
def testWakeUp(self):
# Make sure other threads can wake up the reactor
d = Deferred()
def wake():
time.sleep(0.1)
# callFromThread will call wakeUp for us
reactor.callFromThread(d.callback, None)
reactor.callInThread(wake)
return d
def _stopCallFromThreadCallback(self):
self.stopped = True
def _callFromThreadCallback(self, d):
reactor.callFromThread(self._callFromThreadCallback2, d)
reactor.callLater(0, self._stopCallFromThreadCallback)
def _callFromThreadCallback2(self, d):
try:
self.assertTrue(self.stopped)
except BaseException:
# Send the error to the deferred
d.errback()
else:
d.callback(None)
def testCallFromThreadStops(self):
"""
Ensure that callFromThread from inside a callFromThread
callback doesn't sit in an infinite loop and lets other
things happen too.
"""
self.stopped = False
d = defer.Deferred()
reactor.callFromThread(self._callFromThreadCallback, d)
return d
class DelayedTests(TestCase):
def setUp(self):
self.finished = 0
self.counter = 0
self.timers = {}
self.deferred = defer.Deferred()
def tearDown(self):
for t in self.timers.values():
t.cancel()
def checkTimers(self):
l1 = self.timers.values()
l2 = list(reactor.getDelayedCalls())
# There should be at least the calls we put in. There may be other
# calls that are none of our business and that we should ignore,
# though.
missing = []
for dc in l1:
if dc not in l2:
missing.append(dc)
if missing:
self.finished = 1
self.assertFalse(
missing,
"Should have been missing no calls, instead "
+ "was missing "
+ repr(missing),
)
def callback(self, tag):
del self.timers[tag]
self.checkTimers()
def addCallback(self, tag):
self.callback(tag)
self.addTimer(15, self.callback)
def done(self, tag):
self.finished = 1
self.callback(tag)
self.deferred.callback(None)
def addTimer(self, when, callback):
self.timers[self.counter] = reactor.callLater(
when * 0.01, callback, self.counter
)
self.counter += 1
self.checkTimers()
def testGetDelayedCalls(self):
if not hasattr(reactor, "getDelayedCalls"):
return
# This is not a race because we don't do anything which might call
# the reactor until we have all the timers set up. If we did, this
# test might fail on slow systems.
self.checkTimers()
self.addTimer(35, self.done)
self.addTimer(20, self.callback)
self.addTimer(30, self.callback)
which = self.counter
self.addTimer(29, self.callback)
self.addTimer(25, self.addCallback)
self.addTimer(26, self.callback)
self.timers[which].cancel()
del self.timers[which]
self.checkTimers()
self.deferred.addCallback(lambda x: self.checkTimers())
return self.deferred
def test_active(self):
"""
L{IDelayedCall.active} returns False once the call has run.
"""
dcall = reactor.callLater(0.01, self.deferred.callback, True)
self.assertTrue(dcall.active())
def checkDeferredCall(success):
self.assertFalse(dcall.active())
return success
self.deferred.addCallback(checkDeferredCall)
return self.deferred
resolve_helper = """
import %(reactor)s
%(reactor)s.install()
from twisted.internet import reactor
class Foo:
def __init__(self):
reactor.callWhenRunning(self.start)
self.timer = reactor.callLater(3, self.failed)
def start(self):
reactor.resolve('localhost').addBoth(self.done)
def done(self, res):
print('done', res)
reactor.stop()
def failed(self):
print('failed')
self.timer = None
reactor.stop()
f = Foo()
reactor.run()
"""
class ChildResolveProtocol(protocol.ProcessProtocol):
def __init__(self, onCompletion):
self.onCompletion = onCompletion
def connectionMade(self):
self.output = []
self.error = []
def outReceived(self, out):
self.output.append(out)
def errReceived(self, err):
self.error.append(err)
def processEnded(self, reason):
self.onCompletion.callback((reason, self.output, self.error))
self.onCompletion = None
@skipIf(
not interfaces.IReactorProcess(reactor, None),
"cannot run test: reactor doesn't support IReactorProcess",
)
class ResolveTests(TestCase):
def testChildResolve(self):
# I've seen problems with reactor.run under gtk2reactor. Spawn a
# child which just does reactor.resolve after the reactor has
# started, fail if it does not complete in a timely fashion.
helperPath = os.path.abspath(self.mktemp())
with open(helperPath, "w") as helperFile:
# Eeueuuggg
reactorName = reactor.__module__
helperFile.write(resolve_helper % {"reactor": reactorName})
env = os.environ.copy()
env["PYTHONPATH"] = os.pathsep.join(sys.path)
helperDeferred = Deferred()
helperProto = ChildResolveProtocol(helperDeferred)
reactor.spawnProcess(
helperProto, sys.executable, ("python", "-u", helperPath), env
)
def cbFinished(result):
(reason, output, error) = result
# If the output is "done 127.0.0.1\n" we don't really care what
# else happened.
output = b"".join(output)
expected_output = b"done 127.0.0.1" + os.linesep.encode("ascii")
if output != expected_output:
self.fail(
(
"The child process failed to produce "
"the desired results:\n"
" Reason for termination was: {!r}\n"
" Output stream was: {!r}\n"
" Error stream was: {!r}\n"
).format(reason.getErrorMessage(), output, b"".join(error))
)
helperDeferred.addCallback(cbFinished)
return helperDeferred
@skipIf(
not interfaces.IReactorThreads(reactor, None),
"Nothing to test without thread support",
)
class CallFromThreadTests(TestCase):
"""
Task scheduling from threads tests.
"""
def setUp(self):
self.counter = 0
self.deferred = Deferred()
def schedule(self, *args, **kwargs):
"""
Override in subclasses.
"""
reactor.callFromThread(*args, **kwargs)
def test_lotsOfThreadsAreScheduledCorrectly(self):
"""
L{IReactorThreads.callFromThread} can be used to schedule a large
number of calls in the reactor thread.
"""
def addAndMaybeFinish():
self.counter += 1
if self.counter == 100:
self.deferred.callback(True)
for i in range(100):
self.schedule(addAndMaybeFinish)
return self.deferred
def test_threadsAreRunInScheduledOrder(self):
"""
Callbacks should be invoked in the order they were scheduled.
"""
order = []
def check(_):
self.assertEqual(order, [1, 2, 3])
self.deferred.addCallback(check)
self.schedule(order.append, 1)
self.schedule(order.append, 2)
self.schedule(order.append, 3)
self.schedule(reactor.callFromThread, self.deferred.callback, None)
return self.deferred
def test_scheduledThreadsNotRunUntilReactorRuns(self):
"""
Scheduled tasks should not be run until the reactor starts running.
"""
def incAndFinish():
self.counter = 1
self.deferred.callback(True)
self.schedule(incAndFinish)
# Callback shouldn't have fired yet.
self.assertEqual(self.counter, 0)
return self.deferred
class MyProtocol(protocol.Protocol):
"""
Sample protocol.
"""
class MyFactory(protocol.Factory):
"""
Sample factory.
"""
protocol = MyProtocol
class ProtocolTests(TestCase):
def testFactory(self):
factory = MyFactory()
protocol = factory.buildProtocol(None)
self.assertEqual(protocol.factory, factory)
self.assertIsInstance(protocol, factory.protocol)
class DummyProducer:
"""
Very uninteresting producer implementation used by tests to ensure the
right methods are called by the consumer with which it is registered.
@type events: C{list} of C{str}
@ivar events: The producer/consumer related events which have happened to
this producer. Strings in this list may be C{'resume'}, C{'stop'}, or
C{'pause'}. Elements are added as they occur.
"""
def __init__(self):
self.events = []
def resumeProducing(self):
self.events.append("resume")
def stopProducing(self):
self.events.append("stop")
def pauseProducing(self):
self.events.append("pause")
class SillyDescriptor(abstract.FileDescriptor):
"""
A descriptor whose data buffer gets filled very fast.
Useful for testing FileDescriptor's IConsumer interface, since
the data buffer fills as soon as at least four characters are
written to it, and gets emptied in a single doWrite() cycle.
"""
bufferSize = 3
connected = True
def writeSomeData(self, data):
"""
Always write all data.
"""
return len(data)
def startWriting(self):
"""
Do nothing: bypass the reactor.
"""
stopWriting = startWriting
class ReentrantProducer(DummyProducer):
"""
Similar to L{DummyProducer}, but with a resumeProducing method which calls
back into an L{IConsumer} method of the consumer against which it is
registered.
@ivar consumer: The consumer with which this producer has been or will
be registered.
@ivar methodName: The name of the method to call on the consumer inside
C{resumeProducing}.
@ivar methodArgs: The arguments to pass to the consumer method invoked in
C{resumeProducing}.
"""
def __init__(self, consumer, methodName, *methodArgs):
super().__init__()
self.consumer = consumer
self.methodName = methodName
self.methodArgs = methodArgs
def resumeProducing(self):
super().resumeProducing()
getattr(self.consumer, self.methodName)(*self.methodArgs)
class ProducerTests(TestCase):
"""
Test abstract.FileDescriptor's consumer interface.
"""
def test_doubleProducer(self):
"""
Verify that registering a non-streaming producer invokes its
resumeProducing() method and that you can only register one producer
at a time.
"""
fd = abstract.FileDescriptor()
fd.connected = 1
dp = DummyProducer()
fd.registerProducer(dp, 0)
self.assertEqual(dp.events, ["resume"])
self.assertRaises(RuntimeError, fd.registerProducer, DummyProducer(), 0)
def test_unconnectedFileDescriptor(self):
"""
Verify that registering a producer when the connection has already
been closed invokes its stopProducing() method.
"""
fd = abstract.FileDescriptor()
fd.disconnected = 1
dp = DummyProducer()
fd.registerProducer(dp, 0)
self.assertEqual(dp.events, ["stop"])
def _dontPausePullConsumerTest(self, methodName):
"""
Pull consumers don't get their C{pauseProducing} method called if the
descriptor buffer fills up.
@param _methodName: Either 'write', or 'writeSequence', indicating
which transport method to write data to.
"""
descriptor = SillyDescriptor()
producer = DummyProducer()
descriptor.registerProducer(producer, streaming=False)
self.assertEqual(producer.events, ["resume"])
del producer.events[:]
# Fill up the descriptor's write buffer so we can observe whether or
# not it pauses its producer in that case.
if methodName == "writeSequence":
descriptor.writeSequence([b"1", b"2", b"3", b"4"])
else:
descriptor.write(b"1234")
self.assertEqual(producer.events, [])
def test_dontPausePullConsumerOnWrite(self):
"""
Verify that FileDescriptor does not call producer.pauseProducing() on a
non-streaming pull producer in response to a L{IConsumer.write} call
which results in a full write buffer. Issue #2286.
"""
return self._dontPausePullConsumerTest("write")
def test_dontPausePullConsumerOnWriteSequence(self):
"""
Like L{test_dontPausePullConsumerOnWrite}, but for a call to
C{writeSequence} rather than L{IConsumer.write}.
C{writeSequence} is not part of L{IConsumer}, but
L{abstract.FileDescriptor} has supported consumery behavior in response
to calls to L{writeSequence} forever.
"""
return self._dontPausePullConsumerTest("writeSequence")
def _reentrantStreamingProducerTest(self, methodName):
descriptor = SillyDescriptor()
if methodName == "writeSequence":
data = [b"s", b"p", b"am"]
else:
data = b"spam"
producer = ReentrantProducer(descriptor, methodName, data)
descriptor.registerProducer(producer, streaming=True)
# Start things off by filling up the descriptor's buffer so it will
# pause its producer.
getattr(descriptor, methodName)(data)
# Sanity check - make sure that worked.
self.assertEqual(producer.events, ["pause"])
del producer.events[:]
# After one call to doWrite, the buffer has been emptied so the
# FileDescriptor should resume its producer. That will result in an
# immediate call to FileDescriptor.write which will again fill the
# buffer and result in the producer being paused.
descriptor.doWrite()
self.assertEqual(producer.events, ["resume", "pause"])
del producer.events[:]
# After a second call to doWrite, the exact same thing should have
# happened. Prior to the bugfix for which this test was written,
# FileDescriptor would have incorrectly believed its producer was
# already resumed (it was paused) and so not resume it again.
descriptor.doWrite()
self.assertEqual(producer.events, ["resume", "pause"])
def test_reentrantStreamingProducerUsingWrite(self):
"""
Verify that FileDescriptor tracks producer's paused state correctly.
Issue #811, fixed in revision r12857.
"""
return self._reentrantStreamingProducerTest("write")
def test_reentrantStreamingProducerUsingWriteSequence(self):
"""
Like L{test_reentrantStreamingProducerUsingWrite}, but for calls to
C{writeSequence}.
C{writeSequence} is B{not} part of L{IConsumer}, however
C{abstract.FileDescriptor} has supported consumery behavior in response
to calls to C{writeSequence} forever.
"""
return self._reentrantStreamingProducerTest("writeSequence")
class PortStringificationTests(TestCase):
@skipIf(not interfaces.IReactorTCP(reactor, None), "IReactorTCP is needed")
def testTCP(self):
p = reactor.listenTCP(0, protocol.ServerFactory())
portNo = p.getHost().port
self.assertNotEqual(
str(p).find(str(portNo)), -1, "%d not found in %s" % (portNo, p)
)
return p.stopListening()
@skipIf(not interfaces.IReactorUDP(reactor, None), "IReactorUDP is needed")
def testUDP(self):
p = reactor.listenUDP(0, protocol.DatagramProtocol())
portNo = p.getHost().port
self.assertNotEqual(
str(p).find(str(portNo)), -1, "%d not found in %s" % (portNo, p)
)
return p.stopListening()
@skipIf(not interfaces.IReactorSSL(reactor, None), "IReactorSSL is needed")
@skipIf(not ssl, "SSL support is missing")
def testSSL(self, ssl=ssl):
pem = util.sibpath(__file__, "server.pem")
p = reactor.listenSSL(
0, protocol.ServerFactory(), ssl.DefaultOpenSSLContextFactory(pem, pem)
)
portNo = p.getHost().port
self.assertNotEqual(
str(p).find(str(portNo)), -1, "%d not found in %s" % (portNo, p)
)
return p.stopListening()
class ConnectorReprTests(TestCase):
def test_tcp_repr(self):
c = Connector("localhost", 666, object(), 0, object())
expect = "<twisted.internet.tcp.Connector instance at 0x%x " "disconnected %s>"
expect = expect % (id(c), c.getDestination())
self.assertEqual(repr(c), expect)
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