Current File : //proc/self/root/usr/lib/python3/dist-packages/twisted/test/test_internet.py
# 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)
¿Qué es la limpieza dental de perros? - Clínica veterinaria


Es la eliminación del sarro y la placa adherida a la superficie de los dientes mediante un equipo de ultrasonidos que garantiza la integridad de las piezas dentales a la vez que elimina en profundidad cualquier resto de suciedad.

A continuación se procede al pulido de los dientes mediante una fresa especial que elimina la placa bacteriana y devuelve a los dientes el aspecto sano que deben tener.

Una vez terminado todo el proceso, se mantiene al perro en observación hasta que se despierta de la anestesia, bajo la atenta supervisión de un veterinario.

¿Cada cuánto tiempo tengo que hacerle una limpieza dental a mi perro?

A partir de cierta edad, los perros pueden necesitar una limpieza dental anual o bianual. Depende de cada caso. En líneas generales, puede decirse que los perros de razas pequeñas suelen acumular más sarro y suelen necesitar una atención mayor en cuanto a higiene dental.


Riesgos de una mala higiene


Los riesgos más evidentes de una mala higiene dental en los perros son los siguientes:

  • Cuando la acumulación de sarro no se trata, se puede producir una inflamación y retracción de las encías que puede descalzar el diente y provocar caídas.
  • Mal aliento (halitosis).
  • Sarro perros
  • Puede ir a más
  • Las bacterias de la placa pueden trasladarse a través del torrente circulatorio a órganos vitales como el corazón ocasionando problemas de endocarditis en las válvulas. Las bacterias pueden incluso acantonarse en huesos (La osteomielitis es la infección ósea, tanto cortical como medular) provocando mucho dolor y una artritis séptica).

¿Cómo se forma el sarro?

El sarro es la calcificación de la placa dental. Los restos de alimentos, junto con las bacterias presentes en la boca, van a formar la placa bacteriana o placa dental. Si la placa no se retira, al mezclarse con la saliva y los minerales presentes en ella, reaccionará formando una costra. La placa se calcifica y se forma el sarro.

El sarro, cuando se forma, es de color blanquecino pero a medida que pasa el tiempo se va poniendo amarillo y luego marrón.

Síntomas de una pobre higiene dental
La señal más obvia de una mala salud dental canina es el mal aliento.

Sin embargo, a veces no es tan fácil de detectar
Y hay perros que no se dejan abrir la boca por su dueño. Por ejemplo…

Recientemente nos trajeron a la clínica a un perro que parpadeaba de un ojo y decía su dueño que le picaba un lado de la cara. Tenía molestias y dificultad para comer, lo que había llevado a sus dueños a comprarle comida blanda (que suele ser un poco más cara y llevar más contenido en grasa) durante medio año. Después de una exploración oftalmológica, nos dimos cuenta de que el ojo tenía una úlcera en la córnea probablemente de rascarse . Además, el canto lateral del ojo estaba inflamado. Tenía lo que en humanos llamamos flemón pero como era un perro de pelo largo, no se le notaba a simple vista. Al abrirle la boca nos llamó la atención el ver una muela llena de sarro. Le realizamos una radiografía y encontramos una fístula que llegaba hasta la parte inferior del ojo.

Le tuvimos que extraer la muela. Tras esto, el ojo se curó completamente con unos colirios y una lentilla protectora de úlcera. Afortunadamente, la úlcera no profundizó y no perforó el ojo. Ahora el perro come perfectamente a pesar de haber perdido una muela.

¿Cómo mantener la higiene dental de tu perro?
Hay varias maneras de prevenir problemas derivados de la salud dental de tu perro.

Limpiezas de dientes en casa
Es recomendable limpiar los dientes de tu perro semanal o diariamente si se puede. Existe una gran variedad de productos que se pueden utilizar:

Pastas de dientes.
Cepillos de dientes o dedales para el dedo índice, que hacen más fácil la limpieza.
Colutorios para echar en agua de bebida o directamente sobre el diente en líquido o en spray.

En la Clínica Tus Veterinarios enseñamos a nuestros clientes a tomar el hábito de limpiar los dientes de sus perros desde que son cachorros. Esto responde a nuestro compromiso con la prevención de enfermedades caninas.

Hoy en día tenemos muchos clientes que limpian los dientes todos los días a su mascota, y como resultado, se ahorran el dinero de hacer limpiezas dentales profesionales y consiguen una mejor salud de su perro.


Limpiezas dentales profesionales de perros y gatos

Recomendamos hacer una limpieza dental especializada anualmente. La realizamos con un aparato de ultrasonidos que utiliza agua para quitar el sarro. Después, procedemos a pulir los dientes con un cepillo de alta velocidad y una pasta especial. Hacemos esto para proteger el esmalte.

La frecuencia de limpiezas dentales necesaria varía mucho entre razas. En general, las razas grandes tienen buena calidad de esmalte, por lo que no necesitan hacerlo tan a menudo e incluso pueden pasarse la vida sin requerir una limpieza. Sin embargo, razas pequeñas como el Yorkshire o el Maltés, deben hacérselas todos los años desde cachorros si se quiere conservar sus piezas dentales.

Otro factor fundamental es la calidad del pienso. Algunas marcas han diseñado croquetas que limpian la superficie del diente y de la muela al masticarse.

Ultrasonido para perros

¿Se necesita anestesia para las limpiezas dentales de perros y gatos?

La limpieza dental en perros no es una técnica que pueda practicarse sin anestesia general , aunque hay veces que los propietarios no quieren anestesiar y si tiene poco sarro y el perro es muy bueno se puede intentar…… , pero no se va a poder pulir ni acceder a todas la zona de la boca …. Además los limpiadores dentales van a irrigar agua y hay riesgo de aspiración a vías respiratorias si no se realiza una anestesia correcta con intubación traqueal . En resumen , sin anestesia no se va hacer una correcta limpieza dental.

Tampoco sirve la sedación ya que necesitamos que el animal esté totalmente quieto, y el veterinario tenga un acceso completo a todas sus piezas dentales y encías.

Alimentos para la limpieza dental

Hay que tener cierto cuidado a la hora de comprar determinados alimentos porque no todos son saludables. Algunos tienen demasiado contenido graso, que en exceso puede causar problemas cardiovasculares y obesidad.

Los mejores alimentos para los dientes son aquellos que están elaborados por empresas farmacéuticas y llevan componentes químicos con tratamientos específicos para el diente del perro. Esto implica no solo limpieza a través de la acción mecánica de morder sino también un tratamiento antibacteriano para prevenir el sarro.

Conclusión

Si eres como la mayoría de dueños, por falta de tiempo , es probable que no estés prestando la suficiente atención a la limpieza dental de tu perro. Por eso te animamos a que comiences a limpiar los dientes de tu perro y consideres atender a su higiene bucal con frecuencia.

Estas simples medidas pueden conllevar a que tu perro tenga una vida más larga y mucho más saludable.

Si te resulta imposible introducir un cepillo de dientes a tu perro en la boca, pásate con él por clínica Tus Veterinarios y te explicamos cómo hacerlo.

Necesitas hacer una limpieza dental profesional a tu mascota?
Llámanos al 622575274 o contacta con nosotros

Deja un comentario

Tu dirección de correo electrónico no será publicada. Los campos obligatorios están marcados con *

¡Hola!