Пример #1
0
    def setUp(self):
        """Set up."""
        class Helper(object):
            """Fake object with a controllable call."""
            def __init__(self):
                self.call_count = 1
                self.calls = []
                self.ri = None

            def call(self, func):
                """Call function when counter is 0, then stop running."""
                self.call_count -= 1
                self.calls.append(func)
                if self.call_count == 0:
                    for f in self.calls:
                        f()
                if self.call_count <= 0:
                    self.ri.stop()

        class FakeMetrics(object):
            """Fake Metrics object that records calls."""
            def __init__(self):
                """Initialize calls."""
                self.calls = []

            def meter(self, name, count):
                """Record call to meter()."""
                self.calls.append(("meter", name, count))

            def gauge(self, name, val):
                """Record call to gauge()."""
                self.calls.append(("gauge", name, val))

        self.handler = self.add_memento_handler(logger, level=TRACE)

        self.helper = Helper()
        self.fake_metrics = FakeMetrics()
        self.patch(metrics, 'get_meter', lambda n: self.fake_metrics)
        self.ri = ReactorInspector(self.helper.call, loop_time=.1)
        self.helper.ri = self.ri
    def setUp(self):
        """Set up."""
        class Helper(object):
            """Fake object with a controllable call."""
            def __init__(self):
                self.call_count = 1
                self.calls = []
                self.ri = None

            def call(self, func):
                """Call function when counter is 0, then stop running."""
                self.call_count -= 1
                self.calls.append(func)
                if self.call_count == 0:
                    for f in self.calls:
                        f()
                if self.call_count <= 0:
                    self.ri.stop()

        class FakeMetrics(object):
            """Fake Metrics object that records calls."""
            def __init__(self):
                """Initialize calls."""
                self.calls = []

            def meter(self, name, count):
                """Record call to meter()."""
                self.calls.append(("meter", name, count))

            def gauge(self, name, val):
                """Record call to gauge()."""
                self.calls.append(("gauge", name, val))

        self.handler = self.add_memento_handler(logger, level=TRACE)

        self.helper = Helper()
        self.fake_metrics = FakeMetrics()
        self.patch(metrics, 'get_meter', lambda n: self.fake_metrics)
        self.ri = ReactorInspector(self.helper.call, loop_time=.1)
        self.helper.ri = self.ri
class ReactorInspectorTestCase(BaseTestCase, TwistedTestCase):
    """Test the ReactorInspector class."""

    def setUp(self):
        """Set up."""
        class Helper(object):
            """Fake object with a controllable call."""
            def __init__(self):
                self.call_count = 1
                self.calls = []
                self.ri = None

            def call(self, func):
                """Call function when counter is 0, then stop running."""
                self.call_count -= 1
                self.calls.append(func)
                if self.call_count == 0:
                    for f in self.calls:
                        f()
                if self.call_count <= 0:
                    self.ri.stop()

        class FakeMetrics(object):
            """Fake Metrics object that records calls."""
            def __init__(self):
                """Initialize calls."""
                self.calls = []

            def meter(self, name, count):
                """Record call to meter()."""
                self.calls.append(("meter", name, count))

            def gauge(self, name, val):
                """Record call to gauge()."""
                self.calls.append(("gauge", name, val))

        self.handler = self.add_memento_handler(logger, level=TRACE)

        self.helper = Helper()
        self.fake_metrics = FakeMetrics()
        self.patch(metrics, 'get_meter', lambda n: self.fake_metrics)
        self.ri = ReactorInspector(self.helper.call, loop_time=.1)
        self.helper.ri = self.ri

    def run_ri(self, call_count=None, join=True):
        """Set the call count and then run the ReactorInspector."""
        if call_count is not None:
            self.helper.call_count = call_count
        self.start_ts = time.time()
        self.ri.start()
        # Reactor will stop after call_count calls, thanks to helper
        if join:
            self.ri.join()

    def test_stop(self):
        """It stops."""
        self.run_ri(1000, join=False)
        assert self.ri.is_alive()
        self.ri.stop()
        self.ri.join()
        self.assertFalse(self.ri.is_alive())

    @defer.inlineCallbacks
    def test_dump_frames(self):
        """Test how frames are dumped.

        Rules:
        - own frame must not be logged
        - must log all other threads
        - main reactor thread must have special title
        """
        # other thread, whose frame must be logged
        waitingd = defer.Deferred()

        def waiting_function():
            """Function with funny name to be checked later."""
            reactor.callFromThread(waitingd.callback, True)
            # wait have a default value
            event.wait()

        event = threading.Event()
        threading.Thread(target=waiting_function).start()
        # Make sure the thread has entered the waiting_function
        yield waitingd

        # Set reactor_thread since we're not starting the ReactorInspector
        # thread here.
        self.ri.reactor_thread = threading.currentThread().ident

        # dump frames in other thread, also
        def dumping_function():
            """Function with funny name to be checked later."""
            time.sleep(.1)
            self.ri.dump_frames()
            reactor.callFromThread(d.callback, True)

        d = defer.Deferred()
        threading.Thread(target=dumping_function).start()
        yield d
        event.set()

        # check
        self.handler.assert_not_logged("dumping_function")
        self.handler.assert_debug(
            "Dumping Python frame", "waiting_function")
        self.handler.assert_debug(
            "Dumping Python frame", "reactor main thread")

    def test_reactor_ok(self):
        """Reactor working fast."""
        self.run_ri()
        ok_line = self.handler.assert_trace("ReactorInspector: ok")
        self.assertTrue(ok_line)
        self.assertTrue(ok_line.args[-1] >= 0)  # Should be near zero delay
        # Check the metrics
        expected_metric = ("gauge", "delay", ok_line.args[-1])
        self.assertEqual([expected_metric], self.fake_metrics.calls)
        self.assertTrue(self.ri.last_responsive_ts >= self.start_ts)

    @defer.inlineCallbacks
    def test_reactor_blocked(self):
        """Reactor not working fast."""
        dump_frames_called = defer.Deferred()
        self.ri.dump_frames = lambda: dump_frames_called.callback(True)
        self.run_ri(0)
        yield dump_frames_called
        log_line = self.handler.assert_critical(
            "ReactorInspector", "detected unresponsive")
        self.assertTrue(log_line)
        self.assertTrue(log_line.args[-1] >= .1)  # waited for entire loop time
        # Check the metrics
        expected_metric = ("gauge", "delay", log_line.args[-1])
        self.assertEqual([expected_metric], self.fake_metrics.calls)

        self.assertTrue(self.ri.last_responsive_ts < self.start_ts)

    def test_reactor_back_alive(self):
        """Reactor resurrects after some loops."""
        self.run_ri(3)
        late_line = self.handler.assert_warning(
            "ReactorInspector: late", "got: 0")
        self.assertTrue(late_line)
        self.assertTrue(late_line.args[-1] >= .2)  # At least 2 cycles of delay
        # Check the metrics
        expected_metric = ("gauge", "delay", late_line.args[-1])
        self.assertEqual(expected_metric, self.fake_metrics.calls[-1])

        self.assertTrue(self.ri.queue.empty())
        # A late reactor is not considered responsive (until a successful loop)
        self.assertTrue(self.ri.last_responsive_ts < self.start_ts)
Пример #4
0
class ReactorInspectorTestCase(BaseTestCase, TwistedTestCase):
    """Test the ReactorInspector class."""
    def setUp(self):
        """Set up."""
        class Helper(object):
            """Fake object with a controllable call."""
            def __init__(self):
                self.call_count = 1
                self.calls = []
                self.ri = None

            def call(self, func):
                """Call function when counter is 0, then stop running."""
                self.call_count -= 1
                self.calls.append(func)
                if self.call_count == 0:
                    for f in self.calls:
                        f()
                if self.call_count <= 0:
                    self.ri.stop()

        class FakeMetrics(object):
            """Fake Metrics object that records calls."""
            def __init__(self):
                """Initialize calls."""
                self.calls = []

            def meter(self, name, count):
                """Record call to meter()."""
                self.calls.append(("meter", name, count))

            def gauge(self, name, val):
                """Record call to gauge()."""
                self.calls.append(("gauge", name, val))

        self.handler = self.add_memento_handler(logger, level=TRACE)

        self.helper = Helper()
        self.fake_metrics = FakeMetrics()
        self.patch(metrics, 'get_meter', lambda n: self.fake_metrics)
        self.ri = ReactorInspector(self.helper.call, loop_time=.1)
        self.helper.ri = self.ri

    def run_ri(self, call_count=None, join=True):
        """Set the call count and then run the ReactorInspector."""
        if call_count is not None:
            self.helper.call_count = call_count
        self.start_ts = time.time()
        self.ri.start()
        # Reactor will stop after call_count calls, thanks to helper
        if join:
            self.ri.join()

    def test_stop(self):
        """It stops."""
        self.run_ri(1000, join=False)
        assert self.ri.is_alive()
        self.ri.stop()
        self.ri.join()
        self.assertFalse(self.ri.is_alive())

    @defer.inlineCallbacks
    def test_dump_frames(self):
        """Test how frames are dumped.

        Rules:
        - own frame must not be logged
        - must log all other threads
        - main reactor thread must have special title
        """
        # other thread, whose frame must be logged
        waitingd = defer.Deferred()

        def waiting_function():
            """Function with funny name to be checked later."""
            reactor.callFromThread(waitingd.callback, True)
            # wait have a default value
            event.wait()

        event = threading.Event()
        threading.Thread(target=waiting_function).start()
        # Make sure the thread has entered the waiting_function
        yield waitingd

        # Set reactor_thread since we're not starting the ReactorInspector
        # thread here.
        self.ri.reactor_thread = threading.currentThread().ident

        # dump frames in other thread, also
        def dumping_function():
            """Function with funny name to be checked later."""
            time.sleep(.1)
            self.ri.dump_frames()
            reactor.callFromThread(d.callback, True)

        d = defer.Deferred()
        threading.Thread(target=dumping_function).start()
        yield d
        event.set()

        # check
        self.handler.assert_not_logged("dumping_function")
        self.handler.assert_debug("Dumping Python frame", "waiting_function")
        self.handler.assert_debug("Dumping Python frame",
                                  "reactor main thread")

    def test_reactor_ok(self):
        """Reactor working fast."""
        self.run_ri()
        ok_line = self.handler.assert_trace("ReactorInspector: ok")
        self.assertTrue(ok_line)
        self.assertTrue(ok_line.args[-1] >= 0)  # Should be near zero delay
        # Check the metrics
        expected_metric = ("gauge", "delay", ok_line.args[-1])
        self.assertEqual([expected_metric], self.fake_metrics.calls)
        self.assertTrue(self.ri.last_responsive_ts >= self.start_ts)

    @defer.inlineCallbacks
    def test_reactor_blocked(self):
        """Reactor not working fast."""
        dump_frames_called = defer.Deferred()
        self.ri.dump_frames = lambda: dump_frames_called.callback(True)
        self.run_ri(0)
        yield dump_frames_called
        log_line = self.handler.assert_critical("ReactorInspector",
                                                "detected unresponsive")
        self.assertTrue(log_line)
        self.assertTrue(log_line.args[-1] >= .1)  # waited for entire loop time
        # Check the metrics
        expected_metric = ("gauge", "delay", log_line.args[-1])
        self.assertEqual([expected_metric], self.fake_metrics.calls)

        self.assertTrue(self.ri.last_responsive_ts < self.start_ts)

    def test_reactor_back_alive(self):
        """Reactor resurrects after some loops."""
        self.run_ri(3)
        late_line = self.handler.assert_warning("ReactorInspector: late",
                                                "got: 0")
        self.assertTrue(late_line)
        self.assertTrue(late_line.args[-1] >= .2)  # At least 2 cycles of delay
        # Check the metrics
        expected_metric = ("gauge", "delay", late_line.args[-1])
        self.assertEqual(expected_metric, self.fake_metrics.calls[-1])

        self.assertTrue(self.ri.queue.empty())
        # A late reactor is not considered responsive (until a successful loop)
        self.assertTrue(self.ri.last_responsive_ts < self.start_ts)