Пример #1
0
    def test_01_increase_and_decrease(self):
        r = increase("hallo_counter1")
        self.assertEqual(r, 1)

        for x in range(1, 5):
            increase("hallo_counter1")

        counter = EventCounter.query.filter_by(
            counter_name="hallo_counter1").first()
        self.assertEqual(counter.counter_value, 5)

        r = decrease("hallo_counter1")
        self.assertEqual(r, 4)

        for x in range(1, 8):
            decrease("hallo_counter1")

        counter = EventCounter.query.filter_by(
            counter_name="hallo_counter1").first()
        self.assertEqual(counter.counter_value, 0)

        # Test reading counter
        r = read("hallo_counter1")
        self.assertEqual(r, 0)
        r = read("unknown counter")
        self.assertEqual(r, None)
Пример #2
0
    def do(self, action, options=None):
        """
        This method executes the defined action in the given event.

        :param action:
        :param options: Contains the flask parameters g, request, response
            and the handler_def configuration
        :type options: dict
        :return:
        """
        ret = True
        #g = options.get("g")
        handler_def = options.get("handler_def")
        handler_options = handler_def.get("options", {})
        counter_name = handler_options.get("counter_name")

        if action == "increase_counter":
            increase(counter_name)
            log.debug(u"Increased the counter {0!s}.".format(counter_name))
        elif action == "decrease_counter":
            allow_negative = handler_options.get("allow_negative_values")
            decrease(counter_name, allow_negative)
            log.debug(u"Decreased the counter {0!s}.".format(counter_name))
        elif action == "reset_counter":
            reset(counter_name)
            log.debug(u"Reset the counter {0!s} to 0.".format(counter_name))

        return ret
Пример #3
0
    def test_00_create_and_increase(self):
        r = increase("hallo_counter")
        self.assertEqual(r, 1)

        r = increase("counter2")
        self.assertEqual(r, 1)

        r = increase("hallo_counter")
        self.assertEqual(r, 2)

        counter = EventCounter.query.filter_by(counter_name="hallo_counter").first()
        self.assertEqual(counter.counter_value, 2)
Пример #4
0
    def do(self, action, options=None):
        """
        This method executes the defined action in the given event.

        :param action:
        :param options: Contains the flask parameters g, request, response
            and the handler_def configuration
        :type options: dict
        :return:
        """
        ret = True
        #g = options.get("g")
        handler_def = options.get("handler_def")
        handler_options = handler_def.get("options", {})
        counter_name = handler_options.get("counter_name")

        if action == "increase_counter":
            r = increase(counter_name)
            log.debug(u"Increased the counter {0!s} to {1!s}.".format(counter_name,
                                                                      r))
        elif action == "decrease_counter":
            allow_negative = handler_options.get("allow_negative_values")
            r = decrease(counter_name, allow_negative)
            log.debug(u"Decreased the counter {0!s} to {1!s}.".format(counter_name,
                                                                      r))
        elif action == "reset_counter":
            reset(counter_name)
            log.debug(u"Reset the counter {0!s} to 0.".format(counter_name))

        return ret
Пример #5
0
    def test_02_decrease_beyond_zero(self):
        r = increase("hallo_counter2")
        self.assertEqual(r, 1)

        for x in range(1, 8):
            decrease("hallo_counter2", allow_negative=True)

        counter = EventCounter.query.filter_by(counter_name="hallo_counter2").first()
        self.assertEqual(counter.counter_value, -6)
Пример #6
0
    def test_02_decrease_beyond_zero(self):
        r = increase("hallo_counter2")
        self.assertEqual(r, 1)

        for x in range(1, 8):
            decrease("hallo_counter2", allow_negative=True)

        counter = EventCounter.query.filter_by(
            counter_name="hallo_counter2").first()
        self.assertEqual(counter.counter_value, -6)
    def test_00_read_eventcounter_to_monitoringstats(self):
        r = increase("counter1")
        self.assertEqual(r, 1)

        r = increase("counter2")
        self.assertEqual(r, 1)

        r = increase("counter1")
        self.assertEqual(r, 2)

        r = read("counter1")
        self.assertEqual(r, 2)

        et = EventCounterTask()
        params = {
            "event_counter": "counter1",
            "stats_key": "C1",
            "reset_event_counter": "True"
        }

        # Now we execute the task
        et.do(params)

        # The counter "counter1" should be resetted
        self.assertEqual(read("counter1"), 0)

        # The value "2" should be written to the statistics key C1.
        stats = get_values("C1")
        self.assertTrue(len(stats), 1)
        self.assertTrue(stats[0][1], 2)

        # Now we increase the event counter again
        increase("counter1")

        # ..and run the event counter task
        et.do(params)
        stats = get_values("C1")
        self.assertTrue(len(stats), 2)
        self.assertTrue(stats[0][1], 2)
        self.assertTrue(stats[0][1], 1)
    def test_00_read_eventcounter_to_monitoringstats(self):
        r = increase("counter1")
        self.assertEqual(r, 1)

        r = increase("counter2")
        self.assertEqual(r, 1)

        r = increase("counter1")
        self.assertEqual(r, 2)

        r = read("counter1")
        self.assertEqual(r, 2)

        et = EventCounterTask()
        params = {"event_counter": "counter1",
                  "stats_key": "C1",
                  "reset_event_counter": "True"}

        # Now we execute the task
        et.do(params)

        # The counter "counter1" should be resetted
        self.assertEqual(read("counter1"), 0)

        # The value "2" should be written to the statistics key C1.
        stats = get_values("C1")
        self.assertTrue(len(stats), 1)
        self.assertTrue(stats[0][1], 2)

        # Now we increase the event counter again
        increase("counter1")

        # ..and run the event counter task
        et.do(params)
        stats = get_values("C1")
        self.assertTrue(len(stats), 2)
        self.assertTrue(stats[0][1], 2)
        self.assertTrue(stats[0][1], 1)
Пример #9
0
    def test_01_increase_and_decrease(self):
        r = increase("hallo_counter1")
        self.assertEqual(r, 1)

        for x in range(1, 5):
            increase("hallo_counter1")

        counter = EventCounter.query.filter_by(counter_name="hallo_counter1").first()
        self.assertEqual(counter.counter_value, 5)

        r = decrease("hallo_counter1")
        self.assertEqual(r, 4)

        for x in range(1, 8):
            decrease("hallo_counter1")

        counter = EventCounter.query.filter_by(counter_name="hallo_counter1").first()
        self.assertEqual(counter.counter_value, 0)

        # Test reading counter
        r = read("hallo_counter1")
        self.assertEqual(r, 0)
        r = read("unknown counter")
        self.assertEqual(r, None)
Пример #10
0
    def do(self, action, options=None):
        """
        This method executes the defined action in the given event.

        :param action:
        :param options: Contains the flask parameters g, request, response
            and the handler_def configuration
        :type options: dict
        :return:
        """
        ret = True
        #g = options.get("g")
        handler_def = options.get("handler_def")
        handler_options = handler_def.get("options", {})

        if action == "increase_counter":
            counter_name = handler_options.get("counter_name")
            r = increase(counter_name)
            log.debug(u"Increased the counter {0!s} to {1!s}.".format(counter_name,
                                                                      r))

        return ret