Exemple #1
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    def send(message):
        """ Sends message to ReductionPending (with the specified delay) """
        message_client = QueueClient()
        message_client.connect()

        message_client.send('/queue/DataReady', message, priority='1')
        message_client.disconnect()
Exemple #2
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 def test_invalid_credentials(self):
     """
     Test: A ConnectionException is raised
     When: _test_connection is called while invalid credentials are held
     """
     client = QueueClient(self.incorrect_credentials)
     with self.assertRaises(ConnectionException):
         client.connect()
Exemple #3
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 def test_invalid_connection_raises_on_test(self, _):
     """
     Test: A ConnectionException is raised
     When: _test_connection is called while a valid connection is not held
     """
     client = QueueClient()
     client.connect()
     self.assertRaises(ConnectionException, client._test_connection)
 def test_valid_connection(self):
     """
     Test: Access is established with a valid connection
     (This by proxy will also test the get_connection function)
     When: connect is called while valid credentials are held
     """
     client = QueueClient()
     client.connect()
     self.assertTrue(client._test_connection())
 def run(self):
     """
     Connect to ActiveMQ via the QueueClient and listen to the
     /ReductionPending queue for messages.
     """
     activemq_client = QueueClient()
     activemq_client.connect()
     activemq_client.subscribe_amq(consumer_name=self.consumer_name,
                                   listener=Listener())
 def test_ack(self, mock_stomp_ack):
     """
     Test: ack sends an ack frame using stomp.ack
     When: ack is called while a valid connection is held
     """
     client = QueueClient()
     client.connect()
     client.ack("test", "subscription")
     mock_stomp_ack.assert_called_once_with('test', "subscription")
 def test_subscribe_to_single_queue(self, mock_stomp_subscribe,
                                    mock_stomp_set_listener):
     """
     Test: subscribe_queues handles a single queue (non-list)
     and calls stomp.subscribe_queues for it
     When: subscribe_queues is called a single queue passed as queue_list
     """
     client = QueueClient()
     client.connect()
     client.subscribe_queues('single-queue', 'consumer', None)
     mock_stomp_set_listener.assert_called_once_with('consumer', None)
     mock_stomp_subscribe.assert_called_once()
Exemple #8
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 def _send_pending_msg(message, delay=None):
     """
     Sends data_dict to ReductionPending (with the specified delay)
     :param message: (Message) The message to send to the pending queue
     :param delay: (int) how long to delay the message sending - if at all (None)
     """
     # To prevent circular dependencies
     message_client = QueueClient()
     message_client.connect()
     message_client.send('/queue/ReductionPending',
                         message,
                         priority='0',
                         delay=delay)
     message_client.disconnect()
def login_queue():
    """
    Log into the QueueClient
    :return: The client connected, or raise exception
    """
    print("Logging into ActiveMQ")
    activemq_client = QueueClient()
    try:
        activemq_client.connect()
    except (ConnectionException, ValueError) as exp:
        raise RuntimeError(
            "Unable to proceed. Unable to log in to ActiveMQ."
            "This is required to perform a manual submission") from exp
    return activemq_client
Exemple #10
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    def _send_pending_msg(message, delay=None):
        """ Sends message to ReductionPending (with the specified delay) """
        # To prevent circular dependencies
        MessagingUtils._add_project_root_to_path()
        from utils.clients.queue_client import QueueClient

        message_client = QueueClient()
        message_client.connect()

        message_client.send('/queue/ReductionPending',
                            message,
                            priority='0',
                            delay=delay)
        message_client.disconnect()
 def test_connection_failed_invalid_credentials(self):
     """
     Test: A ConnectionException is raised
     When: _test_connection is called while invalid credentials are held
     """
     incorrect_credentials = ClientSettingsFactory().create(
         'queue',
         username='******',
         password='******',
         host='not-host',
         port='1234')
     client = QueueClient(incorrect_credentials)
     with self.assertRaises(ConnectionException):
         client.connect()
def login_queue():
    """
    Log into the QueueClient
    :return: The client connected, or raise exception
    """
    print("Logging into ActiveMQ")
    activemq_client = QueueClient()
    try:
        activemq_client.connect()
    except (ConnectionException, ValueError) as exp:
        raise RuntimeError(
            "Cannot connect to ActiveMQ with provided credentials in credentials.ini\n"
            "Check that the ActiveMQ service is running, and the username, password and host are correct."
        ) from exp
    return activemq_client
Exemple #13
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 def test_subscribe_to_single_queue(self, mock_stomp_subscribe, mock_stomp_set_listener):
     """
     Test: subscribe_queues handles a single queue (non-list)
     and calls stomp.subscribe_queues for it
     When: subscribe_queues is called a single queue passed as queue_list
     """
     client = QueueClient()
     client.connect()
     client.subscribe_queues('single-queue', 'consumer', None, 'auto')
     mock_stomp_set_listener.assert_called_once_with('consumer', None)
     test_expected_args = {'destination': 'single-queue',
                           'id': '1',
                           'ack': 'auto',
                           'header': {'activemq.prefetchSize': '1'}}
     mock_stomp_subscribe.assert_called_once_with(**test_expected_args)
def main():
    """ Main method. """
    queue_client = QueueClient()
    try:
        logger.info("PostProcessAdmin Connecting to ActiveMQ")
        queue_client.connect()
        logger.info("PostProcessAdmin Successfully Connected to ActiveMQ")

        destination, data = sys.argv[1:3]  # pylint: disable=unbalanced-tuple-unpacking
        message = Message()
        message.populate(data)
        logger.info("destination: %s", destination)
        logger.info("message: %s",
                    message.serialize(limit_reduction_script=True))

        try:
            post_proc = PostProcessAdmin(message, queue_client)
            log_stream_handler = logging.StreamHandler(
                post_proc.admin_log_stream)
            logger.addHandler(log_stream_handler)
            if destination == '/queue/ReductionPending':
                post_proc.reduce()

        except ValueError as exp:
            message.message = str(
                exp)  # Note: I believe this should be .message
            logger.info("Message data error: %s",
                        message.serialize(limit_reduction_script=True))
            raise

        except Exception as exp:
            logger.info("PostProcessAdmin error: %s", str(exp))
            raise

        finally:
            try:
                logger.removeHandler(log_stream_handler)
            except:
                pass

    except Exception as exp:
        logger.info("Something went wrong: %s", str(exp))
        try:
            queue_client.send(ACTIVEMQ_SETTINGS.reduction_error, message)
            logger.info("Called %s ---- %s", ACTIVEMQ_SETTINGS.reduction_error,
                        message.serialize(limit_reduction_script=True))
        finally:
            sys.exit()
Exemple #15
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def setup_connection(consumer_name):
    """
    Starts the ActiveMQ connection and registers the event listener
    :return: (Listener) A listener instance which has subscribed to an
             ActiveMQ queue
    """
    # Connect to ActiveMQ
    activemq_client = QueueClient()
    activemq_client.connect()

    # Register the event listener
    listener = QueueListener(activemq_client)

    # Subscribe to queues
    activemq_client.subscribe_autoreduce(consumer_name, listener)
    return activemq_client
def setup_connection(consumer_name) -> Tuple[QueueClient, QueueListener]:
    """
    Starts the ActiveMQ connection and registers the event listener
    :return: A client connected and subscribed to the queue specified in credentials, and
             a listener instance which will handle incoming messages
    """
    # Connect to ActiveMQ
    activemq_client = QueueClient()
    activemq_client.connect()

    # Register the event listener
    listener = QueueListener(activemq_client)

    # Subscribe to queues
    activemq_client.subscribe_autoreduce(consumer_name, listener)
    return activemq_client, listener
Exemple #17
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 def test_subscribe_to_queue_list(self, mock_stomp_subscribe, mock_stomp_set_listener):
     """
     Test: subscribe_queues calls stomp.subscribe_queues twice, once for each queue given
     When: subscribe_queues is called with a queue_list length of 2
     """
     client = QueueClient()
     client.connect()
     client.subscribe_queues(['test', 'queues'], 'consumer', None, 'auto')
     mock_stomp_set_listener.assert_called_once_with('consumer', None)
     test_expected_args = {'destination': 'test',
                           'id': '1',
                           'ack': 'auto',
                           'header': {'activemq.prefetchSize': '1'}}
     queue_expected_args = {'destination': 'queues',
                            'id': '1',
                            'ack': 'auto',
                            'header': {'activemq.prefetchSize': '1'}}
     mock_stomp_subscribe.assert_has_calls([call(**test_expected_args),
                                            call(**queue_expected_args)])
Exemple #18
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    class TestEndToEnd(unittest.TestCase):
        """ Class to test pipelines in autoreduction"""
        @classmethod
        def setUpClass(cls):
            # Start all services
            external.start_queue_processors()

        def setUp(self):
            """ Start all external services """
            # Get all clients
            self.database_client = DatabaseClient()
            self.database_client.connect()
            self.queue_client = QueueClient(ACTIVEMQ_SETTINGS)
            self.queue_client.connect()
            # Create test archive and add data
            self.data_archive_creator = DataArchiveCreator(os.path.join(
                get_project_root()),
                                                           overwrite=True)
            self.archive_explorer = ArchiveExplorer(
                os.path.join(get_project_root(), 'data-archive'))
            # Add placeholder variables:
            # these are used to ensure runs are deleted even if test fails before completion
            self.instrument = None
            self.rb_number = None
            self.run_number = None

        def test_end_to_end_wish(self):
            """
            Test that WISH data goes through the system without issue
            """
            # Set meta data for test
            self.instrument = 'WISH'
            self.rb_number = 222
            self.run_number = 101

            reduce_script = \
                'def main(input_file, output_dir):\n' \
                '\tprint("WISH system test")\n' \
                '\n' \
                'if __name__ == "__main__":\n' \
                '\tmain()\n'

            # Create supporting data structures e.g. Data Archive, Reduce directory
            file_location = self._setup_data_structures(
                reduce_script=reduce_script, vars_script='')

            # Create and send json message to ActiveMQ
            data_ready_message = Message(rb_number=self.rb_number,
                                         instrument=self.instrument,
                                         data=file_location,
                                         run_number=self.run_number,
                                         facility="ISIS",
                                         started_by=0)

            self.queue_client.send('/queue/DataReady', data_ready_message)

            # Get Result from database
            results = self._find_run_in_database()

            # Validate
            self.assertEqual(self.instrument, results[0].instrument.name)
            self.assertEqual(self.rb_number,
                             results[0].experiment.reference_number)
            self.assertEqual(self.run_number, results[0].run_number)
            self.assertEqual('Completed', results[0].status.value_verbose())

        def test_wish_user_script_failure(self):
            """
            Test that WISH data goes through the system without issue
            """
            # Set meta data for test
            self.instrument = 'WISH'
            self.rb_number = 222
            self.run_number = 101

            # Create supporting data structures e.g. Data Archive, Reduce directory
            file_location = self._setup_data_structures(reduce_script='fail',
                                                        vars_script='')

            # Create and send json message to ActiveMQ
            data_ready_message = Message(rb_number=self.rb_number,
                                         instrument=self.instrument,
                                         data=file_location,
                                         run_number=self.run_number,
                                         facility="ISIS",
                                         started_by=0)

            self.queue_client.send('/queue/DataReady', data_ready_message)

            # Get Result from database
            results = self._find_run_in_database()

            # Validate
            self.assertEqual(self.instrument, results[0].instrument.name)
            self.assertEqual(self.rb_number,
                             results[0].experiment.reference_number)
            self.assertEqual(self.run_number, results[0].run_number)
            self.assertEqual(
                'e', results[0].status.value)  # verbose value = "Error"

        def _setup_data_structures(self, reduce_script, vars_script):
            """
            Sets up a fake archive and reduced data save location on the system
            :param reduce_script: The content to use in the reduce.py file
            :param vars_script:  The content to use in the reduce_vars.py file
            :return: file_path to the reduced data
            """
            raw_file = '{}{}.nxs'.format(self.instrument, self.run_number)
            # Create and add data to archive
            self.data_archive_creator.make_data_archive([self.instrument], 19,
                                                        19, 1)
            self.data_archive_creator.add_reduce_script(
                instrument=self.instrument, file_content=reduce_script)
            self.data_archive_creator.add_reduce_vars_script(
                self.instrument, vars_script)
            self.data_archive_creator.add_data_to_most_recent_cycle(
                self.instrument, raw_file)

            # Make temporary location to add reduced files to
            self._make_reduction_directory(self.instrument, self.rb_number,
                                           self.run_number)

            # Submit message to activemq
            cycle_path = self.archive_explorer.get_cycle_directory(
                self.instrument, 19, 1)
            return os.path.join(cycle_path, raw_file)

        @staticmethod
        def _make_reduction_directory(instrument, rb_number, run_number):
            """
            Make a directory in the expected location for reduced runs to be written to
            """
            reduced_dir = os.path.join(get_project_root(), 'reduced-data')
            reduced_inst = os.path.join(reduced_dir, str(instrument))
            reduced_rb = os.path.join(reduced_inst,
                                      'RB{}'.format(str(rb_number)))
            reduced_auto = os.path.join(reduced_rb, 'autoreduced')
            reduced_run = os.path.join(reduced_auto, str(run_number))
            os.mkdir(reduced_dir)
            os.mkdir(reduced_inst)
            os.mkdir(reduced_rb)
            os.mkdir(reduced_auto)
            os.mkdir(reduced_run)

        def _find_run_in_database(self):
            """
            Find a ReductionRun record in the database
            This includes a timeout to wait for several seconds to ensure the database has received
            the record in question
            :return: The resulting record
            """
            wait_times = [0, 1, 2, 3, 5]
            results = []
            for timeout in wait_times:
                # Wait before attempting database access
                print(f"Waiting for: {timeout}")
                time.sleep(timeout)
                # Check database has expected values
                instrument_record = db.get_instrument(self.instrument)
                results = self.database_client.data_model.ReductionRun.objects \
                    .filter(instrument=instrument_record.id) \
                    .filter(run_number=self.run_number) \
                    .select_related() \
                    .all()
                try:
                    actual = results[0]
                except IndexError:
                    # If no results found yet then continue
                    continue

                # verbose values = "Completed" or "Error"
                if actual.status.value == 'c' or actual.status.value == 'e':
                    print(
                        f"Job reached {actual.status.value} status after {timeout} seconds"
                    )
                    break

            return results

        @staticmethod
        def _remove_run_from_database(instrument, run_number):
            """
            Uses the scripts.manual_operations.manual_remove script
            to remove records added to the database
            """
            remove.remove(instrument, run_number)

        @staticmethod
        def _delete_reduction_directory():
            """ Delete the temporary reduction directory"""
            shutil.rmtree(os.path.join(get_project_root(), 'reduced-data'))

        def tearDown(self):
            """ Disconnect from services, stop external services and delete data archive """
            self.queue_client.disconnect()
            self.database_client.disconnect()
            self._delete_reduction_directory()
            del self.data_archive_creator
            # Done in tearDown to ensure run is removed even if test fails early
            self._remove_run_from_database(self.instrument, self.run_number)

        @classmethod
        def tearDownClass(cls):
            # Stop external services
            external.stop_queue_processors()