# from pprint import pprint
    # pprint(config['gridappsd'])
    with run_containers(config, stop_after=True) as containers:
        # Watches the log on the container for the MYSQL data.
        containers.wait_for_log_pattern("gridappsd", "MYSQL")

        gappsd = GridAPPSD()
        gappsd.connect()
        assert gappsd.connected

        time.sleep(10)
        sim = Simulation(gappsd, run_config=run_config)

        sim.add_onstart_callback(onstart)
        sim.add_oncomplete_callback(onfinish)
        sim.add_ontimestep_callback(ontimestep)
        sim.add_onmesurement_callback(onmeasurement)

        sim.start_simulation()
        sim.pause()
        gappsd.subscribe(t.simulation_output_topic(sim.simulation_id), onsimulationoutput)
        gappsd.subscribe(t.application_output_topic(GRIDAPPSD_SERVICE_ID, sim.simulation_id), onsensoroutput)
        time.sleep(10)
        sim.resume()
        sim.run_loop()
        print("Shutting down")

    fh_sim_measurement.close()
    fh_sensor_measurement.close()
    fncs_measurements.close()
class GridAPPSDSimIntegration(BaseSimIntegration):
    """
    The class is responsible for integration with GridAPPSD co-simulation platform.
    It provides integration support to register configuration, start, stop, publish,
    receive messages, pause and resume simulation
    """
    def __init__(self, config, pubsub):
        super(GridAPPSDSimIntegration, self).__init__(config)
        self._work_callback = None
        self.config = config
        self.gridappsd = None
        self.sim = None
        self.event_callbacks = {}
        self.topic_callbacks = {}
        self.sim_id = None
        self.username = None
        self.password = None

    def register_inputs(self, config=None, callback=None, **kwargs):
        """
        Register configuration parameters with GridAppsD.
        The config parameters may include but not limited to:
        - power_system_config
        - application_config
        - simulation_config
        - test_config
        - service_configs
        : Register agent callback method
        :return:
        """
        self.config = config
        self.username = self.config.pop('username', 'system')
        self.password = self.config.pop('password', 'manager')
        self._work_callback = callback

    def register_event_callbacks(self, callbacks={}):
        """
        Register for event callbacks for event notifications such as
        - on measurement change
        - on timestep change
        - on finish
        """
        _log.debug("Registering for event callbacks")
        self.event_callbacks = callbacks

    def register_topic_callbacks(self, callbacks={}):
        """
        Register for any simulation topic callbacks
        """
        _log.debug("Registering for topic callbacks")
        self.topic_callbacks = callbacks

    def start_simulation(self, *args, **kwargs):
        """
        Simulation start activities involve:
        - Creating GridAppsD connection gevent thread
        - Registering for event callbacks (if specified)
        - Registering for topic callbacks if specified
        - Starting simulation based on the input config
        :return:
        """
        try:
            self.gridappsd = GridAPPSD(override_threading=self.receiver_thread,
                                       username=self.username,
                                       password=self.password)

            _log.debug('Gridappsd connected')

            _log.debug(f"connection config is: {self.config}")
            self.sim = Simulation(self.gridappsd, self.config)

            _log.debug('Gridappsd adding onstart callback')
            # Register for onstart callback to know if simulation has started
            self.sim.add_onstart_callback(self.sim_on_start)
            # Register event callbacks - on measurement, on timestep, on finish
            for name, cb in self.event_callbacks.items():
                if name == 'MEASUREMENT':
                    _log.debug('Gridappsd adding measurement callback')
                    self.sim.add_onmesurement_callback(cb)
                elif name == 'TIMESTEP':
                    _log.debug('Gridappsd adding timestep callback')
                    self.sim.add_ontimestep_callback(cb)
                elif name == 'FINISH':
                    _log.debug('Gridappsd adding finish callback')
                    self.sim.add_oncomplete_callback(cb)

            # Register/Subscribe for simulation topics
            for topic, cb in self.topic_callbacks:
                _log.debug('Gridappsd subscribing to topics callback')
                self.gridappsd.subscribe(topic, cb)

            # Starting GridAppsD simulation
            self.sim.start_simulation()
            _log.debug(f"Gridappsd simulation id: {self.sim.simulation_id}")
        except stomp.exception.NotConnectedException as ex:
            _log.error("Unable to connect to GridAPPSD: {}".format(ex))
            raise ex

    def sim_on_start(self, sim):
        """
        Simulation on start callback to get notified when simulation starts
        """
        _log.debug(
            f"GridAppsD simulation id inside sim_on_start(): {sim.simulation_id}"
        )
        self.sim_id = sim.simulation_id

    def receiver_thread(self, arg):
        """
        GridAPPSD connection thread
        """
        self._receiver_thread = gevent.threading.Thread(group=None, target=arg)
        self._receiver_thread.daemon = True  # Don't let thread prevent termination
        self._receiver_thread.start()
        _log.debug('Gridappsd receiver_thread started!')
        return self._receiver_thread

    def publish_to_simulation(self, topic, message, **kwargs):
        """
        Publish message to GridAppsD
        :param topic: GridAppsD publication topic
        :param message: message
        :return:
        """
        self.gridappsd.send(topic, message)

    def pause_simulation(self, timeout=None, **kwargs):
        """
        Pause the GridAppsD simulation
        """
        if timeout is None:
            self.sim.pause()
        else:
            self.sim.pause(timeout)

    def resume_simulation(self, *args, **kwargs):
        """
        Resume the GridAppsD simulation
        """
        self.sim.resume()

    def is_sim_installed(self, **kwargs):
        """
        Flag to indicate if GridAppsD is installed
        """
        return HAS_GAPPSD

    def stop_simulation(self, *args, **kwargs):
        """
        Stop the simulation if running and disconnect from GridAppsD server
        :return:
        """
        _log.debug('Stopping the simulation')
        try:
            if self.sim_id is not None:
                self.sim.stop()
            _log.debug('Disconnect GridAppsd')
            if self.gridappsd is not None:
                self.gridappsd.disconnect()
        except Exception:
            _log.error("Error stop GridAPPSD simulation")
Exemple #3
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def test_simulation_output(gridappsd_client, sim_config_file, sim_result_file):
    global resume_msg
    global pause_msg
    sim_config_file = os.path.join(os.path.dirname(__file__), f"simulation_config_files/{sim_config_file}")
    sim_expected_results_file = os.path.join(os.path.dirname(__file__), f"simulation_baseline_files/{sim_result_file}")
    sim_actual_result_file = f"/tmp/output/{sim_result_file}"
    os.makedirs(Path(sim_actual_result_file).parent, exist_ok=True)
    assert os.path.exists(sim_config_file), f"File {sim_config_file} must exist to run simulation test"
    # assert os.path.exists(sim_result_file), f"File {sim_result_file} must exist to run simulation test"

    gapps = gridappsd_client

    sleep(30)
    os.makedirs("/tmp/output", exist_ok=True)
    with open(sim_actual_result_file, 'w') as outfile:
        LOGGER.info('Configuring simulation')
        sim_complete = False
        rcvd_measurement = False
        rcvd_first_measurement = 0
        are_we_paused = False
        received_measurment_count = 0

        LOGGER.info('Loading config')
        with open(sim_config_file) as fp:
            LOGGER.info('Reading config')
            run_config = json.load(fp)
        # run_config["simulation_config"]["start_time"] = str(starttime)

        sim = Simulation(gapps, run_config)

        def onmeasurement(sim, timestep, measurements):
            LOGGER.info('Measurement received at %s', timestep)
            nonlocal rcvd_measurement
            nonlocal received_measurment_count
            received_measurment_count += 1
            try:

                if not rcvd_measurement:
                    print(f"A measurement happened at {timestep}")
                    # outfile.write(f"{timestep}|{json.dumps(measurements)}\n")
                    data = {"data": measurements}
                    outfile.write(json.dumps(data))
                    rcvd_measurement = True

                else:
                    rcvd_measurement = True
                # rcvd_first_measurement = True
            except Exception as ex:
                LOGGER.error(f"An exception handled in callback {ex}")

        # sleep here until rcvd_measuremnt = True again

        # def ontimestep(sim, timestep):
        #    # print("Timestamp: {}".format(timestep))

        def onfinishsimulation(sim):
            nonlocal sim_complete
            sim_complete = True
            LOGGER.info('Simulation Complete')

        LOGGER.info('sim.add_onmesurement_callback')

        LOGGER.info('Starting sim')
        sim.start_simulation()
        print(sim.simulation_id)
        sim.add_onmesurement_callback(onmeasurement)
        # sim.add_ontimestep_callback(ontimestep)
        gapps.subscribe(t.simulation_log_topic(sim.simulation_id), on_message)
        sim.add_oncomplete_callback(onfinishsimulation)
        LOGGER.info('sim.add_oncomplete_callback')
        secs = 0
        num_measurements_before_pause = 3
        while received_measurment_count < num_measurements_before_pause:
            LOGGER.info(f"Waiting for at least {num_measurements_before_pause} measurements"
                        f"but have {received_measurment_count} time take {secs}s ")
            secs += 1
            sleep(1)

        LOGGER.debug("Pausing sim now")
        sim.pause()
        are_we_paused = True

        paused_seconds = 0
        while are_we_paused:
            LOGGER.info(f"PAUSED {paused_seconds}")
            paused_seconds += 1

            if paused_seconds > 30:
                LOGGER.info('Resuming simulation')
                sim.resume()
                LOGGER.info('Resumed simulation')
                are_we_paused = False
                break
            sleep(1)

        assert not are_we_paused, "We should have came out of the paused_seconds > 30"
        assert "paused" in pause_msg, 'Pause command not called'
        sleep(10)
        assert "resumed" in resume_msg, 'Resume command not called'

        while not sim_complete:
            LOGGER.info('Sleeping')
            sleep(5)