Exemplo n.º 1
0
class Command(MpfCommandLineParser):
    """Performs hardware operations."""
    def __init__(self, args, path):
        """Parse args."""
        command_name = args.pop(1)
        super().__init__(args=args, path=path)

        machine_path, remaining_args = self.parse_args()
        self.machine_path = machine_path
        self.args = remaining_args
        config_loader = YamlMultifileConfigLoader(machine_path,
                                                  ["config.yaml"], True, False)

        config = config_loader.load_mpf_config()

        self.mpf = MachineController(
            {
                "bcp": False,
                "no_load_cache": False,
                "mpfconfigfile": os.path.join(self.mpf_path, "mpfconfig.yaml"),
                "configfile": ["config"],
                "production": False,
                "create_config_cache": False,
                "force_platform": False,
                "text_ui": False
            }, config)
        self.mpf.clock.loop.run_until_complete(
            self.mpf.initialise_core_and_hardware())
        if self.mpf.thread_stopper.is_set():
            raise AssertionError("Initialisation failed!")

        method = getattr(self, command_name)
        method()

    def scan(self):
        """Scan hardware."""
        for name, platform in self.mpf.hardware_platforms.items():
            print("{}:".format(name))
            print(platform.get_info_string())
            print("---------")

        self.mpf.shutdown()

    def firmware_update(self):
        """Upgrade firmware of platforms."""
        for name, platform in self.mpf.hardware_platforms.items():
            print("{}:".format(name))
            print(platform.update_firmware())
            print("---------")

        self.mpf.shutdown()
Exemplo n.º 2
0
class Command(object):
    """Performs hardware operations."""
    def __init__(self, mpf_path, machine_path, args):
        """Parse args."""
        self.mpf_path = mpf_path
        self.machine_path = machine_path
        self.args = args
        self.mpf = MachineController(
            self.mpf_path, self.machine_path, {
                "bcp": False,
                "no_load_cache": False,
                "mpfconfigfile": os.path.join(mpf_path, "mpfconfig.yaml"),
                "configfile": ["config"],
                "production": False,
                "create_config_cache": False,
                "force_platform": False,
                "text_ui": False
            })
        self.mpf.clock.loop.run_until_complete(
            self.mpf.initialise_core_and_hardware())
        if self.mpf.thread_stopper.is_set():
            raise AssertionError("Initialisation failed!")

    def scan(self):
        """Scan hardware."""
        for name, platform in self.mpf.hardware_platforms.items():
            print("{}:".format(name))
            print(platform.get_info_string())
            print("---------")

        self.mpf.shutdown()

    def firmware_update(self):
        """Upgrade firmware of platforms."""
        for name, platform in self.mpf.hardware_platforms.items():
            print("{}:".format(name))
            print(platform.update_firmware())
            print("---------")

        self.mpf.shutdown()
Exemplo n.º 3
0
class Command(MpfCommandLineParser):
    """Performs hardware operations."""
    def __init__(self, args, path):
        """Parse args."""
        command_name = args.pop(1)
        super().__init__(args=args, path=path)

        machine_path, remaining_args = self.parse_args()
        self.machine_path = machine_path
        self.args = remaining_args
        config_loader = YamlMultifileConfigLoader(machine_path,
                                                  ["config.yaml"], True, False)

        config = config_loader.load_mpf_config()

        self.mpf = MachineController(
            {
                "bcp": False,
                "no_load_cache": False,
                "mpfconfigfile": os.path.join(self.mpf_path, "mpfconfig.yaml"),
                "configfile": ["config"],
                "production": False,
                "create_config_cache": False,
                "force_platform": False,
                "text_ui": False
            }, config)

        method = getattr(self, command_name)
        method()

    def scan(self):
        """Scan hardware."""
        self.mpf.clock.loop.run_until_complete(
            self.mpf.initialise_core_and_hardware())
        if self.mpf.thread_stopper.is_set():
            raise AssertionError("Initialisation failed!")

        for name, platform in self.mpf.hardware_platforms.items():
            print("{}:".format(name))
            print(platform.get_info_string())
            print("---------")

        self.mpf.shutdown()

    def firmware_update(self):
        """Upgrade firmware of platforms."""
        self.mpf.clock.loop.run_until_complete(
            self.mpf.initialise_core_and_hardware())
        if self.mpf.thread_stopper.is_set():
            raise AssertionError("Initialisation failed!")

        for name, platform in self.mpf.hardware_platforms.items():
            print("{}:".format(name))
            print(platform.update_firmware())
            print("---------")

        self.mpf.shutdown()

    # pylint: disable-msg=too-many-locals
    def _test_repeated_pulses_with_rule(self, config, pulse_ms, pause_min,
                                        pause_max):
        latency = []
        rule_latency = []
        pulse_duration = []
        rule_pulse_duration = []
        timeouts = 0

        config["flipper"].enable()

        for _ in range(100):
            # measure coil -> input latency
            pulse_start = time.time()
            config["coil1"].pulse(pulse_ms=pulse_ms)

            try:
                self.mpf.clock.loop.run_until_complete(
                    asyncio.wait_for(
                        self.mpf.switch_controller.wait_for_switch(
                            config["switch1"], state=1, only_on_change=False),
                        timeout=.5))
                switch_active = time.time()
                self.mpf.clock.loop.run_until_complete(
                    asyncio.wait_for(
                        self.mpf.switch_controller.wait_for_switch(
                            config["switch2"], state=1, only_on_change=False),
                        timeout=.5))
                switch2_active = time.time()

                self.mpf.clock.loop.run_until_complete(
                    asyncio.wait_for(
                        self.mpf.switch_controller.wait_for_switch(
                            config["switch1"], state=0, only_on_change=False),
                        timeout=.5))
                switch_inactive = time.time()
                self.mpf.clock.loop.run_until_complete(
                    asyncio.wait_for(
                        self.mpf.switch_controller.wait_for_switch(
                            config["switch2"], state=0, only_on_change=False),
                        timeout=.5))
                switch2_inactive = time.time()
            except asyncio.TimeoutError:
                print(
                    "WARNING: Ran into timeout while waiting. Check your setup!"
                )
                timeouts += 1
                continue

            self.mpf.clock.loop.run_until_complete(
                asyncio.sleep(
                    random.uniform(pause_min * 0.001, pause_max * 0.001)))

            latency.append((switch_active - pulse_start) * 1000)
            rule_latency.append((switch2_active - switch_active) * 1000)
            pulse_duration.append((switch_inactive - switch_active) * 1000)
            rule_pulse_duration.append(
                (switch2_inactive - switch2_active) * 1000)

        print(
            "----------------------------------------------------------------------------------------"
        )
        print("Pulse duration: {}ms Pause: {}ms to {}ms".format(
            pulse_ms, pause_min, pause_max))
        print(
            "Latency mean: {:.2f} median: {:.2f} min: {:.2f} max: {:.2f} stdev: {:.2f} variance: {:.2f}"
            .format(statistics.mean(latency), statistics.median(latency),
                    min(latency), max(latency), statistics.stdev(latency),
                    statistics.variance(latency)))
        print(
            "Rule Latency mean: {:.2f} median: {:.2f} min: {:.2f} max: {:.2f} stdev: {:.2f} variance: {:.2f}"
            .format(statistics.mean(rule_latency),
                    statistics.median(rule_latency), min(rule_latency),
                    max(rule_latency), statistics.stdev(rule_latency),
                    statistics.variance(rule_latency)))
        print(
            "Pulse duration measured mean: {:.2f} median: {:.2f} min: {:.2f} max: {:.2f} stdev: {:.2f} "
            "variance: {:.2f}".format(statistics.mean(pulse_duration),
                                      statistics.median(pulse_duration),
                                      min(pulse_duration), max(pulse_duration),
                                      statistics.stdev(pulse_duration),
                                      statistics.variance(pulse_duration)))
        print(
            "Rule Pulse duration measured mean: {:.2f} median: {:.2f} min: {:.2f} max: {:.2f} stdev: {:.2f} "
            "variance: {:.2f}".format(
                statistics.mean(rule_pulse_duration),
                statistics.median(rule_pulse_duration),
                min(rule_pulse_duration), max(rule_pulse_duration),
                statistics.stdev(rule_pulse_duration),
                statistics.variance(rule_pulse_duration)))
        if timeouts:
            print(
                "Warning: Experienced {} timeouts during benchmark. Check your setup!"
                .format(timeouts))
        print(
            "----------------------------------------------------------------------------------------"
        )
        print()

        config["flipper"].disable()

    def benchmark(self):
        """Benchmark hardware."""
        self.mpf.clock.loop.run_until_complete(self.mpf.initialise())
        if self.mpf.thread_stopper.is_set():
            raise AssertionError("Initialisation failed!")

        print(self.mpf.switches, self.mpf.coils)
        config = self.mpf.config_validator.validate_config(
            "hardware_benchmark", self.mpf.config.get("hardware_benchmark",
                                                      {}))
        print(
            "1. Please confirm that you connected driver \"{}\" to switch \"{}\" and "
            "driver \"{}\" to switch \"{}\"".format(config["coil1"],
                                                    config["switch1"],
                                                    config["coil2"],
                                                    config["switch2"]))
        print("2. Turn off high voltage!")
        print(
            "3. Hardware test will repeatedly pulse driver \"{}\" and \"{}\". "
            "Make sure they are not connected to coils and cannot cause any harm."
            .format(config["coil1"], config["coil2"]))
        print("4. Turn off high voltage! (seriously)")
        print("")

        input_text = input(
            "I am certain and know what I am doing (type YES if you are certain): "
        )
        if input_text != "YES":
            print("Wrong input. Exiting!")
            self.mpf.shutdown()
            return

        input_text = input(
            "I did turn off high voltage (type HIGH VOLTAGE IS OFF): ")
        if input_text != "HIGH VOLTAGE IS OFF":
            print("Wrong input. Exiting!")
            self.mpf.shutdown()
            return

        print()
        print("This will take a few seconds. Please standby!")
        print()

        if config["flipper"].config["main_coil"] != config["coil2"]:
            print("Main_coil on flipper {} should be {} but is {}.".format(
                config["flipper"], config["coil2"],
                config["flipper"].config["main_coil"]))
            self.mpf.shutdown()
            return

        if config["flipper"].config["activation_switch"] != config["switch1"]:
            print("Activation_switch on flipper {} should be {} but is {}.".
                  format(config["flipper"], config["switch1"],
                         config["flipper"].config["activation_switch"]))
            self.mpf.shutdown()
            return

        if config["switch1"].state != 0:
            print("Switch {} should be inactive but is active.".format(
                config["switch1"]))
            self.mpf.shutdown()
            return

        if config["switch2"].state != 0:
            print("Switch {} should be inactive but is active.".format(
                config["switch2"]))
            self.mpf.shutdown()
            return

        # let the platform settle
        self.mpf.clock.loop.run_until_complete(asyncio.sleep(.5))

        self._test_repeated_pulses_with_rule(config, 53, 50, 100)
        self.mpf.clock.loop.run_until_complete(asyncio.sleep(.5))
        self._test_repeated_pulses_with_rule(config, 23, 5, 20)
        self.mpf.clock.loop.run_until_complete(asyncio.sleep(.5))
        self._test_repeated_pulses_with_rule(config, 13, 1, 2)

        self.mpf.shutdown()