Exemplo n.º 1
0
from mongo import Mongo
from mqtt import MQTT
from signal import pause

mongo = Mongo()
mqtt = MQTT(mongo)

mongo.connect()
mqtt.run()

try:
    pause()
except KeyboardInterrupt:
    pass

mqtt.stop()
mongo.disconnect()
Exemplo n.º 2
0
class Coordinator:

    ########## Constructor ##########

    def __init__(self):
        self.ac_on = False

        self._init_logger()
        self._init_neopixel()
        self._init_ir()

        self._init_mqtt()
        self._init_lock()
        self._init_rfid()
        self._initialise_volume_control()
        self._initialise_ac()
        self._initialise_brightness_control()
        self._init_buttons()

        self._mqtt_client.send_message("boot", "started")
        self.strip.set_mode(Effects.RGB)

########## Logger ##########

    def _init_logger(self):
        self.formatter = logging.Formatter(
            fmt='%(asctime)s %(levelname)-8s %(message)s',
            datefmt='%Y-%m-%d %H:%M:%S')
        self.handler = RotatingFileHandler(
            filename='/home/pi/app/coffee_table.log',
            mode='a',
            maxBytes=20 * 1024 * 1024,
            backupCount=2,
            encoding=None,
            delay=0)
        self.handler.setFormatter(self.formatter)
        self.logger = logging.getLogger("coffee_table")
        self.logger.setLevel(logging.DEBUG)
        self.logger.addHandler(self.handler)
        self.logger.debug("Starting coordinator Service")

########## Lock ##########

    def _init_lock(self):
        self.lock = OutputDevice(HAL.LOCK)
        self.lock.off()

    def open_lock(self, time_s):
        self.strip.pause()
        self.lock.on()
        threading.Timer(time_s, self.close_lock).start()

    def close_lock(self):
        self.lock.off()
        self.strip.unpause()

########## RFID Reader ##########

    def _init_rfid(self):
        self._reader = RFID(self.logger)
        self._reader.on_tag = lambda sender, tag: self._mqtt_client.send_message(
            "tags", tag)
        self._reader.start()

########## IR ##########

    def _init_ir(self):
        self.comms = Comms()
        self.device_state_tv = False
        self.device_state_amp = False
        self.remote = Remote(1, Config.REMOTE_AMP, self.logger, self.comms)

    def turn_on_devices(self):
        if not self.device_state_tv:
            self.remote.press_button(Key.TV_POWER, 1)
            self.device_state_tv = not self.device_state_tv
        if not self.device_state_amp:
            self.remote.press_button(Key.AMP_POWER, 1)
            self.device_state_amp = not self.device_state_amp

########## Room Lights ##########

    def _initialise_brightness_control(self):
        self.lights_held = False
        self.sine = Sine()
        self.rgb_mode_timer = threading.Timer(Config.RGB_MODE_TIMER,
                                              self.leave_rgb_mode)
        self.lights_tx_timer = threading.Timer(Config.LIGHTS_DELAY_TO_SEND,
                                               self.lights_send_brightness)
        self.lights_are_on = True
        self.brightness = 0xFF
        self.rgb_long = 0x00FFFFFF
        self.brightness_control = RotaryEncoder(HAL.LIGHTS_A,
                                                HAL.LIGHTS_B,
                                                maximum=255,
                                                minimum=0,
                                                initial=255,
                                                step_size=5)
        self.brightness_control.on_clockwise = self.brightness_up
        self.brightness_control.on_counter_clockwise = self.brightness_down
        self._mqtt_client.on_rgb = self.on_rgb_message

        self.btn_lights = Button(HAL.LIGHTS_C, pull_up=True)
        self.btn_lights.hold_time = Config.BTN_HOLD_TIME
        self.btn_lights.when_held = self.enter_rgb_mode
        self.btn_lights.when_released = self.toggle_lights
        self.rgb_angle = 0

    def brightness_up(self):
        self.strip.set_temperature(self.brightness_control.percent())
        self.lights_tx_timer.cancel()
        self.lights_tx_timer = threading.Timer(Config.LIGHTS_DELAY_TO_SEND,
                                               self.lights_send_brightness)
        self.lights_tx_timer.start()

    def brightness_down(self):
        self.strip.set_temperature(self.brightness_control.percent())
        self.lights_tx_timer.cancel()
        self.lights_tx_timer = threading.Timer(Config.LIGHTS_DELAY_TO_SEND,
                                               self.lights_send_brightness)
        self.lights_tx_timer.start()

    def rgb_angle_changed(self):
        self.rgb_angle = self.brightness_control.value
        self.colour_picker = self.sine.get_triangle(self.rgb_angle *
                                                    Config.DEGREES_PER_CLICK)
        self.strip.pixels.fill(self.colour_picker)
        self.strip.pixels.show()

        self.lights_tx_timer.cancel()
        self.lights_tx_timer = threading.Timer(Config.LIGHTS_DELAY_TO_SEND,
                                               self.lights_send_rgb)
        self.lights_tx_timer.start()

        self.rgb_mode_timer.cancel()
        self.rgb_mode_timer = threading.Timer(Config.RGB_MODE_TIMER,
                                              self.leave_rgb_mode)
        self.rgb_mode_timer.start()

    def lights_send_brightness(self):
        print("Updating Brightness")
        self._mqtt_client.send_message("lights/brightness",
                                       format(self.brightness_control.value))

    def lights_send_rgb(self):
        string = ",".join(str(x) for x in self.colour_picker)
        print("Updating RGB")
        self._mqtt_client.send_message("lights/rgb", string)

    def enter_rgb_mode(self):
        self.lights_held = True
        self.strip.set_mode(Effects.RGB)
        self.strip.blink(0, 0, 255)
        self.rgb_mode_timer.cancel()
        print("RGB Mode")
        self.strip.set_brightness(1)
        self.brightness_control.loop = True
        self.brightness_control.maximum = round(
            360 / Config.DEGREES_PER_CLICK) - 1
        self.brightness_control.step = 1
        self.brightness_control.value = self.rgb_angle
        self.brightness_control.on_clockwise = None
        self.brightness_control.on_counter_clockwise = None
        self.brightness_control.on_value_change = self.rgb_angle_changed
        self.rgb_mode_timer.cancel()
        self.rgb_mode_timer = threading.Timer(Config.RGB_MODE_TIMER,
                                              self.leave_rgb_mode)
        self.rgb_mode_timer.start()

    def leave_rgb_mode(self):
        self.rgb_mode_timer.cancel()
        print("Normal Mode")
        self.brightness_control.loop = False
        self.brightness_control.maximum = 255
        self.brightness_control.step = 5
        self.brightness_control.value = 255
        self.brightness_control.on_clockwise = self.brightness_up
        self.brightness_control.on_counter_clockwise = self.brightness_down
        self.brightness_control.on_value_change = None
        self.rgb_mode_timer.cancel()
        self.strip.restore()

    def toggle_lights(self):
        if (self.lights_held):
            self.lights_held = False
            return
        self._mqtt_client.send_message("lights/brightness", "toggle")

    def on_rgb_message(self, r, g, b):
        self.strip.set_colour(r, g, b, transient=False, dim_after=5)

########## Neopixel ##########

    def _init_neopixel(self):
        self.strip = Indicator(HAL.WS2812B_DATA, 55)
        self.strip.set_mode(Effects.CYLON)
        self.effect = 1

    def cycle_effect(self):

        if self.effect == 0:
            self.strip.set_mode(Effects.RGB)

        if self.effect == 1:
            self.strip.set_mode(Effects.FIRE)

        if self.effect == 2:
            self.strip.set_mode(Effects.METEOR)

        if self.effect == 3:
            self.strip.set_mode(Effects.CYLON)

        if self.effect == 4:
            self.strip.set_mode(Effects.RGB)
            self.strip.set_colour(40, 0, 0, False)

        if self.effect == 5:
            self.strip.set_mode(Effects.RGB)
            self.strip.set_colour(0, 40, 0, False)

        if self.effect == 6:
            self.strip.set_mode(Effects.RGB)
            self.strip.set_colour(0, 0, 40, False)
            self.effect = -1

        self.effect += 1

########## Volume ##########

    def _initialise_volume_control(self):
        self.receiver = eiscp.eISCP('192.168.1.31')
        self.source = 1
        self.tv_mode = False
        self.volume_power_held = False

        self.button_amp_power = Button(HAL.VOL_C, pull_up=True)
        self.button_amp_power.hold_time = Config.BTN_HOLD_TIME
        self.button_amp_power.when_held = self.btn_volume_held
        self.button_amp_power.when_released = self.btn_volume_release

        self.volume_control = RotaryEncoder(HAL.VOL_A,
                                            HAL.VOL_B,
                                            maximum=60,
                                            minimum=0,
                                            initial=30,
                                            step_size=1)
        self.volume_control.on_clockwise = self.volume_up
        self.volume_control.on_counter_clockwise = self.volume_down
        self.btnvol_was_held = False

    def btn_volume_held(self):
        self.btnvol_was_held = True
        self.strip.blink(0, 0, 255)

    def btn_volume_release(self):
        if not self.btnvol_was_held:
            self._mqtt_client.send_message("amp", "short")
        else:
            self._mqtt_client.send_message("amp", "long")
        self.btnvol_was_held = False

    def switch_mode(self):
        self.tv_mode = not self.tv_mode

    def volume_up(self):
        self.strip.set_temperature(self.volume_control.percent())
        self.receiver.send('MVLUP')

    def volume_down(self):
        self.strip.set_temperature(self.volume_control.percent())
        self.receiver.send('MVLDOWN')

########## Aircon ##########

    def _initialise_ac(self):
        self.ac_power = Button(HAL.AC_C, pull_up=True)
        self.ac_control = RotaryEncoder(HAL.AC_A,
                                        HAL.AC_B,
                                        maximum=30,
                                        minimum=16,
                                        initial=24,
                                        step_size=1,
                                        can_zero=False)
        self.ac_control.on_value_change = self.set_ac
        self.ac_power.when_released = self.toggle_ac
        self.ac_timer = threading.Timer(Config.AIRCON_DELAY_TO_SEND,
                                        self.send_ac_temp)
        self._mqtt_client.on_ac_temp = self.update_temp

    def update_temp(self, temp):
        self.ac_control.value = int(temp)
        self.strip.set_temperature(self.ac_control.percent())

    def set_ac(self):
        self.strip.set_temperature(self.ac_control.percent())
        self.ac_timer.cancel()
        self.ac_timer = threading.Timer(Config.AIRCON_DELAY_TO_SEND,
                                        self.send_ac_temp)
        self.ac_timer.start()

    def send_ac_temp(self):
        self._mqtt_client.send_message("ac/set_temp",
                                       format(self.ac_control.value))

    def toggle_ac(self):
        self._mqtt_client.send_message("btnAC", "click")

########## Buttons ##########

    def _init_buttons(self):
        self.btn1 = Button(HAL.BTN1, pull_up=True)
        self.btn1.when_held = self.btn1_held
        self.btn1.when_released = self.btn1_release
        self.btn1_was_held = False
        self.btn2 = Button(HAL.BTN2, pull_up=True)
        self.btn2.when_held = self.btn2_held
        self.btn2.when_released = self.btn2_release
        self.btn2_was_held = False
        self.btn3 = Button(HAL.BTN3, pull_up=True)
        self.btn3.when_held = self.btn3_held
        self.btn3.when_released = self.btn3_release
        self.btn3_was_held = False
        self.btn4 = Button(HAL.BTN4, pull_up=True)
        self.btn4.when_held = self.btn4_held
        self.btn4.when_released = self.btn4_release
        self.btn4_was_held = False
        self.btn5 = Button(HAL.BTN5, pull_up=True)
        self.btn5.when_held = self.btn5_held
        self.btn5.when_released = self.btn5_release
        self.btn5_was_held = False
        self.btn6 = Button(HAL.BTN6, pull_up=True)
        self.btn6.when_held = self.btn6_held
        self.btn6.when_released = self.btn6_release
        self.btn6_was_held = False

    # LED Fun
    def btn1_held(self):
        self.btn1_was_held = True
        self._mqtt_client.send_message("btn1", "hold")
        self.strip.blink(0, 0, 255)

    def btn1_release(self):
        if not self.btn1_was_held:
            self._mqtt_client.send_message("btn1", "click")
            self.cycle_effect()
        self.btn1_was_held = False

    # Button 2
    def btn2_held(self):
        self.btn2_was_held = True
        self._mqtt_client.send_message("btn2", "hold")
        self.strip.blink(0, 0, 255)

    def btn2_release(self):
        if not self.btn2_was_held:
            self._mqtt_client.send_message("btn2", "click")
            print("Btn2 released")
        self.btn2_was_held = False

    def btn3_held(self):
        self.btn3_was_held = True
        self._mqtt_client.send_message("btn3", "hold")
        self.strip.blink(0, 0, 255)

    def btn3_release(self):
        if not self.btn3_was_held:
            self._mqtt_client.send_message("btn3", "click")
            print("Btn3 released")
        self.btn3_was_held = False

    def btn4_held(self):
        self.btn4_was_held = True
        self._mqtt_client.send_message("btn4", "hold")
        self.strip.blink(0, 0, 255)

    def btn4_release(self):
        if not self.btn4_was_held:
            self._mqtt_client.send_message("btn4", "click")
            print("Btn4 released")
        self.btn4_was_held = False

    #Play/Pause TV
    def btn5_held(self):
        self.btn5_was_held = True
        self._mqtt_client.send_message("btn5", "hold")
        self.strip.blink(0, 0, 255)

    def btn5_release(self):
        if not self.btn5_was_held:
            self._mqtt_client.send_message("btn5", "click")
            print("Btn5 released")
        self.btn5_was_held = False

    # PC On/Off
    def btn6_held(self):
        self.btn6_was_held = True
        self._mqtt_client.send_message("btn6", "hold")
        self.strip.blink(0, 0, 255)

    def btn6_release(self):
        if not self.btn6_was_held:
            self._mqtt_client.send_message("btn6", "click")
            print("Btn6 released")
        self.btn6_was_held = False

########## Command Handler ##########

    def handle_command(self, command):
        if command == "unlock":
            self.open_lock(Config.OPEN_LOCK_TIME)
        elif command == "lock":
            self.lock.off()
        elif command == "fire":
            self.strip.set_mode(Effects.FIRE)
        elif command == "cylon":
            self.strip.set_mode(Effects.CYLON)
        elif command == "stop_rgb":
            self.strip.set_mode(Effects.RGB)
            self.strip.set_colour(0, 10, 0, False)
        elif command == "devices_on":
            self.turn_on_devices()
        elif command == "source_cd":
            self.remote.press_button(Key.AMP_CD, 1)
            self.source = 2
        elif command == "source_video1":
            self.remote.press_button(Key.AMP_VIDEO1, 1)
            self.source = 3
        elif command == "source_video2":
            self.remote.press_button(Key.AMP_VIDEO2, 1)
            self.source = 4
        elif command == "source_aux":
            self.remote.press_button(Key.AMP_AUX, 1)
            self.source = 1
        elif command == "amp_power":
            self.remote.press_button(Key.AMP_POWER, 1)
        elif command == "tv_power":
            self.remote.press_button(Key.TV_POWER, 1)
        elif command == "pause":
            self.remote.press_button(Key.TV_PAUSE, 1)
        elif command == "play":
            self.remote.press_button(Key.TV_PLAY, 1)
        else:
            self.logger.debug("unrecognized command: " + command)

########## MQTT ##########

    def _init_mqtt(self):
        self._mqtt_client = MQTT(secrets.mqtt_broker, secrets.mqtt_port,
                                 secrets.mqtt_user, secrets.mqtt_pass,
                                 self.logger)
        self._mqtt_client.start()

        while self._mqtt_client.connected != True:
            time.sleep(0.1)

        self._mqtt_client.send_message("buttons", "Running")
        self._mqtt_client.send_message("lights/lounge", "update")
        self._mqtt_client.on_command = self.handle_command


########## Main ##########

    def run(self):
        try:
            pause()

        except KeyboardInterrupt:
            self._reader.stop()
            self._mqtt_client.stop()

            self.logger.info("App closing")