"""Support for Flux lights.""" import logging import random from flux_led import BulbScanner, WifiLedBulb import voluptuous as vol from homeassistant.components.light import ( ATTR_BRIGHTNESS, ATTR_COLOR_TEMP, ATTR_EFFECT, ATTR_HS_COLOR, ATTR_WHITE_VALUE, EFFECT_COLORLOOP, EFFECT_RANDOM, PLATFORM_SCHEMA, SUPPORT_BRIGHTNESS, SUPPORT_COLOR, SUPPORT_COLOR_TEMP, SUPPORT_EFFECT, SUPPORT_WHITE_VALUE, LightEntity, ) from homeassistant.const import ATTR_MODE, CONF_DEVICES, CONF_NAME, CONF_PROTOCOL import homeassistant.helpers.config_validation as cv import homeassistant.util.color as color_util _LOGGER = logging.getLogger(__name__) CONF_AUTOMATIC_ADD = "automatic_add" CONF_CUSTOM_EFFECT = "custom_effect" CONF_COLORS = "colors" CONF_SPEED_PCT = "speed_pct" CONF_TRANSITION = "transition" DOMAIN = "flux_led" SUPPORT_FLUX_LED = SUPPORT_BRIGHTNESS | SUPPORT_EFFECT | SUPPORT_COLOR MODE_RGB = "rgb" MODE_RGBW = "rgbw" # This mode enables white value to be controlled by brightness. # RGB value is ignored when this mode is specified. MODE_WHITE = "w" # Constant color temp values for 2 flux_led special modes # Warm-white and Cool-white modes COLOR_TEMP_WARM_VS_COLD_WHITE_CUT_OFF = 285 # List of supported effects which aren't already declared in LIGHT EFFECT_RED_FADE = "red_fade" EFFECT_GREEN_FADE = "green_fade" EFFECT_BLUE_FADE = "blue_fade" EFFECT_YELLOW_FADE = "yellow_fade" EFFECT_CYAN_FADE = "cyan_fade" EFFECT_PURPLE_FADE = "purple_fade" EFFECT_WHITE_FADE = "white_fade" EFFECT_RED_GREEN_CROSS_FADE = "rg_cross_fade" EFFECT_RED_BLUE_CROSS_FADE = "rb_cross_fade" EFFECT_GREEN_BLUE_CROSS_FADE = "gb_cross_fade" EFFECT_COLORSTROBE = "colorstrobe" EFFECT_RED_STROBE = "red_strobe" EFFECT_GREEN_STROBE = "green_strobe" EFFECT_BLUE_STROBE = "blue_strobe" EFFECT_YELLOW_STROBE = "yellow_strobe" EFFECT_CYAN_STROBE = "cyan_strobe" EFFECT_PURPLE_STROBE = "purple_strobe" EFFECT_WHITE_STROBE = "white_strobe" EFFECT_COLORJUMP = "colorjump" EFFECT_CUSTOM = "custom" EFFECT_MAP = { EFFECT_COLORLOOP: 0x25, EFFECT_RED_FADE: 0x26, EFFECT_GREEN_FADE: 0x27, EFFECT_BLUE_FADE: 0x28, EFFECT_YELLOW_FADE: 0x29, EFFECT_CYAN_FADE: 0x2A, EFFECT_PURPLE_FADE: 0x2B, EFFECT_WHITE_FADE: 0x2C, EFFECT_RED_GREEN_CROSS_FADE: 0x2D, EFFECT_RED_BLUE_CROSS_FADE: 0x2E, EFFECT_GREEN_BLUE_CROSS_FADE: 0x2F, EFFECT_COLORSTROBE: 0x30, EFFECT_RED_STROBE: 0x31, EFFECT_GREEN_STROBE: 0x32, EFFECT_BLUE_STROBE: 0x33, EFFECT_YELLOW_STROBE: 0x34, EFFECT_CYAN_STROBE: 0x35, EFFECT_PURPLE_STROBE: 0x36, EFFECT_WHITE_STROBE: 0x37, EFFECT_COLORJUMP: 0x38, } EFFECT_CUSTOM_CODE = 0x60 TRANSITION_GRADUAL = "gradual" TRANSITION_JUMP = "jump" TRANSITION_STROBE = "strobe" FLUX_EFFECT_LIST = sorted(list(EFFECT_MAP)) + [EFFECT_RANDOM] CUSTOM_EFFECT_SCHEMA = vol.Schema( { vol.Required(CONF_COLORS): vol.All( cv.ensure_list, vol.Length(min=1, max=16), [ vol.All( vol.ExactSequence((cv.byte, cv.byte, cv.byte)), vol.Coerce(tuple) ) ], ), vol.Optional(CONF_SPEED_PCT, default=50): vol.All( vol.Range(min=0, max=100), vol.Coerce(int) ), vol.Optional(CONF_TRANSITION, default=TRANSITION_GRADUAL): vol.All( cv.string, vol.In([TRANSITION_GRADUAL, TRANSITION_JUMP, TRANSITION_STROBE]) ), } ) DEVICE_SCHEMA = vol.Schema( { vol.Optional(CONF_NAME): cv.string, vol.Optional(ATTR_MODE, default=MODE_RGBW): vol.All( cv.string, vol.In([MODE_RGBW, MODE_RGB, MODE_WHITE]) ), vol.Optional(CONF_PROTOCOL): vol.All(cv.string, vol.In(["ledenet"])), vol.Optional(CONF_CUSTOM_EFFECT): CUSTOM_EFFECT_SCHEMA, } ) PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend( { vol.Optional(CONF_DEVICES, default={}): {cv.string: DEVICE_SCHEMA}, vol.Optional(CONF_AUTOMATIC_ADD, default=False): cv.boolean, } ) def setup_platform(hass, config, add_entities, discovery_info=None): """Set up the Flux lights.""" lights = [] light_ips = [] for ipaddr, device_config in config.get(CONF_DEVICES, {}).items(): device = {} device["name"] = device_config[CONF_NAME] device["ipaddr"] = ipaddr device[CONF_PROTOCOL] = device_config.get(CONF_PROTOCOL) device[ATTR_MODE] = device_config[ATTR_MODE] device[CONF_CUSTOM_EFFECT] = device_config.get(CONF_CUSTOM_EFFECT) light = FluxLight(device) lights.append(light) light_ips.append(ipaddr) if not config.get(CONF_AUTOMATIC_ADD, False): add_entities(lights, True) return # Find the bulbs on the LAN scanner = BulbScanner() scanner.scan(timeout=10) for device in scanner.getBulbInfo(): ipaddr = device["ipaddr"] if ipaddr in light_ips: continue device["name"] = f"{device['id']} {ipaddr}" device[ATTR_MODE] = None device[CONF_PROTOCOL] = None device[CONF_CUSTOM_EFFECT] = None light = FluxLight(device) lights.append(light) add_entities(lights, True) class FluxLight(LightEntity): """Representation of a Flux light.""" def __init__(self, device): """Initialize the light.""" self._name = device["name"] self._ipaddr = device["ipaddr"] self._protocol = device[CONF_PROTOCOL] self._mode = device[ATTR_MODE] self._custom_effect = device[CONF_CUSTOM_EFFECT] self._bulb = None self._error_reported = False def _connect(self): """Connect to Flux light.""" self._bulb = WifiLedBulb(self._ipaddr, timeout=5) if self._protocol: self._bulb.setProtocol(self._protocol) # After bulb object is created the status is updated. We can # now set the correct mode if it was not explicitly defined. if not self._mode: if self._bulb.rgbwcapable: self._mode = MODE_RGBW else: self._mode = MODE_RGB def _disconnect(self): """Disconnect from Flux light.""" self._bulb = None @property def available(self) -> bool: """Return True if entity is available.""" return self._bulb is not None @property def name(self): """Return the name of the device if any.""" return self._name @property def is_on(self): """Return true if device is on.""" return self._bulb.isOn() @property def brightness(self): """Return the brightness of this light between 0..255.""" if self._mode == MODE_WHITE: return self.white_value return self._bulb.brightness @property def hs_color(self): """Return the color property.""" return color_util.color_RGB_to_hs(*self._bulb.getRgb()) @property def supported_features(self): """Flag supported features.""" if self._mode == MODE_RGBW: return SUPPORT_FLUX_LED | SUPPORT_WHITE_VALUE | SUPPORT_COLOR_TEMP if self._mode == MODE_WHITE: return SUPPORT_BRIGHTNESS return SUPPORT_FLUX_LED @property def white_value(self): """Return the white value of this light between 0..255.""" return self._bulb.getRgbw()[3] @property def effect_list(self): """Return the list of supported effects.""" if self._custom_effect: return FLUX_EFFECT_LIST + [EFFECT_CUSTOM] return FLUX_EFFECT_LIST @property def effect(self): """Return the current effect.""" current_mode = self._bulb.raw_state[3] if current_mode == EFFECT_CUSTOM_CODE: return EFFECT_CUSTOM for effect, code in EFFECT_MAP.items(): if current_mode == code: return effect return None def turn_on(self, **kwargs): """Turn the specified or all lights on.""" if not self.is_on: self._bulb.turnOn() hs_color = kwargs.get(ATTR_HS_COLOR) if hs_color: rgb = color_util.color_hs_to_RGB(*hs_color) else: rgb = None brightness = kwargs.get(ATTR_BRIGHTNESS) effect = kwargs.get(ATTR_EFFECT) white = kwargs.get(ATTR_WHITE_VALUE) color_temp = kwargs.get(ATTR_COLOR_TEMP) # handle special modes if color_temp is not None: if brightness is None: brightness = self.brightness if color_temp > COLOR_TEMP_WARM_VS_COLD_WHITE_CUT_OFF: self._bulb.setRgbw(w=brightness) else: self._bulb.setRgbw(w2=brightness) return # Show warning if effect set with rgb, brightness, or white level if effect and (brightness or white or rgb): _LOGGER.warning( "RGB, brightness and white level are ignored when" " an effect is specified for a flux bulb" ) # Random color effect if effect == EFFECT_RANDOM: self._bulb.setRgb( random.randint(0, 255), random.randint(0, 255), random.randint(0, 255) ) return if effect == EFFECT_CUSTOM: if self._custom_effect: self._bulb.setCustomPattern( self._custom_effect[CONF_COLORS], self._custom_effect[CONF_SPEED_PCT], self._custom_effect[CONF_TRANSITION], ) return # Effect selection if effect in EFFECT_MAP: self._bulb.setPresetPattern(EFFECT_MAP[effect], 50) return # Preserve current brightness on color/white level change if brightness is None: brightness = self.brightness # Preserve color on brightness/white level change if rgb is None: rgb = self._bulb.getRgb() if white is None and self._mode == MODE_RGBW: white = self.white_value # handle W only mode (use brightness instead of white value) if self._mode == MODE_WHITE: self._bulb.setRgbw(0, 0, 0, w=brightness) # handle RGBW mode elif self._mode == MODE_RGBW: self._bulb.setRgbw(*tuple(rgb), w=white, brightness=brightness) # handle RGB mode else: self._bulb.setRgb(*tuple(rgb), brightness=brightness) def turn_off(self, **kwargs): """Turn the specified or all lights off.""" self._bulb.turnOff() def update(self): """Synchronize state with bulb.""" if not self.available: try: self._connect() self._error_reported = False except OSError: self._disconnect() if not self._error_reported: _LOGGER.warning( "Failed to connect to bulb %s, %s", self._ipaddr, self._name ) self._error_reported = True return self._bulb.update_state(retry=2)