// Local-Hyperion includes #include "LedDevicePhilipsHue.h" // ssdp discover #include bool verbose = false; // Configuration settings static const char CONFIG_ADDRESS[] = "output"; //static const char CONFIG_PORT[] = "port"; static const char CONFIG_USERNAME[] = "username"; static const char CONFIG_CLIENTKEY[] = "clientkey"; static const char CONFIG_BRIGHTNESSFACTOR[] = "brightnessFactor"; static const char CONFIG_TRANSITIONTIME[] = "transitiontime"; static const char CONFIG_BLACK_LIGHTS_TIMEOUT[] = "blackLightsTimeout"; static const char CONFIG_ON_OFF_BLACK[] = "switchOffOnBlack"; static const char CONFIG_RESTORE_STATE[] = "restoreOriginalState"; static const char CONFIG_LIGHTIDS[] = "lightIds"; static const char CONFIG_USE_HUE_ENTERTAINMENT_API[] = "useEntertainmentAPI"; static const char CONFIG_GROUPID[] = "groupId"; static const char CONFIG_VERBOSE[] = "verbose"; static const char CONFIG_BRIGHTNESS_MIN[] = "brightnessMin"; static const char CONFIG_BRIGHTNESS_MAX[] = "brightnessMax"; static const char CONFIG_BRIGHTNESS_THRESHOLD[] = "brightnessThreshold"; static const char CONFIG_SSL_HANDSHAKE_TIMEOUT_MIN[] = "sslHSTimeoutMin"; static const char CONFIG_SSL_HANDSHAKE_TIMEOUT_MAX[] = "sslHSTimeoutMax"; static const char CONFIG_SSL_READ_TIMEOUT[] = "sslReadTimeout"; // Device Data elements static const char DEV_DATA_BRIDGEID[] = "bridgeid"; static const char DEV_DATA_MODEL[] = "modelid"; static const char DEV_DATA_NAME[] = "name"; //static const char DEV_DATA_MANUFACTURER[] = "manufacturer"; static const char DEV_DATA_FIRMWAREVERSION[] = "swversion"; static const char DEV_DATA_APIVERSION[] = "apiversion"; // Philips Hue OpenAPI URLs static const char API_DEFAULT_PORT[] = "80"; static const char API_URL_FORMAT[] = "http://%1:%2/api/%3/%4"; static const char API_ROOT[] = ""; static const char API_STATE[] = "state"; static const char API_CONFIG[] = "config"; static const char API_LIGHTS[] = "lights"; static const char API_GROUPS[] = "groups"; // List of Group / Stream Information static const char API_GROUP_NAME[] = "name"; static const char API_GROUP_TYPE[] = "type"; static const char API_GROUP_TYPE_ENTERTAINMENT[] = "Entertainment"; static const char API_STREAM[] = "stream"; static const char API_STREAM_ACTIVE[] = "active"; static const char API_STREAM_ACTIVE_VALUE_TRUE[] = "true"; static const char API_STREAM_ACTIVE_VALUE_FALSE[] = "false"; static const char API_STREAM_OWNER[] = "owner"; static const char API_STREAM_RESPONSE_FORMAT[] = "/%1/%2/%3/%4"; // List of resources static const char API_XY_COORDINATES[] = "xy"; static const char API_BRIGHTNESS[] = "bri"; static const char API_TRANSITIONTIME[] = "transitiontime"; static const char API_MODEID[] = "modelid"; // List of State Information static const char API_STATE_ON[] = "on"; static const char API_STATE_VALUE_TRUE[] = "true"; static const char API_STATE_VALUE_FALSE[] = "false"; // List of Error Information static const char API_ERROR[] = "error"; static const char API_ERROR_ADDRESS[] = "address"; static const char API_ERROR_DESCRIPTION[] = "description"; static const char API_ERROR_TYPE[] = "type"; // List of Success Information static const char API_SUCCESS[] = "success"; // Phlips Hue ssdp services static const char SSDP_ID[] = "urn:schemas-upnp-org:device:Basic:1"; const int SSDP_TIMEOUT = 5000; // timout in ms // DTLS Connection / SSL / Cipher Suite static const char API_SSL_SERVER_NAME[] = "Hue"; static const char API_SSL_SEED_CUSTOM[] = "dtls_client"; const int API_SSL_SERVER_PORT = 2100; const int STREAM_CONNECTION_RETRYS = 5; const int STREAM_REWRITE_TIME = 20; const int STREAM_SSL_HANDSHAKE_ATTEMPTS = 5; const int STREAM_SSL_HANDSHAKE_TIMEOUT_MIN = 400; const int STREAM_SSL_HANDSHAKE_TIMEOUT_MAX = 1000; const int STREAM_SSL_READ_TIMEOUT = 0; const int SSL_CIPHERSUITES[2] = { MBEDTLS_TLS_PSK_WITH_AES_128_GCM_SHA256, 0 }; bool operator ==(const CiColor& p1, const CiColor& p2) { return ((p1.x == p2.x) && (p1.y == p2.y) && (p1.bri == p2.bri)); } bool operator != (const CiColor& p1, const CiColor& p2) { return !(p1 == p2); } CiColor CiColor::rgbToCiColor(double red, double green, double blue, const CiColorTriangle &colorSpace) { double cx; double cy; double bri; if(red + green + blue > 0) { // Apply gamma correction. double r = (red > 0.04045) ? pow((red + 0.055) / (1.0 + 0.055), 2.4) : (red / 12.92); double g = (green > 0.04045) ? pow((green + 0.055) / (1.0 + 0.055), 2.4) : (green / 12.92); double b = (blue > 0.04045) ? pow((blue + 0.055) / (1.0 + 0.055), 2.4) : (blue / 12.92); // Convert to XYZ space. double X = r * 0.664511 + g * 0.154324 + b * 0.162028; double Y = r * 0.283881 + g * 0.668433 + b * 0.047685; double Z = r * 0.000088 + g * 0.072310 + b * 0.986039; cx = X / (X + Y + Z); cy = Y / (X + Y + Z); // RGB to HSV/B Conversion before gamma correction V/B for brightness, not Y from XYZ Space. // bri = std::max(std::max(red, green), blue); // RGB to HSV/B Conversion after gamma correction V/B for brightness, not Y from XYZ Space. bri = std::max(r, std::max(g, b)); } else { cx = 0.0; cy = 0.0; bri = 0.0; } if (std::isnan(cx)) { cx = 0.0; } if (std::isnan(cy)) { cy = 0.0; } if (std::isnan(bri)) { bri = 0.0; } CiColor xy = { cx, cy, bri }; if(red + green + blue > 0) { // Check if the given XY value is within the color reach of our lamps. if (!isPointInLampsReach(xy, colorSpace)) { // It seems the color is out of reach let's find the closes color we can produce with our lamp and send this XY value out. XYColor pAB = getClosestPointToPoint(colorSpace.red, colorSpace.green, xy); XYColor pAC = getClosestPointToPoint(colorSpace.blue, colorSpace.red, xy); XYColor pBC = getClosestPointToPoint(colorSpace.green, colorSpace.blue, xy); // Get the distances per point and see which point is closer to our Point. double dAB = getDistanceBetweenTwoPoints(xy, pAB); double dAC = getDistanceBetweenTwoPoints(xy, pAC); double dBC = getDistanceBetweenTwoPoints(xy, pBC); double lowest = dAB; XYColor closestPoint = pAB; if (dAC < lowest) { lowest = dAC; closestPoint = pAC; } if (dBC < lowest) { //lowest = dBC; closestPoint = pBC; } // Change the xy value to a value which is within the reach of the lamp. xy.x = closestPoint.x; xy.y = closestPoint.y; } } return xy; } double CiColor::crossProduct(XYColor p1, XYColor p2) { return p1.x * p2.y - p1.y * p2.x; } bool CiColor::isPointInLampsReach(CiColor p, const CiColorTriangle &colorSpace) { XYColor v1 = { colorSpace.green.x - colorSpace.red.x, colorSpace.green.y - colorSpace.red.y }; XYColor v2 = { colorSpace.blue.x - colorSpace.red.x, colorSpace.blue.y - colorSpace.red.y }; XYColor q = { p.x - colorSpace.red.x, p.y - colorSpace.red.y }; double s = crossProduct(q, v2) / crossProduct(v1, v2); double t = crossProduct(v1, q) / crossProduct(v1, v2); if ( ( s >= 0.0 ) && ( t >= 0.0 ) && ( s + t <= 1.0 ) ) { return true; } return false; } XYColor CiColor::getClosestPointToPoint(XYColor a, XYColor b, CiColor p) { XYColor AP = { p.x - a.x, p.y - a.y }; XYColor AB = { b.x - a.x, b.y - a.y }; double ab2 = AB.x * AB.x + AB.y * AB.y; double ap_ab = AP.x * AB.x + AP.y * AB.y; double t = ap_ab / ab2; if ( t < 0.0 ) { t = 0.0; } else if ( t > 1.0 ) { t = 1.0; } return { a.x + AB.x * t, a.y + AB.y * t }; } double CiColor::getDistanceBetweenTwoPoints(CiColor p1, XYColor p2) { // Horizontal difference. double dx = p1.x - p2.x; // Vertical difference. double dy = p1.y - p2.y; // Absolute value. return sqrt(dx * dx + dy * dy); } LedDevicePhilipsHueBridge::LedDevicePhilipsHueBridge(const QJsonObject &deviceConfig) : ProviderUdpSSL() , _useHueEntertainmentAPI(false) , _networkmanager(nullptr) , _api_major(0) , _api_minor(0) , _api_patch(0) , _isHueEntertainmentReady(false) { _devConfig = deviceConfig; _deviceReady = false; } LedDevicePhilipsHueBridge::~LedDevicePhilipsHueBridge() { if ( _networkmanager != nullptr ) { delete _networkmanager; _networkmanager = nullptr; } } bool LedDevicePhilipsHueBridge::init(const QJsonObject &deviceConfig) { _useHueEntertainmentAPI = deviceConfig[CONFIG_USE_HUE_ENTERTAINMENT_API].toBool(false); // Overwrite non supported/required features _devConfig["latchTime"] = 0; if ( deviceConfig["rewriteTime"].toInt(0) > 0 ) { InfoIf ( ( !_useHueEntertainmentAPI ), _log, "Device Philips Hue does not require rewrites. Refresh time is ignored." ); _devConfig["rewriteTime"] = 0; } DebugIf( verbose, _log, "deviceConfig: [%s]", QString(QJsonDocument(_devConfig).toJson(QJsonDocument::Compact)).toUtf8().constData() ); bool isInitOK = LedDevice::init(deviceConfig); log( "DeviceType", "%s", QSTRING_CSTR( this->getActiveDeviceType() ) ); log( "LedCount", "%u", this->getLedCount() ); log( "ColorOrder", "%s", QSTRING_CSTR( this->getColorOrder() ) ); log( "RefreshTime", "%d", _refresh_timer_interval ); log( "LatchTime", "%d", this->getLatchTime() ); if ( isInitOK ) { //Set hostname as per configuration and_defaultHost default port QString address = deviceConfig[ CONFIG_ADDRESS ].toString(); if ( !address.isEmpty() ) { #if (QT_VERSION >= QT_VERSION_CHECK(5, 14, 0)) QStringList addressparts = address.split(":", Qt::SkipEmptyParts); #else QStringList addressparts = address.split(":", QString::SkipEmptyParts); #endif _hostname = addressparts[0]; if ( addressparts.size() > 1 ) { _api_port = addressparts[1]; } else { _api_port = API_DEFAULT_PORT; } } _username = deviceConfig[ CONFIG_USERNAME ].toString(); log( "Hostname/IP", "%s", QSTRING_CSTR( _hostname ) ); log( "Port", "%s", QSTRING_CSTR( _api_port ) ); } return isInitOK; } int LedDevicePhilipsHueBridge::open() { return open( _hostname, _api_port, _username ); } int LedDevicePhilipsHueBridge::open( const QString& hostname, const QString& port, const QString& username ) { _deviceInError = false; bool isInitOK = true; //If host not configured then discover device if ( hostname.isEmpty() ) { //Discover Philips Hue Bridge device if ( !discoverDevice() ) { this->setInError( "No target IP defined nor Philips Hue Bridge was discovered" ); return false; } } else { _hostname = hostname; _api_port = port; } _username = username; //Get Philips Hue Bridge details and configuration if ( _networkmanager == nullptr ) { _networkmanager = new QNetworkAccessManager(); } isInitOK = initMaps(); return isInitOK; } const int *LedDevicePhilipsHueBridge::getCiphersuites() { return SSL_CIPHERSUITES; } void LedDevicePhilipsHueBridge::log(const char* msg, const char* type, ...) { const size_t max_val_length = 1024; char val[max_val_length]; va_list args; va_start(args, type); vsnprintf(val, max_val_length, type, args); va_end(args); std::string s = msg; int max = 30; s.append(max - s.length(), ' '); Debug( _log, "%s: %s", s.c_str(), val ); } QJsonDocument LedDevicePhilipsHueBridge::getAllBridgeInfos() { // Read Groups/ Lights and Light-Ids QString url = getUrl( _hostname, _api_port, _username, API_ROOT ); return getJson( url ); } bool LedDevicePhilipsHueBridge::initMaps() { bool isInitOK = true; QJsonDocument doc = getAllBridgeInfos(); DebugIf( verbose, _log, "doc: [%s]", QString(QJsonDocument(doc).toJson(QJsonDocument::Compact)).toUtf8().constData() ); if ( this->isInError() ) { isInitOK = false; } else { setBridgeConfig( doc ); if( _useHueEntertainmentAPI ) setGroupMap( doc ); setLightsMap( doc ); } return isInitOK; } void LedDevicePhilipsHueBridge::setBridgeConfig(QJsonDocument doc) { QJsonObject jsonConfigInfo = doc.object()[ API_CONFIG ].toObject(); if ( verbose ) { std::cout << "jsonConfigInfo: [" << QString(QJsonDocument(jsonConfigInfo).toJson(QJsonDocument::Compact)).toUtf8().constData() << "]" << std::endl; } QString deviceName = jsonConfigInfo[DEV_DATA_NAME].toString(); _deviceModel = jsonConfigInfo[DEV_DATA_MODEL].toString(); QString deviceBridgeID = jsonConfigInfo[DEV_DATA_BRIDGEID].toString(); _deviceFirmwareVersion = jsonConfigInfo[DEV_DATA_FIRMWAREVERSION].toString(); _deviceAPIVersion = jsonConfigInfo[DEV_DATA_APIVERSION].toString(); #if (QT_VERSION >= QT_VERSION_CHECK(5, 14, 0)) QStringList apiVersionParts = _deviceAPIVersion.split(".", Qt::SkipEmptyParts); #else QStringList apiVersionParts = _deviceAPIVersion.split(".", QString::SkipEmptyParts); #endif if ( !apiVersionParts.isEmpty() ) { _api_major = apiVersionParts[0].toUInt(); _api_minor = apiVersionParts[1].toUInt(); _api_patch = apiVersionParts[2].toUInt(); if ( _api_major > 1 || (_api_major == 1 && _api_minor >= 22) ) { _isHueEntertainmentReady = true; } } if( _useHueEntertainmentAPI ) { DebugIf( !_isHueEntertainmentReady, _log, "Bridge is not Entertainment API Ready - Entertainment API usage was disabled!" ); _useHueEntertainmentAPI = _isHueEntertainmentReady; } log( "Bridge Name", "%s", QSTRING_CSTR( deviceName )); log( "Model", "%s", QSTRING_CSTR( _deviceModel )); log( "Bridge-ID", "%s", QSTRING_CSTR( deviceBridgeID )); log( "SoftwareVersion", "%s", QSTRING_CSTR( _deviceFirmwareVersion )); log( "API-Version", "%u.%u.%u", _api_major, _api_minor, _api_patch ); log( "EntertainmentReady", "%d", _isHueEntertainmentReady ); } void LedDevicePhilipsHueBridge::setLightsMap(QJsonDocument doc) { QJsonObject jsonLightsInfo = doc.object()[ API_LIGHTS ].toObject(); DebugIf(verbose, _log, "jsonLightsInfo: [%s]", QString(QJsonDocument(jsonLightsInfo).toJson(QJsonDocument::Compact)).toUtf8().constData() ); // Get all available light ids and their values QStringList keys = jsonLightsInfo.keys(); _ledCount = keys.size(); _lightsMap.clear(); for ( unsigned int i = 0; i < _ledCount; ++i ) { _lightsMap.insert(keys.at(i).toUInt(), jsonLightsInfo.take(keys.at(i)).toObject()); } if ( getLedCount() == 0 ) { this->setInError( "No light-IDs found at the Philips Hue Bridge" ); } else { log( "Lights in Bridge found", "%u", getLedCount() ); } } void LedDevicePhilipsHueBridge::setGroupMap(QJsonDocument doc) { QJsonObject jsonGroupsInfo = doc.object()[ API_GROUPS ].toObject(); DebugIf(verbose, _log, "jsonGroupsInfo: [%s]", QString(QJsonDocument(jsonGroupsInfo).toJson(QJsonDocument::Compact)).toUtf8().constData() ); // Get all available group ids and their values QStringList keys = jsonGroupsInfo.keys(); unsigned int _groupsCount = keys.size(); _groupsMap.clear(); for ( unsigned int i = 0; i < _groupsCount; ++i ) { _groupsMap.insert( keys.at(i).toUInt(), jsonGroupsInfo.take(keys.at(i)).toObject() ); } } bool LedDevicePhilipsHueBridge::discoverDevice() { bool isDeviceFound( false ); // device searching by ssdp QString address; SSDPDiscover discover; // Discover Philips Hue Bridge address = discover.getFirstService( searchType::STY_WEBSERVER, SSDP_ID, SSDP_TIMEOUT ); if ( address.isEmpty() ) { Warning(_log, "No Philips Hue Bridge discovered" ); } else { // Philips Hue Bridge found Info(_log, "Philips Hue Bridge discovered at [%s]", QSTRING_CSTR( address ) ); isDeviceFound = true; #if (QT_VERSION >= QT_VERSION_CHECK(5, 14, 0)) QStringList addressparts = address.split(":", Qt::SkipEmptyParts); #else QStringList addressparts = address.split(":", QString::SkipEmptyParts); #endif _hostname = addressparts[0]; _api_port = addressparts[1]; } return isDeviceFound; } const QMap& LedDevicePhilipsHueBridge::getLightMap(void) { return _lightsMap; } const QMap& LedDevicePhilipsHueBridge::getGroupMap(void) { return _groupsMap; } QString LedDevicePhilipsHueBridge::getGroupName(unsigned int groupId) { QString groupName; if( _groupsMap.contains( groupId ) ) { QJsonObject group = _groupsMap.value( groupId ); groupName = group.value( API_GROUP_NAME ).toString().trimmed().replace("\"", ""); } else { Error(_log, "Group ID %d doesn't exists on this bridge", groupId ); } return groupName; } QJsonArray LedDevicePhilipsHueBridge::getGroupLights(unsigned int groupId) { QJsonArray groupLights; // search user groupid inside _groupsMap and create light if found if( _groupsMap.contains( groupId ) ) { QJsonObject group = _groupsMap.value( groupId ); if( group.value( API_GROUP_TYPE ) == API_GROUP_TYPE_ENTERTAINMENT ) { QString groupName = getGroupName( groupId ); groupLights = group.value( API_LIGHTS ).toArray(); log( "Entertainment Group found", "[%d] %s", groupId, QSTRING_CSTR(groupName) ); log( "Lights in Group", "%d", groupLights.size() ); Info(_log, "Entertainment Group [%d] \"%s\" with %d Lights found", groupId, QSTRING_CSTR(groupName), groupLights.size() ); } else { Error(_log, "Group ID %d is not an entertainment group", groupId ); } } else { Error(_log, "Group ID %d doesn't exists on this bridge", groupId ); } return groupLights; } QString LedDevicePhilipsHueBridge::getUrl(QString host, QString port, QString auth_token, QString endpoint) const { return QString(API_URL_FORMAT).arg( host, port, auth_token, endpoint ); } QJsonDocument LedDevicePhilipsHueBridge::getJson(QString url) { DebugIf(verbose, _log, "GET: [%s]", QSTRING_CSTR( url )); // Perfrom request QNetworkRequest request(url); QNetworkReply* reply = _networkmanager->get(request); // Connect requestFinished signal to quit slot of the loop. QEventLoop loop; loop.connect(reply, SIGNAL(finished()), SLOT(quit())); // Go into the loop until the request is finished. loop.exec(); QJsonDocument jsonDoc; if( reply->operation() == QNetworkAccessManager::GetOperation ) { jsonDoc = handleReply( reply ); } // Free space. reply->deleteLater(); // Return response return jsonDoc; } QJsonDocument LedDevicePhilipsHueBridge::putJson(QString url, QString json) { DebugIf(verbose, _log, "PUT: [%s] [%s]", QSTRING_CSTR( url ), QSTRING_CSTR( json ) ); // Perfrom request QNetworkRequest request( url ); QNetworkReply* reply = _networkmanager->put( request, json.toUtf8() ); // Connect requestFinished signal to quit slot of the loop. QEventLoop loop; loop.connect(reply, SIGNAL(finished()), SLOT(quit())); // Go into the loop until the request is finished. loop.exec(); QJsonDocument jsonDoc; if( reply->operation() == QNetworkAccessManager::PutOperation ) { jsonDoc = handleReply( reply ); } // Free space. reply->deleteLater(); // Return response return jsonDoc; } QJsonDocument LedDevicePhilipsHueBridge::handleReply(QNetworkReply* const &reply ) { QJsonDocument jsonDoc; int httpStatusCode = reply->attribute( QNetworkRequest::HttpStatusCodeAttribute ).toInt(); DebugIf(verbose, _log, "Reply.httpStatusCode [%d]", httpStatusCode ); QString errorReason; if( reply->error() == QNetworkReply::NoError ) { if ( httpStatusCode != 204 ) { QByteArray response = reply->readAll(); QJsonParseError error; jsonDoc = QJsonDocument::fromJson(response, &error); if ( error.error != QJsonParseError::NoError ) { this->setInError( "Got invalid response" ); } else { QString strJson(jsonDoc.toJson(QJsonDocument::Compact)); DebugIf(verbose, _log, "Reply: [%s]", strJson.toUtf8().constData() ); QVariantList rspList = jsonDoc.toVariant().toList(); if ( !rspList.isEmpty() ) { QVariantMap map = rspList.first().toMap(); if ( map.contains( API_ERROR ) ) { // API call failsed to execute an error message was returned QString errorAddress = map.value(API_ERROR).toMap().value(API_ERROR_ADDRESS).toString(); QString errorDesc = map.value(API_ERROR).toMap().value(API_ERROR_DESCRIPTION).toString(); QString errorType = map.value(API_ERROR).toMap().value(API_ERROR_TYPE).toString(); log( "Error Type", "%s", QSTRING_CSTR( errorType ) ); log( "Error Address", "%s", QSTRING_CSTR( errorAddress ) ); log( "Error Address Description", "%s", QSTRING_CSTR( errorDesc ) ); if( errorType != "901" ) { errorReason = QString ("(%1) %2, Resource:%3").arg(errorType, errorDesc, errorAddress); this->setInError( errorReason ); } } } } } } else { if ( httpStatusCode > 0 ) { QString httpReason = reply->attribute( QNetworkRequest::HttpReasonPhraseAttribute ).toString(); QString advise; switch ( httpStatusCode ) { case 400: advise = "Check Request Body"; break; case 401: advise = "Check Authentication Token (API Key)"; break; case 404: advise = "Check Resource given"; break; default: break; } errorReason = QString( "%1:%2 [%3 %4] - %5").arg( _hostname, _api_port, QString(httpStatusCode), httpReason, advise ); } else { errorReason = QString( "%1:%2 - %3").arg( _hostname, _api_port, reply->errorString() ); } this->setInError( errorReason ); } // Return response return jsonDoc; } QJsonDocument LedDevicePhilipsHueBridge::post(const QString& route, const QString& content) { QString url = getUrl(_hostname, _api_port, _username, route ); return putJson( url, content ); } void LedDevicePhilipsHueBridge::setLightState(const unsigned int lightId, QString state) { DebugIf( verbose, _log, "SetLightState [%u]: %s", lightId, QSTRING_CSTR(state) ); post( QString("%1/%2/%3").arg( API_LIGHTS ).arg( lightId ).arg( API_STATE ), state ); } QJsonDocument LedDevicePhilipsHueBridge::getGroupState(const unsigned int groupId) { QString url = getUrl( _hostname, _api_port, _username, QString("%1/%2").arg( API_GROUPS ).arg( groupId ) ); return getJson( url ); } QJsonDocument LedDevicePhilipsHueBridge::setGroupState(const unsigned int groupId, bool state) { QString active = state ? API_STREAM_ACTIVE_VALUE_TRUE : API_STREAM_ACTIVE_VALUE_FALSE; return post( QString("%1/%2").arg( API_GROUPS ).arg( groupId ), QString("{\"%1\":{\"%2\":%3}}").arg( API_STREAM ).arg( API_STREAM_ACTIVE ).arg( active ) ); } bool LedDevicePhilipsHueBridge::isStreamOwner(const QString streamOwner) { return ( streamOwner != "" && streamOwner == _username ); } const std::set PhilipsHueLight::GAMUT_A_MODEL_IDS = { "LLC001", "LLC005", "LLC006", "LLC007", "LLC010", "LLC011", "LLC012", "LLC013", "LLC014", "LST001" }; const std::set PhilipsHueLight::GAMUT_B_MODEL_IDS = { "LCT001", "LCT002", "LCT003", "LCT007", "LLM001" }; const std::set PhilipsHueLight::GAMUT_C_MODEL_IDS = { "LCA001", "LCA002", "LCA003", "LCG002", "LCP001", "LCP002", "LCT010", "LCT011", "LCT012", "LCT014", "LCT015", "LCT016", "LCT024", "LLC020", "LST002" }; PhilipsHueLight::PhilipsHueLight(Logger* log, unsigned int id, QJsonObject values, unsigned int ledidx) : _log(log) , _id(id) , _ledidx(ledidx) , _on(false) , _transitionTime(0) , _colorBlack({0.0, 0.0, 0.0}) , _modelId(values[API_MODEID].toString().trimmed().replace("\"", "")) { // Find id in the sets and set the appropriate color space. if (GAMUT_A_MODEL_IDS.find(_modelId) != GAMUT_A_MODEL_IDS.end()) { Debug(_log, "Recognized model id %s of light ID %d as gamut A", QSTRING_CSTR(_modelId), id ); _colorSpace.red = {0.704, 0.296}; _colorSpace.green = {0.2151, 0.7106}; _colorSpace.blue = {0.138, 0.08}; _colorBlack = {0.138, 0.08, 0.0}; } else if (GAMUT_B_MODEL_IDS.find(_modelId) != GAMUT_B_MODEL_IDS.end()) { Debug(_log, "Recognized model id %s of light ID %d as gamut B", QSTRING_CSTR(_modelId), id ); _colorSpace.red = {0.675, 0.322}; _colorSpace.green = {0.409, 0.518}; _colorSpace.blue = {0.167, 0.04}; _colorBlack = {0.167, 0.04, 0.0}; } else if (GAMUT_C_MODEL_IDS.find(_modelId) != GAMUT_C_MODEL_IDS.end()) { Debug(_log, "Recognized model id %s of light ID %d as gamut C", QSTRING_CSTR(_modelId), id ); _colorSpace.red = {0.6915, 0.3083}; _colorSpace.green = {0.17, 0.7}; _colorSpace.blue = {0.1532, 0.0475}; _colorBlack = {0.1532, 0.0475, 0.0}; } else { Warning(_log, "Did not recognize model id %s of light ID %d", QSTRING_CSTR(_modelId), id ); _colorSpace.red = {1.0, 0.0}; _colorSpace.green = {0.0, 1.0}; _colorSpace.blue = {0.0, 0.0}; _colorBlack = {0.0, 0.0, 0.0}; } saveOriginalState(values); _lightname = values["name"].toString().trimmed().replace("\"", ""); Info(_log, "Light ID %d (\"%s\", LED index \"%d\") created", id, QSTRING_CSTR(_lightname), ledidx ); } PhilipsHueLight::~PhilipsHueLight() { DebugIf(verbose, _log, "Light ID %d (\"%s\", LED index \"%d\") deconstructed", _id, QSTRING_CSTR(_lightname), _ledidx ); } unsigned int PhilipsHueLight::getId() const { return _id; } QString PhilipsHueLight::getOriginalState() const { return _originalState; } void PhilipsHueLight::saveOriginalState(const QJsonObject& values) { // Get state object values which are subject to change. if (!values[API_STATE].toObject().contains("on")) { Error(_log, "Got invalid state object from light ID %d", _id ); } QJsonObject lState = values[API_STATE].toObject(); _originalStateJSON = lState; QJsonObject state; state["on"] = lState["on"]; _originalColor = _colorBlack; QString c; if (state[API_STATE_ON].toBool()) { state[API_XY_COORDINATES] = lState[API_XY_COORDINATES]; state[API_BRIGHTNESS] = lState[API_BRIGHTNESS]; _on = true; _color = { state[API_XY_COORDINATES].toArray()[0].toDouble(), state[API_XY_COORDINATES].toArray()[1].toDouble(), state[API_BRIGHTNESS].toDouble() / 254.0 }; _originalColor = _color; c = QString("{ \"%1\": [%2, %3], \"%4\": %5 }").arg(API_XY_COORDINATES).arg(_originalColor.x, 0, 'd', 4).arg(_originalColor.y, 0, 'd', 4).arg(API_BRIGHTNESS).arg((_originalColor.bri * 254.0), 0, 'd', 4); DebugIf(verbose, _log, "OriginalColor state on: %s", QSTRING_CSTR(c)); _transitionTime = values[API_STATE].toObject()[API_TRANSITIONTIME].toInt(); } //Determine the original state. _originalState = QJsonDocument(state).toJson(QJsonDocument::JsonFormat::Compact).trimmed(); } void PhilipsHueLight::setOnOffState(bool on) { this->_on = on; } void PhilipsHueLight::setTransitionTime(unsigned int transitionTime) { this->_transitionTime = transitionTime; } void PhilipsHueLight::setColor(const CiColor& color) { this->_color = color; } bool PhilipsHueLight::getOnOffState() const { return _on; } unsigned int PhilipsHueLight::getTransitionTime() const { return _transitionTime; } CiColor PhilipsHueLight::getColor() const { return _color; } CiColorTriangle PhilipsHueLight::getColorSpace() const { return _colorSpace; } LedDevicePhilipsHue::LedDevicePhilipsHue(const QJsonObject& deviceConfig) : LedDevicePhilipsHueBridge(deviceConfig) , _switchOffOnBlack(false) , _brightnessFactor(1.0) , _transitionTime(1) , _isRestoreOrigState(true) , _lightStatesRestored(false) , _isInitLeds(false) , _lightsCount(0) , _groupId(0) , _brightnessMin(0.0) , _brightnessMax(1.0) , _allLightsBlack(false) , _blackLightsTimer(nullptr) , _blackLightsTimeout(15000) , _brightnessThreshold(0.0) , _handshake_timeout_min(STREAM_SSL_HANDSHAKE_TIMEOUT_MIN) , _handshake_timeout_max(STREAM_SSL_HANDSHAKE_TIMEOUT_MAX) , _ssl_read_timeout(STREAM_SSL_READ_TIMEOUT) , _stopConnection(false) , start_retry_left(3) , stop_retry_left(3) { _devConfig = deviceConfig; _deviceReady = false; } LedDevice* LedDevicePhilipsHue::construct(const QJsonObject &deviceConfig) { return new LedDevicePhilipsHue(deviceConfig); } LedDevicePhilipsHue::~LedDevicePhilipsHue() { if ( _blackLightsTimer != nullptr ) { _blackLightsTimer->deleteLater(); } } bool LedDevicePhilipsHue::init(const QJsonObject &deviceConfig) { verbose = deviceConfig[CONFIG_VERBOSE].toBool(false); bool isInitOK = LedDevicePhilipsHueBridge::init(deviceConfig); if ( isInitOK ) { // Initiatiale LedDevice configuration and execution environment _switchOffOnBlack = _devConfig[CONFIG_ON_OFF_BLACK].toBool(true); _blackLightsTimeout = _devConfig[CONFIG_BLACK_LIGHTS_TIMEOUT].toInt(15000); _brightnessFactor = _devConfig[CONFIG_BRIGHTNESSFACTOR].toDouble(1.0); _transitionTime = _devConfig[CONFIG_TRANSITIONTIME].toInt(1); _isRestoreOrigState = _devConfig[CONFIG_RESTORE_STATE].toBool(true); _groupId = _devConfig[CONFIG_GROUPID].toInt(0); _brightnessMin = _devConfig[CONFIG_BRIGHTNESS_MIN].toDouble(0.0); _brightnessMax = _devConfig[CONFIG_BRIGHTNESS_MAX].toDouble(1.0); _brightnessThreshold = _devConfig[CONFIG_BRIGHTNESS_THRESHOLD].toDouble(0.0); _handshake_timeout_min = _devConfig[CONFIG_SSL_HANDSHAKE_TIMEOUT_MIN].toInt(STREAM_SSL_HANDSHAKE_TIMEOUT_MIN); _handshake_timeout_max = _devConfig[CONFIG_SSL_HANDSHAKE_TIMEOUT_MAX].toInt(STREAM_SSL_HANDSHAKE_TIMEOUT_MAX); _ssl_read_timeout = _devConfig[CONFIG_SSL_READ_TIMEOUT].toInt(STREAM_SSL_READ_TIMEOUT); if( _brightnessMin < 0.0 ) _brightnessMin = 0.0; if( _brightnessMax > 1.0 ) _brightnessMax = 1.0; if( _brightnessThreshold < 0.0 ) _brightnessThreshold = 0.0; if( _brightnessThreshold > 1.0 ) _brightnessThreshold = 1.0; if( _handshake_timeout_min <= 0 ) _handshake_timeout_min = 1; log( "Off on Black", "%d", _switchOffOnBlack ); log( "Brightness Factor", "%f", _brightnessFactor ); log( "Transition Time", "%d", _transitionTime ); log( "Restore Original State", "%d", _isRestoreOrigState ); log( "Use Hue Entertainment API", "%d", _useHueEntertainmentAPI ); if( _useHueEntertainmentAPI ) { log( "Entertainment API Group-ID", "%d", _groupId ); log( "Signal Timeout on Black", "%dms", _blackLightsTimeout ); log( "Brightness Min", "%f", _brightnessMin ); log( "Brightness Max", "%f", _brightnessMax ); log( "Brightness Threshold", "%f", _brightnessThreshold ); if( _groupId == 0 ) { log( "Group-ID is invalid", "%d", _groupId ); _useHueEntertainmentAPI = false; } } } return isInitOK; } bool LedDevicePhilipsHue::setLights() { bool isInitOK = true; _lightIds.clear(); QJsonArray lArray; if( _useHueEntertainmentAPI && _groupId > 0 ) { lArray = getGroupLights( _groupId ); } if( lArray.empty() ) { if( _useHueEntertainmentAPI ) { _useHueEntertainmentAPI = false; Debug(_log, "Group-ID [%u] is not usable - Entertainment API usage was disabled!", _groupId ); } lArray = _devConfig[ CONFIG_LIGHTIDS ].toArray(); } QString lightIDStr; if( !lArray.empty() ) { for(const auto id : lArray) { unsigned int lightId = id.toString().toUInt(); if( lightId > 0 ) { if(std::find(_lightIds.begin(), _lightIds.end(), lightId) == _lightIds.end()) { _lightIds.emplace_back(lightId); if(!lightIDStr.isEmpty()) lightIDStr.append(", "); lightIDStr.append(QString::number(lightId)); } } } std::sort( _lightIds.begin(), _lightIds.end() ); } unsigned int configuredLightsCount = static_cast(_lightIds.size()); log( "Light-IDs configured", "%d", configuredLightsCount ); if ( configuredLightsCount == 0 ) { this->setInError( "No light-IDs configured" ); isInitOK = false; } else { log( "Light-IDs", "%s", QSTRING_CSTR( lightIDStr ) ); isInitOK = updateLights( getLightMap() ); } return isInitOK; } int LedDevicePhilipsHue::open() { int retval = -1; QString errortext; _deviceReady = false; // General initialisation and configuration of LedDevice if ( init(_devConfig) ) { if ( LedDevicePhilipsHueBridge::open() ) // Open/Start LedDevice based on configuration { if ( initLeds() ) { // Everything is OK -> enable device _deviceReady = true; setEnable(true); retval = 0; } else { Debug(_log, "Device not usable." ); } } } return retval; } bool LedDevicePhilipsHue::initLeds() { bool isInitOK = false; if ( !this->isInError() ) { if( setLights() ) { if( _useHueEntertainmentAPI ) { _groupName = getGroupName( _groupId ); _devConfig["latchTime"] = 0; _devConfig["host"] = _hostname; _devConfig["sslport"] = API_SSL_SERVER_PORT; _devConfig["servername"] = API_SSL_SERVER_NAME; _devConfig["rewriteTime"] = STREAM_REWRITE_TIME; _devConfig["psk"] = _devConfig[ CONFIG_CLIENTKEY ].toString(); _devConfig["psk_identity"] = _devConfig[ CONFIG_USERNAME ].toString(); _devConfig["seed_custom"] = API_SSL_SEED_CUSTOM; _devConfig["retry_left"] = STREAM_CONNECTION_RETRYS; _devConfig["hs_attempts"] = STREAM_SSL_HANDSHAKE_ATTEMPTS; _devConfig["hs_timeout_min"] = _handshake_timeout_min; _devConfig["hs_timeout_max"] = _handshake_timeout_max; _devConfig["read_timeout"] = _ssl_read_timeout; isInitOK = ProviderUdpSSL::init( _devConfig ); if( isInitOK ) { if ( _blackLightsTimer == nullptr ) { _blackLightsTimer = new QTimer(this); connect( _blackLightsTimer, &QTimer::timeout, this, &LedDevicePhilipsHue::noSignalTimeout ); } } } else { // adapt latchTime to count of user lightIds (bridge 10Hz max overall) setLatchTime( static_cast( 100 * getLightsCount() ) ); isInitOK = true; } _isInitLeds = true; } else { isInitOK = false; } } return isInitOK; } bool LedDevicePhilipsHue::updateLights(QMap map) { bool isInitOK = true; // search user lightid inside map and create light if found _lights.clear(); if(!_lightIds.empty()) { unsigned int ledidx = 0; _lights.reserve(_lightIds.size()); for(const auto id : _lightIds) { if (map.contains(id)) { _lights.emplace_back(_log, id, map.value(id), ledidx); } else { Warning(_log, "Configured light-ID %d is not available at this bridge", id ); } ledidx++; } } unsigned int lightsCount = static_cast(_lights.size()); setLightsCount( lightsCount ); if( lightsCount == 0 ) { Debug(_log, "No usable lights found!" ); isInitOK = false; } return isInitOK; } bool LedDevicePhilipsHue::initStream() { bool isInitOK = false; start_retry_left = 3; bool streamState = getStreamGroupState(); if ( !this->isInError() ) { // stream is already active if( streamState ) { // if same owner stop stream if(isStreamOwner(_streamOwner)) { Debug(_log, "Group: \"%s\" [%u] is in use, try to stop stream", QSTRING_CSTR(_groupName), _groupId ); if( stopStream() ) { Debug(_log, "Stream successful stopped"); //Restore Philips Hue devices state restoreOriginalState(); isInitOK = startStream(); } else { Error(_log, "Group: \"%s\" [%u] couldn't stop by user: \"%s\" - Entertainment API not usable", QSTRING_CSTR( _groupName ), _groupId, QSTRING_CSTR( _streamOwner ) ); } } else { Error(_log, "Group: \"%s\" [%u] is in use and owned by other user: \"%s\" - Entertainment API not usable", QSTRING_CSTR(_groupName), _groupId, QSTRING_CSTR(_streamOwner)); } } else { isInitOK = startStream(); } } if( isInitOK ) { // open UDP SSL Connection isInitOK = ProviderUdpSSL::initNetwork(); if( isInitOK ) { Info(_log, "Philips Hue Entertaiment API successful connected! Start Streaming." ); _allLightsBlack = true; noSignalDetection(); } else { Error(_log, "Philips Hue Entertaiment API not connected!" ); } } else { Error(_log, "Philips Hue Entertaiment API could not initialisized!" ); } return isInitOK; } bool LedDevicePhilipsHue::startStream() { Debug(_log, "Start entertainment stream"); if ( setStreamGroupState( true ) ) { start_retry_left = 3; return true; } else { if ( !this->isInError() ) { QThread::msleep(500); bool streamState = getStreamGroupState(); if ( !this->isInError() ) { // stream is not active if( !streamState ) { return ( start_retry_left-- > 0 ) ? startStream() : false; } } } } return false; } bool LedDevicePhilipsHue::stopStream() { ProviderUdpSSL::closeSSLConnection(); if ( setStreamGroupState( false ) ) { stop_retry_left = 3; return true; } else { if ( !this->isInError() ) { QThread::msleep(500); bool streamState = getStreamGroupState(); if ( !this->isInError() ) { // stream is still active if( streamState ) { return (stop_retry_left-- > 0) ? stopStream() : false; } } } } return false; } bool LedDevicePhilipsHue::getStreamGroupState() { QJsonDocument doc = getGroupState( _groupId ); if ( !this->isInError() ) { QJsonObject obj = doc.object()[ API_STREAM ].toObject(); if( obj.isEmpty() ) { this->setInError( "no Streaming Infos in Group found" ); } else { _streamOwner = obj.value( API_STREAM_OWNER ).toString(); bool streamState = obj.value( API_STREAM_ACTIVE ).toBool(); return streamState; } } return false; } bool LedDevicePhilipsHue::setStreamGroupState(bool state) { QString active = state ? API_STREAM_ACTIVE_VALUE_TRUE : API_STREAM_ACTIVE_VALUE_FALSE; QJsonDocument doc = setGroupState( _groupId, state ); QVariant rsp = doc.toVariant(); QVariantMap map = rsp.toList().first().toMap(); if ( !map.contains( API_SUCCESS ) ) { this->setInError( QString("set stream to %1: Neither error nor success contained in Bridge response...").arg( active ) ); } else { QString valueName = QString( API_STREAM_RESPONSE_FORMAT ).arg( API_GROUPS ).arg( _groupId ).arg( API_STREAM ).arg( API_STREAM_ACTIVE ); if(!map.value( API_SUCCESS ).toMap().value( valueName ).isValid()) { this->setInError( QString("set stream to %1: Bridge response is not Valid").arg( active ) ); } else { bool groupStreamState = map.value( API_SUCCESS ).toMap().value( valueName ).toBool(); return ( groupStreamState == state ); } } return false; } QByteArray LedDevicePhilipsHue::prepareStreamData() { static const uint8_t HEADER[] = { 'H', 'u', 'e', 'S', 't', 'r', 'e', 'a', 'm', //protocol 0x01, 0x00, //version 1.0 0x01, //sequence number 1 0x00, 0x00, //Reserved write 0’s 0x01, //xy Brightness 0x00, // Reserved, write 0’s }; static const uint8_t PAYLOAD_PER_LIGHT[] = { 0x01, 0x00, 0x06, //light ID //color: 16 bpc 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, /* (message.R >> 8) & 0xff, message.R & 0xff, (message.G >> 8) & 0xff, message.G & 0xff, (message.B >> 8) & 0xff, message.B & 0xff */ }; QByteArray msg; msg.reserve(static_cast(sizeof(HEADER) + sizeof(PAYLOAD_PER_LIGHT) * _lights.size())); msg.append((char*)HEADER, sizeof(HEADER)); for (PhilipsHueLight& light : _lights) { CiColor lightC = light.getColor(); quint64 R = lightC.x * 0xffff; quint64 G = lightC.y * 0xffff; quint64 B = lightC.bri * 0xffff; unsigned int id = light.getId(); const uint8_t payload[] = { 0x00, 0x00, static_cast(id), static_cast((R >> 8) & 0xff), static_cast(R & 0xff), static_cast((G >> 8) & 0xff), static_cast(G & 0xff), static_cast((B >> 8) & 0xff), static_cast(B & 0xff) }; msg.append((char*)payload, sizeof(payload)); } return msg; } void LedDevicePhilipsHue::restoreOriginalState() { if ( _isRestoreOrigState && !_lightStatesRestored ) { _lightStatesRestored = true; if( !_lightIds.empty() ) { for ( PhilipsHueLight& light : _lights ) { setLightState( light.getId(),light.getOriginalState() ); } } } } void LedDevicePhilipsHue::close() { _isInitLeds = false; this->stopBlackTimeoutTimer(); LedDevicePhilipsHueBridge::close(); if ( _deviceReady ) { if ( !_useHueEntertainmentAPI ) { //Restore Philips Hue devices state restoreOriginalState(); } } } int LedDevicePhilipsHue::write(const std::vector & ledValues) { // lights will be empty sometimes if( _lights.empty() ) return -1; // more lights then leds, stop always if( ledValues.size() < getLightsCount() ) { Error(_log, "More light-IDs configured than leds, each light-ID requires one led!" ); return -1; } writeSingleLights( ledValues ); if( _useHueEntertainmentAPI && !noSignalDetection() && _isInitLeds ) writeStream(); return 0; } void LedDevicePhilipsHue::noSignalTimeout() { Debug(_log, "No Signal (timeout: %sms), only black color detected - stop stream for \"%s\" [%u]", QSTRING_CSTR( QString::number( _blackLightsTimer->remainingTime() ) ), QSTRING_CSTR(_groupName), _groupId ); _stopConnection = true; switchOff(); } void LedDevicePhilipsHue::stopBlackTimeoutTimer() { if ( _blackLightsTimer != nullptr && _blackLightsTimer->isActive() ) { _blackLightsTimer->stop(); } } bool LedDevicePhilipsHue::noSignalDetection() { if( _allLightsBlack ) { if( !_stopConnection && _isInitLeds ) { if ( !_blackLightsTimer->isActive() ) { DebugIf( verbose, _log, "No Signal detected - timeout timer started" ); _blackLightsTimer->start( ( _blackLightsTimeout + 500 ) ); } } } else { if ( _blackLightsTimer->isActive() ) { DebugIf( verbose, _log, "Signal detected - timeout timer stopped" ); this->stopBlackTimeoutTimer(); } if( _stopConnection ) { _stopConnection = false; Debug(_log, "Signal detected - restart stream for \"%s\" [%u]", QSTRING_CSTR(_groupName), _groupId ); switchOn(); } } return _stopConnection; } int LedDevicePhilipsHue::writeSingleLights(const std::vector& ledValues) { // Iterate through lights and set colors. unsigned int idx = 0; unsigned int blackCounter = 0; for ( PhilipsHueLight& light : _lights ) { // Get color. ColorRgb color = ledValues.at(idx); // Scale colors from [0, 255] to [0, 1] and convert to xy space. CiColor xy = CiColor::rgbToCiColor(color.red / 255.0, color.green / 255.0, color.blue / 255.0, light.getColorSpace()); if( _useHueEntertainmentAPI ) { this->setColor(light, xy); if( xy.bri >= 0.0 && xy.bri <= _brightnessThreshold ) { blackCounter++; } } else { if ( _switchOffOnBlack && xy.bri == 0.0 ) { this->setOnOffState( light, false ); } else { // Write color if color has been changed. this->setState( light, true, xy ); } } idx++; } if( _useHueEntertainmentAPI ) { _allLightsBlack = ( blackCounter == _lightsCount ); } return 0; } void LedDevicePhilipsHue::writeStream() { QByteArray streamData = prepareStreamData(); writeBytes( streamData.size(), reinterpret_cast( streamData.data() ) ); } void LedDevicePhilipsHue::setOnOffState(PhilipsHueLight& light, bool on) { if (light.getOnOffState() != on) { light.setOnOffState( on ); QString state = on ? API_STATE_VALUE_TRUE : API_STATE_VALUE_FALSE; setLightState( light.getId(), QString("{\"%1\": %2 }").arg( API_STATE_ON ).arg( state ) ); } } void LedDevicePhilipsHue::setTransitionTime(PhilipsHueLight& light) { if (light.getTransitionTime() != _transitionTime) { light.setTransitionTime( _transitionTime ); setLightState( light.getId(), QString("{\"%1\": %2 }").arg( API_TRANSITIONTIME ).arg( _transitionTime ) ); } } void LedDevicePhilipsHue::setColor(PhilipsHueLight& light, CiColor& color) { if ( light.getColor() != color ) { if( !_useHueEntertainmentAPI ) { const int bri = qRound(qMin(254.0, _brightnessFactor * qMax(1.0, color.bri * 254.0))); QString stateCmd = QString("\"%1\":[%2,%3],\"%4\":%5").arg( API_XY_COORDINATES ).arg( color.x, 0, 'd', 4 ).arg( color.y, 0, 'd', 4 ).arg( API_BRIGHTNESS ).arg( bri ); setLightState( light.getId(), stateCmd ); } else { color.bri = ( qMin( _brightnessMax, _brightnessFactor * qMax( _brightnessMin, color.bri ) ) ); //if(color.x == 0.0 && color.y == 0.0) color = colorBlack; } light.setColor( color ); } } void LedDevicePhilipsHue::setState(PhilipsHueLight& light, bool on, const CiColor& color) { QString stateCmd; if ( light.getOnOffState() != on ) { light.setOnOffState( on ); QString state = on ? API_STATE_VALUE_TRUE : API_STATE_VALUE_FALSE; stateCmd += QString("\"%1\":%2,").arg( API_STATE_ON ).arg( state ); } if ( light.getTransitionTime() != _transitionTime ) { light.setTransitionTime( _transitionTime ); stateCmd += QString("\"%1\":%2,").arg( API_TRANSITIONTIME ).arg( _transitionTime ); } const int bri = qRound( qMin( 254.0, _brightnessFactor * qMax( 1.0, color.bri * 254.0 ) ) ); if ( light.getColor() != color ) { light.setColor( color ); stateCmd += QString("\"%1\":[%2,%3],\"%4\":%5").arg( API_XY_COORDINATES ).arg( color.x, 0, 'd', 4 ).arg( color.y, 0, 'd', 4 ).arg( API_BRIGHTNESS ).arg( bri ); } if ( !stateCmd.isEmpty() ) { setLightState( light.getId(), "{" + stateCmd + "}" ); } } void LedDevicePhilipsHue::setLightsCount( unsigned int lightsCount ) { _lightsCount = lightsCount; } bool LedDevicePhilipsHue::reinitLeds() { bool isInitOK = initMaps(); if( isInitOK ) { isInitOK = initLeds(); } return isInitOK; } int LedDevicePhilipsHue::switchOn() { if ( _deviceReady ) { if( !_isInitLeds ) { _useHueEntertainmentAPI = _devConfig[CONFIG_USE_HUE_ENTERTAINMENT_API].toBool(false); Debug(_log, "Update Bridge, Group and Light states"); reinitLeds(); } bool isInitOK = false; if( _useHueEntertainmentAPI ) { isInitOK = initStream(); } if( !isInitOK ) { _useHueEntertainmentAPI = false; //Switch on Philips Hue devices physically for ( PhilipsHueLight& light : _lights ) { setOnOffState( light, true ); } } _lightStatesRestored = false; } return 0; } int LedDevicePhilipsHue::switchOff() { this->stopBlackTimeoutTimer(); //Set all LEDs to Black int rc = LedDevice::switchOff(); if ( _deviceReady ) { if( _useHueEntertainmentAPI ) { stop_retry_left = 3; if( stopStream() ) { //Restore Philips Hue devices state restoreOriginalState(); } } else { //Switch off Philips Hue devices physically for ( PhilipsHueLight& light : _lights ) { setOnOffState( light, false ); } } _isInitLeds = false; } return rc; }