diff --git a/src/app/clusters/color-control-server/color-control-server.cpp b/src/app/clusters/color-control-server/color-control-server.cpp index d75e059cc718b2..6810ce37789c83 100644 --- a/src/app/clusters/color-control-server/color-control-server.cpp +++ b/src/app/clusters/color-control-server/color-control-server.cpp @@ -38,7 +38,7 @@ using chip::Protocols::InteractionModel::Status; class DefaultColorControlSceneHandler : public scenes::DefaultSceneHandlerImpl { public: - enum ColorControlEFS : uint8_t + enum class ColorControlEFS : uint8_t { kCurrentX = 0, kCurrentY, @@ -49,11 +49,9 @@ class DefaultColorControlSceneHandler : public scenes::DefaultSceneHandlerImpl kColorLoopTime, kColorTemperatureMireds, kEnhancedColorMode, + kColorControlMaxScenableAttributes, }; - // As per spec, 2 attributes are scenable in the level control cluster - static constexpr uint8_t kColorControlMaxScenableAttributes = 9; - DefaultColorControlSceneHandler() = default; ~DefaultColorControlSceneHandler() override {} @@ -67,6 +65,10 @@ class DefaultColorControlSceneHandler : public scenes::DefaultSceneHandlerImpl buffer[0] = ColorControl::Id; clusterBuffer.reduce_size(1); } + else + { + clusterBuffer.reduce_size(0); + } } // Default function for ColorControl cluster, only checks if ColorControl is enabled on the endpoint @@ -84,7 +86,8 @@ class DefaultColorControlSceneHandler : public scenes::DefaultSceneHandlerImpl { using AttributeValuePair = Scenes::Structs::AttributeValuePair::Type; - AttributeValuePair pairs[kColorControlMaxScenableAttributes]; + AttributeValuePair pairs[static_cast(ColorControlEFS::kColorControlMaxScenableAttributes)]; + size_t attributeCount = 0; if (ColorControlServer::Instance().HasFeature(endpoint, ColorControlServer::Feature::kXy)) @@ -157,14 +160,36 @@ class DefaultColorControlSceneHandler : public scenes::DefaultSceneHandlerImpl ReturnErrorOnFailure(DecodeAttributeValueList(serializedBytes, attributeValueList)); size_t attributeCount = 0; - uint32_t attributeBuffer[kColorControlMaxScenableAttributes]; - auto pair_iterator = attributeValueList.begin(); + auto pair_iterator = attributeValueList.begin(); // The color control cluster should have a maximum of 9 scenable attributes ReturnErrorOnFailure(attributeValueList.ComputeSize(&attributeCount)); - VerifyOrReturnError(attributeCount <= kColorControlMaxScenableAttributes, CHIP_ERROR_BUFFER_TOO_SMALL); + VerifyOrReturnError(attributeCount <= static_cast(ColorControlEFS::kColorControlMaxScenableAttributes), + CHIP_ERROR_BUFFER_TOO_SMALL); + // Retrieve the buffers for different modes +#ifdef EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_HSV + ColorControlServer::ColorHueTransitionState * colorHueTransitionState = + ColorControlServer::Instance().getColorHueTransitionState(endpoint); + ColorControlServer::Color16uTransitionState * colorSaturationTransitionState = + ColorControlServer::Instance().getSaturationTransitionState(endpoint); +#endif +#ifdef EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_XY + ColorControlServer::Color16uTransitionState * colorXTransitionState = + ColorControlServer::Instance().getXTransitionState(endpoint); + ColorControlServer::Color16uTransitionState * colorYTransitionState = + ColorControlServer::Instance().getYTransitionState(endpoint); +#endif +#ifdef EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_TEMP + ColorControlServer::Color16uTransitionState * colorTempTransitionState = + ColorControlServer::Instance().getTempTransitionState(endpoint); +#endif + + // Initialize action attributes to default values in case they are not in the scene + uint8_t targetColorMode = 0x00; + uint8_t loopActiveValue = 0x00; + uint8_t loopDirectionValue = 0x00; + uint16_t loopTimeValue = 0x0019; // Default loop time value according to spec - uint8_t attIdx; while (pair_iterator.Next()) { auto & decodePair = pair_iterator.GetValue(); @@ -172,47 +197,66 @@ class DefaultColorControlSceneHandler : public scenes::DefaultSceneHandlerImpl switch (decodePair.attributeID) { case Attributes::CurrentX::Id: - attIdx = ColorControlEFS::kCurrentX; + if (SupportsColorMode(endpoint, EMBER_ZCL_ENHANCED_COLOR_MODE_CURRENT_X_AND_CURRENT_Y)) + { + if (decodePair.attributeValue) + colorXTransitionState->finalValue = + std::min(static_cast(decodePair.attributeValue), colorXTransitionState->highLimit); + } break; case Attributes::CurrentY::Id: - attIdx = ColorControlEFS::kCurrentY; + if (SupportsColorMode(endpoint, EMBER_ZCL_ENHANCED_COLOR_MODE_CURRENT_X_AND_CURRENT_Y)) + { + colorYTransitionState->finalValue = + std::min(static_cast(decodePair.attributeValue), colorYTransitionState->highLimit); + } break; case Attributes::EnhancedCurrentHue::Id: - attIdx = ColorControlEFS::kEnhancedCurrentHue; + if (SupportsColorMode(endpoint, EMBER_ZCL_ENHANCED_COLOR_MODE_ENHANCED_CURRENT_HUE_AND_CURRENT_SATURATION)) + { + colorHueTransitionState->finalEnhancedHue = static_cast(decodePair.attributeValue); + } break; case Attributes::CurrentSaturation::Id: - attIdx = ColorControlEFS::kCurrentSaturation; + if (SupportsColorMode(endpoint, EMBER_ZCL_ENHANCED_COLOR_MODE_CURRENT_HUE_AND_CURRENT_SATURATION)) + { + colorSaturationTransitionState->finalValue = + std::min(static_cast(decodePair.attributeValue), colorSaturationTransitionState->highLimit); + } break; case Attributes::ColorLoopActive::Id: - attIdx = ColorControlEFS::kColorLoopActive; + loopActiveValue = static_cast(decodePair.attributeValue); break; case Attributes::ColorLoopDirection::Id: - attIdx = ColorControlEFS::kColorLoopDirection; + loopDirectionValue = static_cast(decodePair.attributeValue); break; case Attributes::ColorLoopTime::Id: - attIdx = ColorControlEFS::kColorLoopTime; + loopTimeValue = static_cast(decodePair.attributeValue); break; case Attributes::ColorTemperatureMireds::Id: - attIdx = ColorControlEFS::kColorTemperatureMireds; + if (SupportsColorMode(endpoint, EMBER_ZCL_ENHANCED_COLOR_MODE_COLOR_TEMPERATURE)) + { + colorTempTransitionState->finalValue = + std::min(static_cast(decodePair.attributeValue), colorTempTransitionState->highLimit); + } break; case Attributes::EnhancedColorMode::Id: - attIdx = ColorControlEFS::kEnhancedColorMode; + if (decodePair.attributeValue <= static_cast(ColorControlServer::ColorMode::COLOR_MODE_EHSV)) + { + targetColorMode = static_cast(decodePair.attributeValue); + } break; default: return CHIP_ERROR_INVALID_ARGUMENT; break; } - - attributeBuffer[attIdx] = decodePair.attributeValue; } - ReturnErrorOnFailure(pair_iterator.GetStatus()); // Switch to the mode saved in the scene - if (SupportsColorMode(endpoint, static_cast(attributeBuffer[ColorControlEFS::kEnhancedColorMode]))) + if (SupportsColorMode(endpoint, targetColorMode)) { - ColorControlServer::Instance().handleModeSwitch( - endpoint, static_cast(attributeBuffer[ColorControlEFS::kEnhancedColorMode])); + ColorControlServer::Instance().handleModeSwitch(endpoint, targetColorMode); } else { @@ -221,65 +265,42 @@ class DefaultColorControlSceneHandler : public scenes::DefaultSceneHandlerImpl uint16_t transitionTime10th = static_cast(timeMs / 100); -#ifdef EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_HSV - ColorControlServer::ColorHueTransitionState * colorHueTransitionState = - ColorControlServer::Instance().getColorHueTransitionState(endpoint); - ColorControlServer::Color16uTransitionState * colorSaturationTransitionState = - ColorControlServer::Instance().getSaturationTransitionState(endpoint); - colorSaturationTransitionState->finalValue = static_cast(attributeBuffer[ColorControlEFS::kCurrentSaturation]); - colorHueTransitionState->finalEnhancedHue = static_cast(attributeBuffer[ColorControlEFS::kEnhancedCurrentHue]); -#endif -#ifdef EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_XY - ColorControlServer::Color16uTransitionState * colorXTransitionState = - ColorControlServer::Instance().getXTransitionState(endpoint); - ColorControlServer::Color16uTransitionState * colorYTransitionState = - ColorControlServer::Instance().getYTransitionState(endpoint); - colorXTransitionState->finalValue = static_cast(attributeBuffer[ColorControlEFS::kCurrentX]); - colorYTransitionState->finalValue = static_cast(attributeBuffer[ColorControlEFS::kCurrentY]); -#endif -#ifdef EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_TEMP - ColorControlServer::Color16uTransitionState * colorTempTransitionState = - ColorControlServer::Instance().getTempTransitionState(endpoint); - colorTempTransitionState->finalValue = static_cast(attributeBuffer[ColorControlEFS::kColorTemperatureMireds]); -#endif - - // Set Loop Scene Attributes and start loop if scene stored active loop - Attributes::ColorLoopDirection::Set(endpoint, static_cast(attributeBuffer[ColorControlEFS::kColorLoopDirection])); - Attributes::ColorLoopTime::Set(endpoint, static_cast(attributeBuffer[ColorControlEFS::kColorLoopTime])); - if (attributeBuffer[ColorControlEFS::kColorLoopActive] == 1) + if (loopActiveValue == 1 && ColorControlServer::Instance().HasFeature(endpoint, ColorControlServer::Feature::kColorLoop)) { + // Set Loop Scene Attributes and start loop if scene stored active loop + Attributes::ColorLoopDirection::Set(endpoint, loopDirectionValue); + Attributes::ColorLoopTime::Set(endpoint, loopTimeValue); // Tries to applie color control loop ColorControlServer::Instance().startColorLoop(endpoint, true); } else { // Execute movement to value depending on the mode in the saved scene - switch (attributeBuffer[ColorControlEFS::kEnhancedColorMode]) + switch (targetColorMode) { case ColorControlServer::ColorMode::COLOR_MODE_HSV: #ifdef EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_HSV - ColorControlServer::Instance().moveToSaturation( - static_cast(attributeBuffer[ColorControlEFS::kCurrentSaturation]), transitionTime10th, endpoint); + ColorControlServer::Instance().moveToSaturation(static_cast(colorSaturationTransitionState->finalValue), + transitionTime10th, endpoint); #endif // EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_HSV break; case ColorControlServer::ColorMode::COLOR_MODE_CIE_XY: #ifdef EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_XY - ColorControlServer::Instance().moveToColor(static_cast(attributeBuffer[ColorControlEFS::kCurrentX]), - static_cast(attributeBuffer[ColorControlEFS::kCurrentY]), + ColorControlServer::Instance().moveToColor(colorXTransitionState->finalValue, colorYTransitionState->finalValue, transitionTime10th, endpoint); #endif // EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_XY break; case ColorControlServer::ColorMode::COLOR_MODE_TEMPERATURE: #ifdef EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_TEMP ColorControlServer::Instance().moveToColorTemp( - endpoint, static_cast(attributeBuffer[ColorControlEFS::kColorTemperatureMireds]), transitionTime10th); + endpoint, static_cast(colorTempTransitionState->finalValue), transitionTime10th); #endif // EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_TEMP break; case ColorControlServer::ColorMode::COLOR_MODE_EHSV: #ifdef EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_HSV ColorControlServer::Instance().moveToHueAndSaturation( - static_cast(attributeBuffer[ColorControlEFS::kEnhancedCurrentHue]), - static_cast(attributeBuffer[ColorControlEFS::kCurrentSaturation]), transitionTime10th, true, endpoint); + colorHueTransitionState->finalEnhancedHue, static_cast(colorSaturationTransitionState->finalValue), + transitionTime10th, true, endpoint); #endif // EMBER_AF_PLUGIN_COLOR_CONTROL_SERVER_HSV break; default: @@ -1166,13 +1187,6 @@ Status ColorControlServer::moveToSaturation(uint8_t saturation, uint16_t transit Color16uTransitionState * colorSaturationTransitionState = getSaturationTransitionState(endpoint); VerifyOrReturnError(nullptr != colorSaturationTransitionState, Status::UnsupportedEndpoint); - // limit checking: hue and saturation are 0..254. Spec dictates we ignore - // this and report a malformed packet. - if (saturation > MAX_SATURATION_VALUE) - { - return Status::ConstraintError; - } - if (transitionTime == 0) { transitionTime++; @@ -1226,13 +1240,6 @@ Status ColorControlServer::moveToHueAndSaturation(uint16_t hue, uint8_t saturati VerifyOrReturnError(nullptr != colorSaturationTransitionState, Status::UnsupportedEndpoint); VerifyOrReturnError(nullptr != colorHueTransitionState, Status::UnsupportedEndpoint); - // limit checking: hue and saturation are 0..254. Spec dictates we ignore - // this and report a constraint error. - if ((!isEnhanced && hue > MAX_HUE_VALUE) || saturation > MAX_SATURATION_VALUE) - { - return Status::ConstraintError; - } - if (transitionTime == 0) { transitionTime++; @@ -1553,6 +1560,14 @@ bool ColorControlServer::moveToHueAndSaturationCommand(app::CommandHandler * com uint8_t saturation, uint16_t transitionTime, uint8_t optionsMask, uint8_t optionsOverride, bool isEnhanced) { + // limit checking: hue and saturation are 0..254. Spec dictates we ignore + // this and report a constraint error. + if ((!isEnhanced && hue > MAX_HUE_VALUE) || saturation > MAX_SATURATION_VALUE) + { + commandObj->AddStatus(commandPath, Status::ConstraintError); + return true; + } + if (!shouldExecuteIfOff(commandPath.mEndpointId, optionsMask, optionsOverride)) { commandObj->AddStatus(commandPath, Status::Success); @@ -1751,6 +1766,12 @@ bool ColorControlServer::moveSaturationCommand(app::CommandHandler * commandObj, bool ColorControlServer::moveToSaturationCommand(app::CommandHandler * commandObj, const app::ConcreteCommandPath & commandPath, const Commands::MoveToSaturation::DecodableType & commandData) { + if (commandData.saturation > MAX_SATURATION_VALUE) + { + commandObj->AddStatus(commandPath, Status::ConstraintError); + return true; + } + if (!shouldExecuteIfOff(commandPath.mEndpointId, commandData.optionsMask, commandData.optionsOverride)) { commandObj->AddStatus(commandPath, Status::Success);