src/app/clusters/scenes-server/SceneHandlerImpl.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /**
  *
  *    Copyright (c) 2023 Project CHIP Authors
  *
  *    Licensed under the Apache License, Version 2.0 (the "License");
  *    you may not use this file except in compliance with the License.
  *    You may obtain a copy of the License at
  *
  *        http://www.apache.org/licenses/LICENSE-2.0
  *
  *    Unless required by applicable law or agreed to in writing, software
  *    distributed under the License is distributed on an "AS IS" BASIS,
  *    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  *    See the License for the specific language governing permissions and
  *    limitations under the License.
  */

 #include <app/clusters/scenes-server/SceneTable.h>
 #include <app/util/attribute-storage.h>
 #include <app/util/types_stub.h>
 #include <lib/core/DataModelTypes.h>

 namespace chip {
 namespace scenes {

 /// @brief Default implementation of handler, handle EFS from add scene and view scene commands for any cluster
 ///        The implementation of SerializeSave and ApplyScene were omitted and must be implemented in a way that
 ///        is compatible with the SerializeAdd output in order to function with the Default Scene Handler.
 ///        It is worth noting that this implementation is very memory consuming. In the current worst case,
 ///        (Color control cluster), the Extension Field Set's value pair list TLV occupies 99 bytes of memory
 class DefaultSceneHandlerImpl : public scenes::SceneHandler
 {
     template <typename T>
     using List = app::DataModel::List<T>;

     template <typename T>
     using DecodableList = app::DataModel::DecodableList<T>;

     using AttributeValuePairType          = app::Clusters::ScenesManagement::Structs::AttributeValuePair::Type;
     using AttributeValuePairDecodableType = app::Clusters::ScenesManagement::Structs::AttributeValuePair::DecodableType;
     using ExtensionFieldSetDecodableType  = app::Clusters::ScenesManagement::Structs::ExtensionFieldSet::DecodableType;
     using ExtensionFieldSetType           = app::Clusters::ScenesManagement::Structs::ExtensionFieldSet::Type;

 public:
     /// @brief Struct meant to map the state of a cluster to a specific endpoint. Meant to be used to apply scenes using a timer for
     /// transitioning
     /// @tparam ValueType type of the value to map to the endpoint, must implement operator= and operator== for complex types
     template <typename ValueType>
     struct EndpointStatePair
     {
         EndpointStatePair(EndpointId endpoint = kInvalidEndpointId, ValueType value = ValueType{}) :
             mEndpoint(endpoint), mValue(value)
         {}
         EndpointId mEndpoint;
         ValueType mValue;
     };

     template <typename ValueType, size_t MaxEndpointCount>
     struct StatePairBuffer
     {
         static_assert(std::is_trivial<ValueType>::value, "ValueType must be trivial");
         static_assert(MaxEndpointCount < std::numeric_limits<uint16_t>::max(), "MaxEndpointCount must be less than 65535");

         bool IsEmpty() const { return (mPairCount == 0); }

         CHIP_ERROR FindPair(const EndpointId endpoint, uint16_t & found_index) const
         {
             VerifyOrReturnError(!IsEmpty(), CHIP_ERROR_NOT_FOUND);
             for (found_index = 0; found_index < mPairCount; found_index++)
             {
                 if (endpoint == mStatePairBuffer[found_index].mEndpoint)
                 {
                     return CHIP_NO_ERROR;
                 }
             }

             return CHIP_ERROR_NOT_FOUND;
         }

         CHIP_ERROR InsertPair(const EndpointStatePair<ValueType> & status)
         {
             uint16_t idx;
             CHIP_ERROR err = FindPair(status.mEndpoint, idx);

             if (CHIP_NO_ERROR == err)
             {
                 mStatePairBuffer[idx] = status;
             }
             else if (mPairCount < MaxEndpointCount)
             {
                 // If not found, insert at the end
                 mStatePairBuffer[mPairCount] = status;
                 mPairCount++;
             }
             else
             {
                 return CHIP_ERROR_NO_MEMORY;
             }

             return CHIP_NO_ERROR;
         }

         CHIP_ERROR GetPair(const EndpointId endpoint, EndpointStatePair<ValueType> & status) const
         {
             uint16_t idx;
             ReturnErrorOnFailure(FindPair(endpoint, idx));

             status = mStatePairBuffer[idx];
             return CHIP_NO_ERROR;
         }

         /// @brief Removes Pair and decrements Pair count if the endpoint existed in the array
         /// @param endpoint : endpoint id of the pair
         CHIP_ERROR RemovePair(const EndpointId endpoint)
         {
             uint16_t position;
             VerifyOrReturnValue(CHIP_NO_ERROR == FindPair(endpoint, position), CHIP_NO_ERROR);

             uint16_t nextPos = static_cast<uint16_t>(position + 1);
             uint16_t moveNum = static_cast<uint16_t>(mPairCount - nextPos);

             // Compress array after removal, if the removed position is not the last
             if (moveNum)
             {
                 memmove(&mStatePairBuffer[position], &mStatePairBuffer[nextPos], sizeof(EndpointStatePair<ValueType>) * moveNum);
             }

             mPairCount--;
             // Clear the last occupied position
             mStatePairBuffer[mPairCount].mEndpoint = kInvalidEndpointId;

             return CHIP_NO_ERROR;
         }

         uint16_t mPairCount = 0;
         EndpointStatePair<ValueType> mStatePairBuffer[MaxEndpointCount];
     };

     /// @brief Helper struct that allows clusters that do not have an existing mechanism for doing
     //         asynchronous work to perform scene transitions over some period of time.
     /// @tparam MaxEndpointCount
     template <size_t MaxEndpointCount, size_t FixedEndpointCount>
     struct TransitionTimeInterface
     {
         EmberEventControl sceneHandlerEventControls[MaxEndpointCount];

         TransitionTimeInterface(ClusterId clusterId, void (*callback)(EndpointId)) : mClusterId(clusterId), mCallback(callback) {}

         /**
          * @brief Configures EventControl callback
          *
          * @param[in] endpoint endpoint to start timer for
          * @return EmberEventControl* configured event control
          */
         EmberEventControl * sceneEventControl(EndpointId endpoint)
         {
             EmberEventControl * controller = getEventControl(endpoint, Span<EmberEventControl>(sceneHandlerEventControls));
             VerifyOrReturnValue(controller != nullptr, nullptr);

             controller->endpoint = endpoint;
             controller->callback = mCallback;

             return controller;
         }

         ClusterId mClusterId;
         void (*mCallback)(EndpointId);

     private:
         /**
          * @brief event control object for an endpoint
          *
          * @param[in] endpoint target endpoint
          * @param[in] eventControlArray Array where to find the event control
          * @return EmberEventControl* configured event control
          */
         EmberEventControl * getEventControl(EndpointId endpoint, const Span<EmberEventControl> & eventControlArray)
         {
             uint16_t index = emberAfGetClusterServerEndpointIndex(endpoint, mClusterId, FixedEndpointCount);
             if (index >= eventControlArray.size())
             {
                 return nullptr;
             }

             return &eventControlArray[index];
         }
     };

     static constexpr uint8_t kMaxAvPair = CHIP_CONFIG_SCENES_MAX_AV_PAIRS_EFS;

     DefaultSceneHandlerImpl() = default;
     ~DefaultSceneHandlerImpl() override{};

     /// @brief Encodes an attribute value list into a TLV structure and resizes the buffer to the size of the encoded data
     /// @param aVlist[in] Attribute value list to encode
     /// @param serializedBytes[out] Buffer to fill from the Attribute value list in a TLV format
     /// @return CHIP_ERROR
     virtual CHIP_ERROR EncodeAttributeValueList(const List<AttributeValuePairType> & aVlist, MutableByteSpan & serializedBytes);

     /// @brief Decodes an attribute value list from a TLV structure and ensure it fits the member pair buffer
     /// @param serializedBytes [in] Buffer to read from
     /// @param aVlist [out] Attribute value list to fill from the TLV structure.  Only valid while the buffer backing
     /// serializedBytes exists and its contents are not modified.
     /// @return CHIP_ERROR
     virtual CHIP_ERROR DecodeAttributeValueList(const ByteSpan & serializedBytes,
                                                 DecodableList<AttributeValuePairDecodableType> & aVlist);

     /// @brief From command AddScene, allows handler to filter through clusters in command to serialize only the supported ones.
     /// @param endpoint[in] Endpoint ID
     /// @param extensionFieldSet[in] ExtensionFieldSets provided by the AddScene Command, pre initialized
     /// @param serializedBytes[out] Buffer to fill from the ExtensionFieldSet in command
     /// @return CHIP_NO_ERROR if successful, CHIP_ERROR_INVALID_ARGUMENT if the cluster is not supported, CHIP_ERROR value
     /// otherwise
     virtual CHIP_ERROR SerializeAdd(EndpointId endpoint, const ExtensionFieldSetDecodableType & extensionFieldSet,
                                     MutableByteSpan & serializedBytes) override;

     /// @brief Simulates taking data from nvm and loading it in a command object if the cluster is supported by the endpoint
     /// @param endpoint target endpoint
     /// @param cluster  target cluster
     /// @param serializedBytes data to deserialize into EFS
     /// @return CHIP_NO_ERROR if Extension Field Set was successfully populated, CHIP_ERROR_INVALID_ARGUMENT if the cluster is not
     /// supported, specific CHIP_ERROR otherwise
     virtual CHIP_ERROR Deserialize(EndpointId endpoint, ClusterId cluster, const ByteSpan & serializedBytes,
                                    ExtensionFieldSetType & extensionFieldSet) override;

 private:
     AttributeValuePairType mAVPairs[kMaxAvPair];
 };

 } // namespace scenes
 } // namespace chip
	/**
	*
	* Copyright (c) 2023 Project CHIP Authors
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include <app/clusters/scenes-server/SceneTable.h>
	#include <app/util/attribute-storage.h>
	#include <app/util/types_stub.h>
	#include <lib/core/DataModelTypes.h>

	namespace chip {
	namespace scenes {

	/// @brief Default implementation of handler, handle EFS from add scene and view scene commands for any cluster
	/// The implementation of SerializeSave and ApplyScene were omitted and must be implemented in a way that
	/// is compatible with the SerializeAdd output in order to function with the Default Scene Handler.
	/// It is worth noting that this implementation is very memory consuming. In the current worst case,
	/// (Color control cluster), the Extension Field Set's value pair list TLV occupies 99 bytes of memory
	class DefaultSceneHandlerImpl : public scenes::SceneHandler
	{
	template <typename T>
	using List = app::DataModel::List<T>;

	template <typename T>
	using DecodableList = app::DataModel::DecodableList<T>;

	using AttributeValuePairType = app::Clusters::ScenesManagement::Structs::AttributeValuePair::Type;
	using AttributeValuePairDecodableType = app::Clusters::ScenesManagement::Structs::AttributeValuePair::DecodableType;
	using ExtensionFieldSetDecodableType = app::Clusters::ScenesManagement::Structs::ExtensionFieldSet::DecodableType;
	using ExtensionFieldSetType = app::Clusters::ScenesManagement::Structs::ExtensionFieldSet::Type;

	public:
	/// @brief Struct meant to map the state of a cluster to a specific endpoint. Meant to be used to apply scenes using a timer for
	/// transitioning
	/// @tparam ValueType type of the value to map to the endpoint, must implement operator= and operator== for complex types
	template <typename ValueType>
	struct EndpointStatePair
	{
	EndpointStatePair(EndpointId endpoint = kInvalidEndpointId, ValueType value = ValueType{}) :
	mEndpoint(endpoint), mValue(value)
	{}
	EndpointId mEndpoint;
	ValueType mValue;
	};

	template <typename ValueType, size_t MaxEndpointCount>
	struct StatePairBuffer
	{
	static_assert(std::is_trivial<ValueType>::value, "ValueType must be trivial");
	static_assert(MaxEndpointCount < std::numeric_limits<uint16_t>::max(), "MaxEndpointCount must be less than 65535");

	bool IsEmpty() const { return (mPairCount == 0); }

	CHIP_ERROR FindPair(const EndpointId endpoint, uint16_t & found_index) const
	{
	VerifyOrReturnError(!IsEmpty(), CHIP_ERROR_NOT_FOUND);
	for (found_index = 0; found_index < mPairCount; found_index++)
	{
	if (endpoint == mStatePairBuffer[found_index].mEndpoint)
	{
	return CHIP_NO_ERROR;
	}
	}

	return CHIP_ERROR_NOT_FOUND;
	}

	CHIP_ERROR InsertPair(const EndpointStatePair<ValueType> & status)
	{
	uint16_t idx;
	CHIP_ERROR err = FindPair(status.mEndpoint, idx);

	if (CHIP_NO_ERROR == err)
	{
	mStatePairBuffer[idx] = status;
	}
	else if (mPairCount < MaxEndpointCount)
	{
	// If not found, insert at the end
	mStatePairBuffer[mPairCount] = status;
	mPairCount++;
	}
	else
	{
	return CHIP_ERROR_NO_MEMORY;
	}

	return CHIP_NO_ERROR;
	}

	CHIP_ERROR GetPair(const EndpointId endpoint, EndpointStatePair<ValueType> & status) const
	{
	uint16_t idx;
	ReturnErrorOnFailure(FindPair(endpoint, idx));

	status = mStatePairBuffer[idx];
	return CHIP_NO_ERROR;
	}

	/// @brief Removes Pair and decrements Pair count if the endpoint existed in the array
	/// @param endpoint : endpoint id of the pair
	CHIP_ERROR RemovePair(const EndpointId endpoint)
	{
	uint16_t position;
	VerifyOrReturnValue(CHIP_NO_ERROR == FindPair(endpoint, position), CHIP_NO_ERROR);

	uint16_t nextPos = static_cast<uint16_t>(position + 1);
	uint16_t moveNum = static_cast<uint16_t>(mPairCount - nextPos);

	// Compress array after removal, if the removed position is not the last
	if (moveNum)
	{
	memmove(&mStatePairBuffer[position], &mStatePairBuffer[nextPos], sizeof(EndpointStatePair<ValueType>) * moveNum);
	}

	mPairCount--;
	// Clear the last occupied position
	mStatePairBuffer[mPairCount].mEndpoint = kInvalidEndpointId;

	return CHIP_NO_ERROR;
	}

	uint16_t mPairCount = 0;
	EndpointStatePair<ValueType> mStatePairBuffer[MaxEndpointCount];
	};

	/// @brief Helper struct that allows clusters that do not have an existing mechanism for doing
	// asynchronous work to perform scene transitions over some period of time.
	/// @tparam MaxEndpointCount
	template <size_t MaxEndpointCount, size_t FixedEndpointCount>
	struct TransitionTimeInterface
	{
	EmberEventControl sceneHandlerEventControls[MaxEndpointCount];

	TransitionTimeInterface(ClusterId clusterId, void (*callback)(EndpointId)) : mClusterId(clusterId), mCallback(callback) {}

	/**
	* @brief Configures EventControl callback
	*
	* @param[in] endpoint endpoint to start timer for
	* @return EmberEventControl* configured event control
	*/
	EmberEventControl * sceneEventControl(EndpointId endpoint)
	{
	EmberEventControl * controller = getEventControl(endpoint, Span<EmberEventControl>(sceneHandlerEventControls));
	VerifyOrReturnValue(controller != nullptr, nullptr);

	controller->endpoint = endpoint;
	controller->callback = mCallback;

	return controller;
	}

	ClusterId mClusterId;
	void (*mCallback)(EndpointId);

	private:
	/**
	* @brief event control object for an endpoint
	*
	* @param[in] endpoint target endpoint
	* @param[in] eventControlArray Array where to find the event control
	* @return EmberEventControl* configured event control
	*/
	EmberEventControl * getEventControl(EndpointId endpoint, const Span<EmberEventControl> & eventControlArray)
	{
	uint16_t index = emberAfGetClusterServerEndpointIndex(endpoint, mClusterId, FixedEndpointCount);
	if (index >= eventControlArray.size())
	{
	return nullptr;
	}

	return &eventControlArray[index];
	}
	};

	static constexpr uint8_t kMaxAvPair = CHIP_CONFIG_SCENES_MAX_AV_PAIRS_EFS;

	DefaultSceneHandlerImpl() = default;
	~DefaultSceneHandlerImpl() override{};

	/// @brief Encodes an attribute value list into a TLV structure and resizes the buffer to the size of the encoded data
	/// @param aVlist[in] Attribute value list to encode
	/// @param serializedBytes[out] Buffer to fill from the Attribute value list in a TLV format
	/// @return CHIP_ERROR
	virtual CHIP_ERROR EncodeAttributeValueList(const List<AttributeValuePairType> & aVlist, MutableByteSpan & serializedBytes);

	/// @brief Decodes an attribute value list from a TLV structure and ensure it fits the member pair buffer
	/// @param serializedBytes [in] Buffer to read from
	/// @param aVlist [out] Attribute value list to fill from the TLV structure. Only valid while the buffer backing
	/// serializedBytes exists and its contents are not modified.
	/// @return CHIP_ERROR
	virtual CHIP_ERROR DecodeAttributeValueList(const ByteSpan & serializedBytes,
	DecodableList<AttributeValuePairDecodableType> & aVlist);

	/// @brief From command AddScene, allows handler to filter through clusters in command to serialize only the supported ones.
	/// @param endpoint[in] Endpoint ID
	/// @param extensionFieldSet[in] ExtensionFieldSets provided by the AddScene Command, pre initialized
	/// @param serializedBytes[out] Buffer to fill from the ExtensionFieldSet in command
	/// @return CHIP_NO_ERROR if successful, CHIP_ERROR_INVALID_ARGUMENT if the cluster is not supported, CHIP_ERROR value
	/// otherwise
	virtual CHIP_ERROR SerializeAdd(EndpointId endpoint, const ExtensionFieldSetDecodableType & extensionFieldSet,
	MutableByteSpan & serializedBytes) override;

	/// @brief Simulates taking data from nvm and loading it in a command object if the cluster is supported by the endpoint
	/// @param endpoint target endpoint
	/// @param cluster target cluster
	/// @param serializedBytes data to deserialize into EFS
	/// @return CHIP_NO_ERROR if Extension Field Set was successfully populated, CHIP_ERROR_INVALID_ARGUMENT if the cluster is not
	/// supported, specific CHIP_ERROR otherwise
	virtual CHIP_ERROR Deserialize(EndpointId endpoint, ClusterId cluster, const ByteSpan & serializedBytes,
	ExtensionFieldSetType & extensionFieldSet) override;

	private:
	AttributeValuePairType mAVPairs[kMaxAvPair];
	};

	} // namespace scenes
	} // namespace chip