src/app/clusters/device-energy-management-server/device-energy-management-server.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2023 Project CHIP Authors
  *    All rights reserved.
  *
  *    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.
  */

 #pragma once

 #include <app-common/zap-generated/cluster-objects.h>
 #include <app/AttributeAccessInterface.h>
 #include <app/CommandHandlerInterface.h>
 #include <app/ConcreteAttributePath.h>
 #include <app/InteractionModelEngine.h>
 #include <app/MessageDef/StatusIB.h>
 #include <app/reporting/reporting.h>
 #include <app/util/attribute-storage.h>
 #include <lib/core/CHIPError.h>
 #include <protocols/interaction_model/StatusCode.h>

 namespace chip {
 namespace app {
 namespace Clusters {
 namespace DeviceEnergyManagement {

 class Delegate
 {
 public:
     virtual ~Delegate() = default;

     void SetEndpointId(EndpointId aEndpoint) { mEndpointId = aEndpoint; }

     /**
      * @brief Delegate should implement a handler to begin to adjust client power
      *        consumption/generation to the level requested.
      *
      * @param power Milli-Watts the ESA SHALL use during the adjustment period.
      * @param duration The duration that the ESA SHALL maintain the requested power for.
      * @return  Success if the adjustment is accepted; otherwise the command SHALL be rejected with appropriate error.
      */
     virtual Protocols::InteractionModel::Status PowerAdjustRequest(const int64_t power, const uint32_t duration,
                                                                    AdjustmentCauseEnum cause) = 0;

     /**
      * @brief Delegate SHALL make the ESA end the active power adjustment session & return to normal (or idle) power levels.
      *        The ESA SHALL also generate an PowerAdjustEnd Event and the ESAState SHALL be restored to Online.
      *
      * @return It should report SUCCESS if successful and FAILURE otherwise.
      */
     virtual Protocols::InteractionModel::Status CancelPowerAdjustRequest() = 0;

     /**
      * @brief Delegate for the ESA SHALL update its Forecast attribute with the RequestedStartTime including a new ForecastId.
      *
      *   If the ESA supports ForecastAdjustment, and the ESAState is not UserOptOut and the RequestedStartTime is after
      *   the EarliestStartTime and the resulting EndTime is before the LatestEndTime, then ESA SHALL accept the request
      *   to modify the Start Time.
      *   A client can estimate the entire Forecast sequence duration by computing the EndTime - StartTime fields from the
      *   Forecast attribute, and therefore avoid scheduling the start time too late.
      *
      * @param requestedStartTime The requested start time in UTC that the client would like the appliance to shift its power
      * forecast to.
      * @return Success if the StartTime in the Forecast is updated, otherwise the command SHALL be rejected with appropriate
      * IM_Status.
      */
     virtual Protocols::InteractionModel::Status StartTimeAdjustRequest(const uint32_t requestedStartTime,
                                                                        AdjustmentCauseEnum cause) = 0;

     /**
      * @brief Delegate handler for PauseRequest command
      *
      *   If the ESA supports FA and the SlotIsPauseable field is true in the ActiveSlotNumber
      *   index in the Slots list, and the ESAState is not UserOptOut then the ESA SHALL allow its current
      *   operation to be Paused.
      *
      *   During this state the ESA SHALL not consume or produce significant power (other than required to keep its
      *   basic control system operational).
      *
      * @param duration Duration that the ESA SHALL be paused for.
      * @return  Success if the ESA is paused, otherwise returns other IM_Status.
      */
     virtual Protocols::InteractionModel::Status PauseRequest(const uint32_t duration, AdjustmentCauseEnum cause) = 0;

     /**
      * @brief Delegate handler for ResumeRequest command
      *
      *   If the ESA supports FA and it is currently Paused then the ESA SHALL resume its operation.
      *   The ESA SHALL also generate a Resumed Event and the ESAState SHALL be updated accordingly to
      *   reflect its current state.
      *
      * @return  Success if the ESA is resumed, otherwise returns other IM_Status.
      */
     virtual Protocols::InteractionModel::Status ResumeRequest() = 0;

     /**
      * @brief Delegate handler for ModifyForecastRequest
      *
      *   If the ESA supports FA, and the ESAState is not UserOptOut it SHALL attempt to adjust its power forecast.
      *   This allows a one or more modifications in a single command by sending a list of modifications (one for each 'slot').
      *   Attempts to modify slots which have already past, SHALL result in the entire command being rejected.
      *   If the ESA accepts the requested Forecast then it SHALL update its Forecast attribute (incrementing its ForecastId)
      *   and run the revised Forecast as its new intended operation.
      *
      * @param forecastId Indicates the ESA ForecastId that is to be modified.
      * @param slotAdjustments List of adjustments to be applied to the ESA, corresponding to the expected ESA forecastId.
      * @return  Success if the entire list of SlotAdjustmentStruct are accepted, otherwise the command
      *          SHALL be rejected returning other IM_Status.
      */
     virtual Protocols::InteractionModel::Status
     ModifyForecastRequest(const uint32_t forecastId,
                           const DataModel::DecodableList<Structs::SlotAdjustmentStruct::Type> & slotAdjustments,
                           AdjustmentCauseEnum cause) = 0;

     /**
      * @brief Delegate handler for RequestConstraintBasedForecast
      *
      *   The ESA SHALL inspect the requested power limits to ensure that there are no overlapping elements. The ESA
      *   manufacturer may also reject the request if it could cause the user’s preferences to be breached (e.g. may
      *   cause the home to be too hot or too cold, or a battery to be insufficiently charged).
      *   If the ESA can meet the requested power limits, it SHALL regenerate a new Power Forecast with a new ForecastId.
      *
      * @param constraints  Sequence of turn up/down power requests that the ESA is being asked to constrain its operation within.
      * @return  Success if successful, otherwise the command SHALL be rejected returning other IM_Status.
      */
     virtual Protocols::InteractionModel::Status
     RequestConstraintBasedForecast(const DataModel::DecodableList<Structs::ConstraintsStruct::Type> & constraints,
                                    AdjustmentCauseEnum cause) = 0;

     /**
      * @brief Delegate handler for CancelRequest
      *
      *   The ESA SHALL attempt to cancel the effects of any previous adjustment request commands, and re-evaluate its
      *   forecast for intended operation ignoring those previous requests.
      *
      *   If the ESA ForecastStruct ForecastUpdateReason was already `Internal Optimization`, then the command SHALL
      *   be rejected with FAILURE.
      *
      *   If the command is accepted, the ESA SHALL update its ESAState if required, and the command status returned
      *   SHALL be SUCCESS.
      *
      *   The ESA SHALL update its Forecast attribute to match its new intended operation, and update the
      *   ForecastStruct.ForecastUpdateReason to `Internal Optimization`
      *
      * @return  Success if successful, otherwise the command SHALL be rejected returning other IM_Status.
      */
     virtual Protocols::InteractionModel::Status CancelRequest() = 0;

     // ------------------------------------------------------------------
     // Get attribute methods
     virtual ESATypeEnum GetESAType()                                                             = 0;
     virtual bool GetESACanGenerate()                                                             = 0;
     virtual ESAStateEnum GetESAState()                                                           = 0;
     virtual int64_t GetAbsMinPower()                                                             = 0;
     virtual int64_t GetAbsMaxPower()                                                             = 0;
     virtual Attributes::PowerAdjustmentCapability::TypeInfo::Type GetPowerAdjustmentCapability() = 0;
     virtual DataModel::Nullable<Structs::ForecastStruct::Type> GetForecast()                     = 0;
     virtual OptOutStateEnum GetOptOutState()                                                     = 0;

     // ------------------------------------------------------------------
     // Set attribute methods
     virtual CHIP_ERROR SetESAType(ESATypeEnum)                                                             = 0;
     virtual CHIP_ERROR SetESACanGenerate(bool)                                                             = 0;
     virtual CHIP_ERROR SetESAState(ESAStateEnum)                                                           = 0;
     virtual CHIP_ERROR SetAbsMinPower(int64_t)                                                             = 0;
     virtual CHIP_ERROR SetAbsMaxPower(int64_t)                                                             = 0;
     virtual CHIP_ERROR SetPowerAdjustmentCapability(Attributes::PowerAdjustmentCapability::TypeInfo::Type) = 0;
     virtual CHIP_ERROR SetForecast(DataModel::Nullable<Structs::ForecastStruct::Type>)                     = 0;

 protected:
     EndpointId mEndpointId = 0;
 };

 class Instance : public AttributeAccessInterface, public CommandHandlerInterface
 {
 public:
     Instance(EndpointId aEndpointId, Delegate & aDelegate, Feature aFeature) :
         AttributeAccessInterface(MakeOptional(aEndpointId), Id), CommandHandlerInterface(MakeOptional(aEndpointId), Id),
         mDelegate(aDelegate), mFeature(aFeature)
     {
         /* set the base class delegates endpointId */
         mDelegate.SetEndpointId(aEndpointId);
     }

     ~Instance() { Shutdown(); }

     CHIP_ERROR Init();
     void Shutdown();

     bool HasFeature(Feature aFeature) const;

 private:
     Delegate & mDelegate;
     BitMask<Feature> mFeature;

     // AttributeAccessInterface
     CHIP_ERROR Read(const ConcreteReadAttributePath & aPath, AttributeValueEncoder & aEncoder) override;
     // NOTE there are no writable attributes

     // CommandHandlerInterface
     void InvokeCommand(HandlerContext & handlerContext) override;
     CHIP_ERROR EnumerateAcceptedCommands(const ConcreteClusterPath & cluster, CommandIdCallback callback, void * context) override;

     Protocols::InteractionModel::Status CheckOptOutAllowsRequest(AdjustmentCauseEnum adjustmentCause);
     void HandlePowerAdjustRequest(HandlerContext & ctx, const Commands::PowerAdjustRequest::DecodableType & commandData);
     void HandleCancelPowerAdjustRequest(HandlerContext & ctx,
                                         const Commands::CancelPowerAdjustRequest::DecodableType & commandData);
     void HandleStartTimeAdjustRequest(HandlerContext & ctx, const Commands::StartTimeAdjustRequest::DecodableType & commandData);
     void HandlePauseRequest(HandlerContext & ctx, const Commands::PauseRequest::DecodableType & commandData);
     void HandleResumeRequest(HandlerContext & ctx, const Commands::ResumeRequest::DecodableType & commandData);
     void HandleModifyForecastRequest(HandlerContext & ctx, const Commands::ModifyForecastRequest::DecodableType & commandData);
     void HandleRequestConstraintBasedForecast(HandlerContext & ctx,
                                               const Commands::RequestConstraintBasedForecast::DecodableType & commandData);
     void HandleCancelRequest(HandlerContext & ctx, const Commands::CancelRequest::DecodableType & commandData);
 };

 } // namespace DeviceEnergyManagement
 } // namespace Clusters
 } // namespace app
 } // namespace chip
	/*
	*
	* Copyright (c) 2023 Project CHIP Authors
	* All rights reserved.
	*
	* 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.
	*/

	#pragma once

	#include <app-common/zap-generated/cluster-objects.h>
	#include <app/AttributeAccessInterface.h>
	#include <app/CommandHandlerInterface.h>
	#include <app/ConcreteAttributePath.h>
	#include <app/InteractionModelEngine.h>
	#include <app/MessageDef/StatusIB.h>
	#include <app/reporting/reporting.h>
	#include <app/util/attribute-storage.h>
	#include <lib/core/CHIPError.h>
	#include <protocols/interaction_model/StatusCode.h>

	namespace chip {
	namespace app {
	namespace Clusters {
	namespace DeviceEnergyManagement {

	class Delegate
	{
	public:
	virtual ~Delegate() = default;

	void SetEndpointId(EndpointId aEndpoint) { mEndpointId = aEndpoint; }

	/**
	* @brief Delegate should implement a handler to begin to adjust client power
	* consumption/generation to the level requested.
	*
	* @param power Milli-Watts the ESA SHALL use during the adjustment period.
	* @param duration The duration that the ESA SHALL maintain the requested power for.
	* @return Success if the adjustment is accepted; otherwise the command SHALL be rejected with appropriate error.
	*/
	virtual Protocols::InteractionModel::Status PowerAdjustRequest(const int64_t power, const uint32_t duration,
	AdjustmentCauseEnum cause) = 0;

	/**
	* @brief Delegate SHALL make the ESA end the active power adjustment session & return to normal (or idle) power levels.
	* The ESA SHALL also generate an PowerAdjustEnd Event and the ESAState SHALL be restored to Online.
	*
	* @return It should report SUCCESS if successful and FAILURE otherwise.
	*/
	virtual Protocols::InteractionModel::Status CancelPowerAdjustRequest() = 0;

	/**
	* @brief Delegate for the ESA SHALL update its Forecast attribute with the RequestedStartTime including a new ForecastId.
	*
	* If the ESA supports ForecastAdjustment, and the ESAState is not UserOptOut and the RequestedStartTime is after
	* the EarliestStartTime and the resulting EndTime is before the LatestEndTime, then ESA SHALL accept the request
	* to modify the Start Time.
	* A client can estimate the entire Forecast sequence duration by computing the EndTime - StartTime fields from the
	* Forecast attribute, and therefore avoid scheduling the start time too late.
	*
	* @param requestedStartTime The requested start time in UTC that the client would like the appliance to shift its power
	* forecast to.
	* @return Success if the StartTime in the Forecast is updated, otherwise the command SHALL be rejected with appropriate
	* IM_Status.
	*/
	virtual Protocols::InteractionModel::Status StartTimeAdjustRequest(const uint32_t requestedStartTime,
	AdjustmentCauseEnum cause) = 0;

	/**
	* @brief Delegate handler for PauseRequest command
	*
	* If the ESA supports FA and the SlotIsPauseable field is true in the ActiveSlotNumber
	* index in the Slots list, and the ESAState is not UserOptOut then the ESA SHALL allow its current
	* operation to be Paused.
	*
	* During this state the ESA SHALL not consume or produce significant power (other than required to keep its
	* basic control system operational).
	*
	* @param duration Duration that the ESA SHALL be paused for.
	* @return Success if the ESA is paused, otherwise returns other IM_Status.
	*/
	virtual Protocols::InteractionModel::Status PauseRequest(const uint32_t duration, AdjustmentCauseEnum cause) = 0;

	/**
	* @brief Delegate handler for ResumeRequest command
	*
	* If the ESA supports FA and it is currently Paused then the ESA SHALL resume its operation.
	* The ESA SHALL also generate a Resumed Event and the ESAState SHALL be updated accordingly to
	* reflect its current state.
	*
	* @return Success if the ESA is resumed, otherwise returns other IM_Status.
	*/
	virtual Protocols::InteractionModel::Status ResumeRequest() = 0;

	/**
	* @brief Delegate handler for ModifyForecastRequest
	*
	* If the ESA supports FA, and the ESAState is not UserOptOut it SHALL attempt to adjust its power forecast.
	* This allows a one or more modifications in a single command by sending a list of modifications (one for each 'slot').
	* Attempts to modify slots which have already past, SHALL result in the entire command being rejected.
	* If the ESA accepts the requested Forecast then it SHALL update its Forecast attribute (incrementing its ForecastId)
	* and run the revised Forecast as its new intended operation.
	*
	* @param forecastId Indicates the ESA ForecastId that is to be modified.
	* @param slotAdjustments List of adjustments to be applied to the ESA, corresponding to the expected ESA forecastId.
	* @return Success if the entire list of SlotAdjustmentStruct are accepted, otherwise the command
	* SHALL be rejected returning other IM_Status.
	*/
	virtual Protocols::InteractionModel::Status
	ModifyForecastRequest(const uint32_t forecastId,
	const DataModel::DecodableList<Structs::SlotAdjustmentStruct::Type> & slotAdjustments,
	AdjustmentCauseEnum cause) = 0;

	/**
	* @brief Delegate handler for RequestConstraintBasedForecast
	*
	* The ESA SHALL inspect the requested power limits to ensure that there are no overlapping elements. The ESA
	* manufacturer may also reject the request if it could cause the user’s preferences to be breached (e.g. may
	* cause the home to be too hot or too cold, or a battery to be insufficiently charged).
	* If the ESA can meet the requested power limits, it SHALL regenerate a new Power Forecast with a new ForecastId.
	*
	* @param constraints Sequence of turn up/down power requests that the ESA is being asked to constrain its operation within.
	* @return Success if successful, otherwise the command SHALL be rejected returning other IM_Status.
	*/
	virtual Protocols::InteractionModel::Status
	RequestConstraintBasedForecast(const DataModel::DecodableList<Structs::ConstraintsStruct::Type> & constraints,
	AdjustmentCauseEnum cause) = 0;

	/**
	* @brief Delegate handler for CancelRequest
	*
	* The ESA SHALL attempt to cancel the effects of any previous adjustment request commands, and re-evaluate its
	* forecast for intended operation ignoring those previous requests.
	*
	* If the ESA ForecastStruct ForecastUpdateReason was already `Internal Optimization`, then the command SHALL
	* be rejected with FAILURE.
	*
	* If the command is accepted, the ESA SHALL update its ESAState if required, and the command status returned
	* SHALL be SUCCESS.
	*
	* The ESA SHALL update its Forecast attribute to match its new intended operation, and update the
	* ForecastStruct.ForecastUpdateReason to `Internal Optimization`
	*
	* @return Success if successful, otherwise the command SHALL be rejected returning other IM_Status.
	*/
	virtual Protocols::InteractionModel::Status CancelRequest() = 0;

	// ------------------------------------------------------------------
	// Get attribute methods
	virtual ESATypeEnum GetESAType() = 0;
	virtual bool GetESACanGenerate() = 0;
	virtual ESAStateEnum GetESAState() = 0;
	virtual int64_t GetAbsMinPower() = 0;
	virtual int64_t GetAbsMaxPower() = 0;
	virtual Attributes::PowerAdjustmentCapability::TypeInfo::Type GetPowerAdjustmentCapability() = 0;
	virtual DataModel::Nullable<Structs::ForecastStruct::Type> GetForecast() = 0;
	virtual OptOutStateEnum GetOptOutState() = 0;

	// ------------------------------------------------------------------
	// Set attribute methods
	virtual CHIP_ERROR SetESAType(ESATypeEnum) = 0;
	virtual CHIP_ERROR SetESACanGenerate(bool) = 0;
	virtual CHIP_ERROR SetESAState(ESAStateEnum) = 0;
	virtual CHIP_ERROR SetAbsMinPower(int64_t) = 0;
	virtual CHIP_ERROR SetAbsMaxPower(int64_t) = 0;
	virtual CHIP_ERROR SetPowerAdjustmentCapability(Attributes::PowerAdjustmentCapability::TypeInfo::Type) = 0;
	virtual CHIP_ERROR SetForecast(DataModel::Nullable<Structs::ForecastStruct::Type>) = 0;

	protected:
	EndpointId mEndpointId = 0;
	};

	class Instance : public AttributeAccessInterface, public CommandHandlerInterface
	{
	public:
	Instance(EndpointId aEndpointId, Delegate & aDelegate, Feature aFeature) :
	AttributeAccessInterface(MakeOptional(aEndpointId), Id), CommandHandlerInterface(MakeOptional(aEndpointId), Id),
	mDelegate(aDelegate), mFeature(aFeature)
	{
	/* set the base class delegates endpointId */
	mDelegate.SetEndpointId(aEndpointId);
	}

	~Instance() { Shutdown(); }

	CHIP_ERROR Init();
	void Shutdown();

	bool HasFeature(Feature aFeature) const;

	private:
	Delegate & mDelegate;
	BitMask<Feature> mFeature;

	// AttributeAccessInterface
	CHIP_ERROR Read(const ConcreteReadAttributePath & aPath, AttributeValueEncoder & aEncoder) override;
	// NOTE there are no writable attributes

	// CommandHandlerInterface
	void InvokeCommand(HandlerContext & handlerContext) override;
	CHIP_ERROR EnumerateAcceptedCommands(const ConcreteClusterPath & cluster, CommandIdCallback callback, void * context) override;

	Protocols::InteractionModel::Status CheckOptOutAllowsRequest(AdjustmentCauseEnum adjustmentCause);
	void HandlePowerAdjustRequest(HandlerContext & ctx, const Commands::PowerAdjustRequest::DecodableType & commandData);
	void HandleCancelPowerAdjustRequest(HandlerContext & ctx,
	const Commands::CancelPowerAdjustRequest::DecodableType & commandData);
	void HandleStartTimeAdjustRequest(HandlerContext & ctx, const Commands::StartTimeAdjustRequest::DecodableType & commandData);
	void HandlePauseRequest(HandlerContext & ctx, const Commands::PauseRequest::DecodableType & commandData);
	void HandleResumeRequest(HandlerContext & ctx, const Commands::ResumeRequest::DecodableType & commandData);
	void HandleModifyForecastRequest(HandlerContext & ctx, const Commands::ModifyForecastRequest::DecodableType & commandData);
	void HandleRequestConstraintBasedForecast(HandlerContext & ctx,
	const Commands::RequestConstraintBasedForecast::DecodableType & commandData);
	void HandleCancelRequest(HandlerContext & ctx, const Commands::CancelRequest::DecodableType & commandData);
	};

	} // namespace DeviceEnergyManagement
	} // namespace Clusters
	} // namespace app
	} // namespace chip