examples/energy-management-app/energy-management-common/include/EVSEManufacturerImpl.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 <DeviceEnergyManagementManager.h>
 #include <ElectricalPowerMeasurementDelegate.h>
 #include <EnergyEvseManager.h>
 #include <PowerTopologyDelegate.h>

 using chip::Protocols::InteractionModel::Status;
 namespace chip {
 namespace app {
 namespace Clusters {
 namespace EnergyEvse {

 /**
  * The EVSEManufacturer example class
  */

 class EVSEManufacturer
 {
 public:
     EVSEManufacturer(EnergyEvseManager * aEvseInstance,
                      ElectricalPowerMeasurement::ElectricalPowerMeasurementInstance * aEPMInstance,
                      PowerTopology::PowerTopologyInstance * aPTInstance)
     {
         mEvseInstance = aEvseInstance;
         mEPMInstance  = aEPMInstance;
         mPTInstance   = aPTInstance;
     }
     EnergyEvseManager * GetEvseInstance() { return mEvseInstance; }
     ElectricalPowerMeasurement::ElectricalPowerMeasurementInstance * GetEPMInstance() { return mEPMInstance; }
     PowerTopology::PowerTopologyInstance * GetPTInstance() { return mPTInstance; }

     EnergyEvseDelegate * GetEvseDelegate()
     {
         if (mEvseInstance)
         {
             return mEvseInstance->GetDelegate();
         }
         return nullptr;
     }

     ElectricalPowerMeasurement::ElectricalPowerMeasurementDelegate * GetEPMDelegate()
     {
         if (mEPMInstance)
         {
             return mEPMInstance->GetDelegate();
         }
         return nullptr;
     }

     PowerTopology::PowerTopologyDelegate * GetPTDelegate()
     {
         if (mPTInstance)
         {
             return mPTInstance->GetDelegate();
         }
         return nullptr;
     }

     /**
      * @brief   Called at start up to apply hardware settings
      */
     CHIP_ERROR Init();

     /**
      * @brief   Called at shutdown
      */
     CHIP_ERROR Shutdown();

     /**
      * @brief   Main Callback handler from delegate to user code
      */
     static void ApplicationCallbackHandler(const EVSECbInfo * cb, intptr_t arg);

     /**
      * @brief   Allows a client application to initialise the Accuracy, Measurement types etc
      */
     CHIP_ERROR InitializePowerMeasurementCluster();

     /**
      * @brief   Allows a client application to initialise the PowerSource cluster
      */
     CHIP_ERROR InitializePowerSourceCluster();

     /**
      * @brief   Allows a client application to send in power readings into the system
      *
      * @param[in]  aEndpointId       - Endpoint to send to EPM Cluster
      * @param[in]  aActivePower_mW   - ActivePower measured in milli-watts
      * @param[in]  aVoltage_mV       - Voltage measured in milli-volts
      * @param[in]  aActiveCurrent_mA - ActiveCurrent measured in milli-amps
      */
     CHIP_ERROR SendPowerReading(EndpointId aEndpointId, int64_t aActivePower_mW, int64_t aVoltage_mV, int64_t aCurrent_mA);

     /**
      * @brief   Allows a client application to send cumulative energy readings into the system
      *
      *          This is a helper function to add timestamps to the readings
      *
      * @param[in]  aCumulativeEnergyImported -total energy imported in milli-watthours
      * @param[in]  aCumulativeEnergyExported -total energy exported in milli-watthours
      */
     CHIP_ERROR SendCumulativeEnergyReading(EndpointId aEndpointId, int64_t aCumulativeEnergyImported,
                                            int64_t aCumulativeEnergyExported);

     /**
      * @brief   Allows a client application to send periodic energy readings into the system
      *
      *          This is a helper function to add timestamps to the readings
      *
      * @param[in]  aPeriodicEnergyImported - energy imported in milli-watthours in last period
      * @param[in]  aPeriodicEnergyExported - energy exported in milli-watthours in last period
      */
     CHIP_ERROR SendPeriodicEnergyReading(EndpointId aEndpointId, int64_t aCumulativeEnergyImported,
                                          int64_t aCumulativeEnergyExported);

     /**  Fake Meter data generation - used for testing EPM/EEM clusters */
     /**
      * @brief   Starts a fake load/generator to periodically callback the power and energy
      *          clusters.
      * @param[in]   aEndpointId  - which endpoint is the meter to be updated on
      * @param[in]   aPower_mW    - the mean power of the load
      *                             Positive power indicates Imported energy (e.g. a load)
      *                             Negative power indicated Exported energy (e.g. a generator)
      * @param[in]   aPowerRandomness_mW  This is used to define the max randomness of the
      *                             random power values around the mean power of the load
      * @param[in]   aVoltage_mV  - the nominal voltage measurement
      * @param[in]   aVoltageRandomness_mV  This is used to define the max randomness of the
      *                             random voltage values
      * @param[in]   aCurrent_mA  - the nominal current measurement
      * @param[in]   aCurrentRandomness_mA  This is used to define the max randomness of the
      *                             random current values
      * @param[in]   aInterval_s  - the callback interval in seconds
      * @param[in]   bReset       - boolean: true will reset the energy values to 0
      */
     void StartFakeReadings(EndpointId aEndpointId, int64_t aPower_mW, uint32_t aPowerRandomness_mW, int64_t aVoltage_mV,
                            uint32_t aVoltageRandomness_mV, int64_t aCurrent_mA, uint32_t aCurrentRandomness_mA, uint8_t aInterval_s,
                            bool bReset);
     /**
      * @brief   Stops any active updates to the fake load data callbacks
      */
     void StopFakeReadings();

     /**
      * @brief   Sends fake meter data into the cluster and restarts the timer
      */
     void FakeReadingsUpdate();
     /**
      * @brief   Timer expiry callback to handle fake load
      */
     static void FakeReadingsTimerExpiry(System::Layer * systemLayer, void * manufacturer);

 private:
     EnergyEvseManager * mEvseInstance;
     ElectricalPowerMeasurement::ElectricalPowerMeasurementInstance * mEPMInstance;
     PowerTopology::PowerTopologyInstance * mPTInstance;

     int64_t mLastChargingEnergyMeter    = 0;
     int64_t mLastDischargingEnergyMeter = 0;
 };

 /** @brief Helper function to return the singleton EVSEManufacturer instance
  *
  * This is needed by the EVSEManufacturer class to support TestEventTriggers
  * which are called outside of any class context. This allows the EVSEManufacturer
  * class to return the relevant Delegate instance in which to invoke the test
  * events on.
  *
  * This function is typically found in main.cpp or wherever the singleton is created.
  */
 EVSEManufacturer * GetEvseManufacturer();

 } // namespace EnergyEvse
 } // 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 <DeviceEnergyManagementManager.h>
	#include <ElectricalPowerMeasurementDelegate.h>
	#include <EnergyEvseManager.h>
	#include <PowerTopologyDelegate.h>

	using chip::Protocols::InteractionModel::Status;
	namespace chip {
	namespace app {
	namespace Clusters {
	namespace EnergyEvse {

	/**
	* The EVSEManufacturer example class
	*/

	class EVSEManufacturer
	{
	public:
	EVSEManufacturer(EnergyEvseManager * aEvseInstance,
	ElectricalPowerMeasurement::ElectricalPowerMeasurementInstance * aEPMInstance,
	PowerTopology::PowerTopologyInstance * aPTInstance)
	{
	mEvseInstance = aEvseInstance;
	mEPMInstance = aEPMInstance;
	mPTInstance = aPTInstance;
	}
	EnergyEvseManager * GetEvseInstance() { return mEvseInstance; }
	ElectricalPowerMeasurement::ElectricalPowerMeasurementInstance * GetEPMInstance() { return mEPMInstance; }
	PowerTopology::PowerTopologyInstance * GetPTInstance() { return mPTInstance; }

	EnergyEvseDelegate * GetEvseDelegate()
	{
	if (mEvseInstance)
	{
	return mEvseInstance->GetDelegate();
	}
	return nullptr;
	}

	ElectricalPowerMeasurement::ElectricalPowerMeasurementDelegate * GetEPMDelegate()
	{
	if (mEPMInstance)
	{
	return mEPMInstance->GetDelegate();
	}
	return nullptr;
	}

	PowerTopology::PowerTopologyDelegate * GetPTDelegate()
	{
	if (mPTInstance)
	{
	return mPTInstance->GetDelegate();
	}
	return nullptr;
	}

	/**
	* @brief Called at start up to apply hardware settings
	*/
	CHIP_ERROR Init();

	/**
	* @brief Called at shutdown
	*/
	CHIP_ERROR Shutdown();

	/**
	* @brief Main Callback handler from delegate to user code
	*/
	static void ApplicationCallbackHandler(const EVSECbInfo * cb, intptr_t arg);

	/**
	* @brief Allows a client application to initialise the Accuracy, Measurement types etc
	*/
	CHIP_ERROR InitializePowerMeasurementCluster();

	/**
	* @brief Allows a client application to initialise the PowerSource cluster
	*/
	CHIP_ERROR InitializePowerSourceCluster();

	/**
	* @brief Allows a client application to send in power readings into the system
	*
	* @param[in] aEndpointId - Endpoint to send to EPM Cluster
	* @param[in] aActivePower_mW - ActivePower measured in milli-watts
	* @param[in] aVoltage_mV - Voltage measured in milli-volts
	* @param[in] aActiveCurrent_mA - ActiveCurrent measured in milli-amps
	*/
	CHIP_ERROR SendPowerReading(EndpointId aEndpointId, int64_t aActivePower_mW, int64_t aVoltage_mV, int64_t aCurrent_mA);

	/**
	* @brief Allows a client application to send cumulative energy readings into the system
	*
	* This is a helper function to add timestamps to the readings
	*
	* @param[in] aCumulativeEnergyImported -total energy imported in milli-watthours
	* @param[in] aCumulativeEnergyExported -total energy exported in milli-watthours
	*/
	CHIP_ERROR SendCumulativeEnergyReading(EndpointId aEndpointId, int64_t aCumulativeEnergyImported,
	int64_t aCumulativeEnergyExported);

	/**
	* @brief Allows a client application to send periodic energy readings into the system
	*
	* This is a helper function to add timestamps to the readings
	*
	* @param[in] aPeriodicEnergyImported - energy imported in milli-watthours in last period
	* @param[in] aPeriodicEnergyExported - energy exported in milli-watthours in last period
	*/
	CHIP_ERROR SendPeriodicEnergyReading(EndpointId aEndpointId, int64_t aCumulativeEnergyImported,
	int64_t aCumulativeEnergyExported);

	/** Fake Meter data generation - used for testing EPM/EEM clusters */
	/**
	* @brief Starts a fake load/generator to periodically callback the power and energy
	* clusters.
	* @param[in] aEndpointId - which endpoint is the meter to be updated on
	* @param[in] aPower_mW - the mean power of the load
	* Positive power indicates Imported energy (e.g. a load)
	* Negative power indicated Exported energy (e.g. a generator)
	* @param[in] aPowerRandomness_mW This is used to define the max randomness of the
	* random power values around the mean power of the load
	* @param[in] aVoltage_mV - the nominal voltage measurement
	* @param[in] aVoltageRandomness_mV This is used to define the max randomness of the
	* random voltage values
	* @param[in] aCurrent_mA - the nominal current measurement
	* @param[in] aCurrentRandomness_mA This is used to define the max randomness of the
	* random current values
	* @param[in] aInterval_s - the callback interval in seconds
	* @param[in] bReset - boolean: true will reset the energy values to 0
	*/
	void StartFakeReadings(EndpointId aEndpointId, int64_t aPower_mW, uint32_t aPowerRandomness_mW, int64_t aVoltage_mV,
	uint32_t aVoltageRandomness_mV, int64_t aCurrent_mA, uint32_t aCurrentRandomness_mA, uint8_t aInterval_s,
	bool bReset);
	/**
	* @brief Stops any active updates to the fake load data callbacks
	*/
	void StopFakeReadings();

	/**
	* @brief Sends fake meter data into the cluster and restarts the timer
	*/
	void FakeReadingsUpdate();
	/**
	* @brief Timer expiry callback to handle fake load
	*/
	static void FakeReadingsTimerExpiry(System::Layer * systemLayer, void * manufacturer);

	private:
	EnergyEvseManager * mEvseInstance;
	ElectricalPowerMeasurement::ElectricalPowerMeasurementInstance * mEPMInstance;
	PowerTopology::PowerTopologyInstance * mPTInstance;

	int64_t mLastChargingEnergyMeter = 0;
	int64_t mLastDischargingEnergyMeter = 0;
	};

	/** @brief Helper function to return the singleton EVSEManufacturer instance
	*
	* This is needed by the EVSEManufacturer class to support TestEventTriggers
	* which are called outside of any class context. This allows the EVSEManufacturer
	* class to return the relevant Delegate instance in which to invoke the test
	* events on.
	*
	* This function is typically found in main.cpp or wherever the singleton is created.
	*/
	EVSEManufacturer * GetEvseManufacturer();

	} // namespace EnergyEvse
	} // namespace Clusters
	} // namespace app
	} // namespace chip