src/controller/CHIPCluster.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2020 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.
  */

 /**
  *  @file
  *    This file contains definitions for a base Cluster class. This class will
  *    be derived by various ZCL clusters supported by CHIP. The objects of the
  *    ZCL cluster class will be used by Controller applications to interact with
  *    the CHIP device.
  */

 #pragma once

 #include "app/ConcreteCommandPath.h"
 #include <app/DeviceProxy.h>
 #include <app/util/error-mapping.h>
 #include <controller/InvokeInteraction.h>
 #include <controller/ReadInteraction.h>
 #include <controller/WriteInteraction.h>
 #include <lib/core/Optional.h>
 #include <messaging/ExchangeMgr.h>
 #include <system/SystemClock.h>

 namespace chip {
 namespace Controller {

 template <typename T>
 using CommandResponseSuccessCallback = void(void * context, const T & responseObject);
 using CommandResponseFailureCallback = void(void * context, CHIP_ERROR err);
 using CommandResponseDoneCallback    = void();
 using WriteResponseSuccessCallback   = void (*)(void * context);
 using WriteResponseFailureCallback   = void (*)(void * context, CHIP_ERROR err);
 using WriteResponseDoneCallback      = void (*)(void * context);
 template <typename T>
 using ReadResponseSuccessCallback     = void (*)(void * context, T responseData);
 using ReadResponseFailureCallback     = void (*)(void * context, CHIP_ERROR err);
 using ReadDoneCallback                = void (*)(void * context);
 using SubscriptionEstablishedCallback = void (*)(void * context);
 using ResubscriptionAttemptCallback   = void (*)(void * context, CHIP_ERROR aError, uint32_t aNextResubscribeIntervalMsec);
 using SubscriptionOnDoneCallback      = std::function<void(void)>;

 class DLL_EXPORT ClusterBase
 {
 public:
     ClusterBase(Messaging::ExchangeManager & exchangeManager, const SessionHandle & session, EndpointId endpoint) :
         mExchangeManager(exchangeManager), mSession(session), mEndpoint(endpoint)
     {}

     virtual ~ClusterBase() {}

     // Temporary function to set command timeout before we move over to InvokeCommand
     // TODO: remove when we start using InvokeCommand everywhere
     void SetCommandTimeout(Optional<System::Clock::Timeout> timeout) { mTimeout = timeout; }

     /**
      * Returns the current command timeout set via SetCommandTimeout, or an
      * empty optional if no timeout has been set.
      */
     Optional<System::Clock::Timeout> GetCommandTimeout() { return mTimeout; }

     /*
      * This function permits sending an invoke request using cluster objects that represent the request and response data payloads.
      *
      * Success and Failure callbacks must be passed in through which the decoded response is provided as well as notification of any
      * failure.
      */
     template <typename RequestDataT>
     CHIP_ERROR InvokeCommand(const RequestDataT & requestData, void * context,
                              CommandResponseSuccessCallback<typename RequestDataT::ResponseType> successCb,
                              CommandResponseFailureCallback failureCb, const Optional<uint16_t> & timedInvokeTimeoutMs)
     {
         auto onSuccessCb = [context, successCb](const app::ConcreteCommandPath & aPath, const app::StatusIB & aStatus,
                                                 const typename RequestDataT::ResponseType & responseData) {
             successCb(context, responseData);
         };

         auto onFailureCb = [context, failureCb](CHIP_ERROR aError) { failureCb(context, aError); };

         return InvokeCommandRequest(&mExchangeManager, mSession.Get().Value(), mEndpoint, requestData, onSuccessCb, onFailureCb,
                                     timedInvokeTimeoutMs, mTimeout);
     }

     template <typename RequestDataT>
     CHIP_ERROR InvokeCommand(const RequestDataT & requestData, void * context,
                              CommandResponseSuccessCallback<typename RequestDataT::ResponseType> successCb,
                              CommandResponseFailureCallback failureCb, uint16_t timedInvokeTimeoutMs)
     {
         return InvokeCommand(requestData, context, successCb, failureCb, MakeOptional(timedInvokeTimeoutMs));
     }

     template <typename RequestDataT, typename std::enable_if_t<!RequestDataT::MustUseTimedInvoke(), int> = 0>
     CHIP_ERROR InvokeCommand(const RequestDataT & requestData, void * context,
                              CommandResponseSuccessCallback<typename RequestDataT::ResponseType> successCb,
                              CommandResponseFailureCallback failureCb)
     {
         return InvokeCommand(requestData, context, successCb, failureCb, NullOptional);
     }

     /**
      * Functions for writing attributes.  We have lots of different
      * AttributeInfo but a fairly small set of types that get written.  So we
      * want to keep the template on AttributeInfo very small, and put all the
      * work in the template with a small number of instantiations (one per
      * type).
      */
     template <typename AttrType>
     CHIP_ERROR WriteAttribute(const AttrType & requestData, void * context, ClusterId clusterId, AttributeId attributeId,
                               WriteResponseSuccessCallback successCb, WriteResponseFailureCallback failureCb,
                               const Optional<uint16_t> & aTimedWriteTimeoutMs, WriteResponseDoneCallback doneCb = nullptr,
                               const Optional<DataVersion> & aDataVersion = NullOptional)
     {
         auto onSuccessCb = [context, successCb](const app::ConcreteAttributePath & aPath) {
             if (successCb != nullptr)
             {
                 successCb(context);
             }
         };

         auto onFailureCb = [context, failureCb](const app::ConcreteAttributePath * aPath, CHIP_ERROR aError) {
             if (failureCb != nullptr)
             {
                 failureCb(context, aError);
             }
         };

         auto onDoneCb = [context, doneCb](app::WriteClient * pWriteClient) {
             if (doneCb != nullptr)
             {
                 doneCb(context);
             }
         };

         return chip::Controller::WriteAttribute<AttrType>(mSession.Get().Value(), mEndpoint, clusterId, attributeId, requestData,
                                                           onSuccessCb, onFailureCb, aTimedWriteTimeoutMs, onDoneCb, aDataVersion);
     }

     template <typename AttrType>
     CHIP_ERROR WriteAttribute(GroupId groupId, FabricIndex fabricIndex, const AttrType & requestData, void * context,
                               ClusterId clusterId, AttributeId attributeId, WriteResponseSuccessCallback successCb,
                               WriteResponseFailureCallback failureCb, const Optional<uint16_t> & aTimedWriteTimeoutMs,
                               WriteResponseDoneCallback doneCb = nullptr, const Optional<DataVersion> & aDataVersion = NullOptional)
     {

         auto onSuccessCb = [context, successCb](const app::ConcreteAttributePath & aPath) {
             if (successCb != nullptr)
             {
                 successCb(context);
             }
         };

         auto onFailureCb = [context, failureCb](const app::ConcreteAttributePath * aPath, CHIP_ERROR aError) {
             if (failureCb != nullptr)
             {
                 failureCb(context, aError);
             }
         };

         auto onDoneCb = [context, doneCb](app::WriteClient * pWriteClient) {
             if (doneCb != nullptr)
             {
                 doneCb(context);
             }
         };

         Transport::OutgoingGroupSession groupSession(groupId, fabricIndex);
         return chip::Controller::WriteAttribute<AttrType>(SessionHandle(groupSession), 0 /*Unused for Group*/, clusterId,
                                                           attributeId, requestData, onSuccessCb, onFailureCb, aTimedWriteTimeoutMs,
                                                           onDoneCb, aDataVersion);
     }

     template <typename AttributeInfo>
     CHIP_ERROR WriteAttribute(GroupId groupId, FabricIndex fabricIndex, const typename AttributeInfo::Type & requestData,
                               void * context, WriteResponseSuccessCallback successCb, WriteResponseFailureCallback failureCb,
                               WriteResponseDoneCallback doneCb = nullptr, const Optional<DataVersion> & aDataVersion = NullOptional,
                               const Optional<uint16_t> & aTimedWriteTimeoutMs = NullOptional)
     {
         return WriteAttribute(groupId, fabricIndex, requestData, context, AttributeInfo::GetClusterId(),
                               AttributeInfo::GetAttributeId(), successCb, failureCb, aTimedWriteTimeoutMs, doneCb, aDataVersion);
     }

     template <typename AttributeInfo>
     CHIP_ERROR WriteAttribute(const typename AttributeInfo::Type & requestData, void * context,
                               WriteResponseSuccessCallback successCb, WriteResponseFailureCallback failureCb,
                               const Optional<uint16_t> & aTimedWriteTimeoutMs, WriteResponseDoneCallback doneCb = nullptr,
                               const Optional<DataVersion> & aDataVersion = NullOptional)
     {
         return WriteAttribute(requestData, context, AttributeInfo::GetClusterId(), AttributeInfo::GetAttributeId(), successCb,
                               failureCb, aTimedWriteTimeoutMs, doneCb, aDataVersion);
     }

     template <typename AttributeInfo>
     CHIP_ERROR WriteAttribute(const typename AttributeInfo::Type & requestData, void * context,
                               WriteResponseSuccessCallback successCb, WriteResponseFailureCallback failureCb,
                               uint16_t aTimedWriteTimeoutMs, WriteResponseDoneCallback doneCb = nullptr,
                               const Optional<DataVersion> & aDataVersion = NullOptional)
     {
         return WriteAttribute<AttributeInfo>(requestData, context, successCb, failureCb, MakeOptional(aTimedWriteTimeoutMs), doneCb,
                                              aDataVersion);
     }

     template <typename AttributeInfo, typename std::enable_if_t<!AttributeInfo::MustUseTimedWrite(), int> = 0>
     CHIP_ERROR WriteAttribute(const typename AttributeInfo::Type & requestData, void * context,
                               WriteResponseSuccessCallback successCb, WriteResponseFailureCallback failureCb,
                               WriteResponseDoneCallback doneCb = nullptr, const Optional<DataVersion> & aDataVersion = NullOptional)
     {
         return WriteAttribute<AttributeInfo>(requestData, context, successCb, failureCb, NullOptional, doneCb, aDataVersion);
     }

     /**
      * Read an attribute and get a type-safe callback with the attribute value.
      */
     template <typename AttributeInfo>
     CHIP_ERROR ReadAttribute(void * context, ReadResponseSuccessCallback<typename AttributeInfo::DecodableArgType> successCb,
                              ReadResponseFailureCallback failureCb, bool aIsFabricFiltered = true)
     {
         return ReadAttribute<typename AttributeInfo::DecodableType, typename AttributeInfo::DecodableArgType>(
             context, AttributeInfo::GetClusterId(), AttributeInfo::GetAttributeId(), successCb, failureCb, aIsFabricFiltered);
     }

     template <typename DecodableType, typename DecodableArgType>
     CHIP_ERROR ReadAttribute(void * context, ClusterId clusterId, AttributeId attributeId,
                              ReadResponseSuccessCallback<DecodableArgType> successCb, ReadResponseFailureCallback failureCb,
                              bool aIsFabricFiltered = true)
     {
         auto onSuccessCb = [context, successCb](const app::ConcreteAttributePath & aPath, const DecodableType & aData) {
             if (successCb != nullptr)
             {
                 successCb(context, aData);
             }
         };

         auto onFailureCb = [context, failureCb](const app::ConcreteAttributePath * aPath, CHIP_ERROR aError) {
             if (failureCb != nullptr)
             {
                 failureCb(context, aError);
             }
         };

         return Controller::ReadAttribute<DecodableType>(&mExchangeManager, mSession.Get().Value(), mEndpoint, clusterId,
                                                         attributeId, onSuccessCb, onFailureCb, aIsFabricFiltered);
     }

     /**
      * Subscribe to attribute and get a type-safe callback with the attribute
      * value when it changes.
      */
     template <typename AttributeInfo>
     CHIP_ERROR
     SubscribeAttribute(void * context, ReadResponseSuccessCallback<typename AttributeInfo::DecodableArgType> reportCb,
                        ReadResponseFailureCallback failureCb, uint16_t minIntervalFloorSeconds, uint16_t maxIntervalCeilingSeconds,
                        SubscriptionEstablishedCallback subscriptionEstablishedCb = nullptr,
                        ResubscriptionAttemptCallback resubscriptionAttemptCb = nullptr, bool aIsFabricFiltered = true,
                        bool aKeepPreviousSubscriptions = false, const Optional<DataVersion> & aDataVersion = NullOptional,
                        SubscriptionOnDoneCallback subscriptionDoneCb = nullptr)
     {
         return SubscribeAttribute<typename AttributeInfo::DecodableType, typename AttributeInfo::DecodableArgType>(
             context, AttributeInfo::GetClusterId(), AttributeInfo::GetAttributeId(), reportCb, failureCb, minIntervalFloorSeconds,
             maxIntervalCeilingSeconds, subscriptionEstablishedCb, resubscriptionAttemptCb, aIsFabricFiltered,
             aKeepPreviousSubscriptions, aDataVersion, subscriptionDoneCb);
     }

     template <typename DecodableType, typename DecodableArgType>
     CHIP_ERROR SubscribeAttribute(void * context, ClusterId clusterId, AttributeId attributeId,
                                   ReadResponseSuccessCallback<DecodableArgType> reportCb, ReadResponseFailureCallback failureCb,
                                   uint16_t minIntervalFloorSeconds, uint16_t maxIntervalCeilingSeconds,
                                   SubscriptionEstablishedCallback subscriptionEstablishedCb = nullptr,
                                   ResubscriptionAttemptCallback resubscriptionAttemptCb = nullptr, bool aIsFabricFiltered = true,
                                   bool aKeepPreviousSubscriptions               = false,
                                   const Optional<DataVersion> & aDataVersion    = NullOptional,
                                   SubscriptionOnDoneCallback subscriptionDoneCb = nullptr)
     {
         auto onReportCb = [context, reportCb](const app::ConcreteAttributePath & aPath, const DecodableType & aData) {
             if (reportCb != nullptr)
             {
                 reportCb(context, aData);
             }
         };

         auto onFailureCb = [context, failureCb](const app::ConcreteAttributePath * aPath, CHIP_ERROR aError) {
             if (failureCb != nullptr)
             {
                 failureCb(context, aError);
             }
         };

         auto onSubscriptionEstablishedCb = [context, subscriptionEstablishedCb](const app::ReadClient & readClient) {
             if (subscriptionEstablishedCb != nullptr)
             {
                 subscriptionEstablishedCb(context);
             }
         };

         auto onResubscriptionAttemptCb = [context, resubscriptionAttemptCb](const app::ReadClient & readClient, CHIP_ERROR aError,
                                                                             uint32_t aNextResubscribeIntervalMsec) {
             if (resubscriptionAttemptCb != nullptr)
             {
                 resubscriptionAttemptCb(context, aError, aNextResubscribeIntervalMsec);
             }
         };

         return Controller::SubscribeAttribute<DecodableType>(
             &mExchangeManager, mSession.Get().Value(), mEndpoint, clusterId, attributeId, onReportCb, onFailureCb,
             minIntervalFloorSeconds, maxIntervalCeilingSeconds, onSubscriptionEstablishedCb, onResubscriptionAttemptCb,
             aIsFabricFiltered, aKeepPreviousSubscriptions, aDataVersion, subscriptionDoneCb);
     }

     /**
      * Read an event and get a type-safe callback with the event data.
      *
      * @param[in] successCb Used to deliver event data received through the Read interactions
      * @param[in] failureCb failureCb will be called when an error occurs *after* a successful call to ReadEvent.
      * @param[in] doneCb    OnDone will be called when ReadClient has finished all work for event retrieval, it is possible that
      * there is no event.
      */
     template <typename DecodableType>
     CHIP_ERROR ReadEvent(void * context, ReadResponseSuccessCallback<DecodableType> successCb,
                          ReadResponseFailureCallback failureCb, ReadDoneCallback doneCb)
     {
         auto onSuccessCb = [context, successCb](const app::EventHeader & aEventHeader, const DecodableType & aData) {
             if (successCb != nullptr)
             {
                 successCb(context, aData);
             }
         };

         auto onFailureCb = [context, failureCb](const app::EventHeader * aEventHeader, CHIP_ERROR aError) {
             if (failureCb != nullptr)
             {
                 failureCb(context, aError);
             }
         };

         auto onDoneCb = [context, doneCb](app::ReadClient * apReadClient) {
             if (doneCb != nullptr)
             {
                 doneCb(context);
             }
         };
         return Controller::ReadEvent<DecodableType>(&mExchangeManager, mSession.Get().Value(), mEndpoint, onSuccessCb, onFailureCb,
                                                     onDoneCb);
     }

     template <typename DecodableType>
     CHIP_ERROR SubscribeEvent(void * context, ReadResponseSuccessCallback<DecodableType> reportCb,
                               ReadResponseFailureCallback failureCb, uint16_t minIntervalFloorSeconds,
                               uint16_t maxIntervalCeilingSeconds,
                               SubscriptionEstablishedCallback subscriptionEstablishedCb = nullptr,
                               ResubscriptionAttemptCallback resubscriptionAttemptCb     = nullptr,
                               bool aKeepPreviousSubscriptions = false, bool aIsUrgentEvent = false)
     {
         auto onReportCb = [context, reportCb](const app::EventHeader & aEventHeader, const DecodableType & aData) {
             if (reportCb != nullptr)
             {
                 reportCb(context, aData);
             }
         };

         auto onFailureCb = [context, failureCb](const app::EventHeader * aEventHeader, CHIP_ERROR aError) {
             if (failureCb != nullptr)
             {
                 failureCb(context, aError);
             }
         };

         auto onSubscriptionEstablishedCb = [context, subscriptionEstablishedCb](const app::ReadClient & readClient) {
             if (subscriptionEstablishedCb != nullptr)
             {
                 subscriptionEstablishedCb(context);
             }
         };

         auto onResubscriptionAttemptCb = [context, resubscriptionAttemptCb](const app::ReadClient & readClient, CHIP_ERROR aError,
                                                                             uint32_t aNextResubscribeIntervalMsec) {
             if (resubscriptionAttemptCb != nullptr)
             {
                 resubscriptionAttemptCb(context, aError, aNextResubscribeIntervalMsec);
             }
         };

         return Controller::SubscribeEvent<DecodableType>(&mExchangeManager, mSession.Get().Value(), mEndpoint, onReportCb,
                                                          onFailureCb, minIntervalFloorSeconds, maxIntervalCeilingSeconds,
                                                          onSubscriptionEstablishedCb, onResubscriptionAttemptCb,
                                                          aKeepPreviousSubscriptions, aIsUrgentEvent);
     }

 protected:
     Messaging::ExchangeManager & mExchangeManager;

     // Since cluster object is ephemeral, the session shall be valid during the entire lifespan, so we do not need to check the
     // session existence when using it. For java and objective-c binding, the cluster object is allocated in the heap, such that we
     // can't use SessionHandle here, in such case, the cluster object must be freed when the session is released.
     SessionHolder mSession;

     EndpointId mEndpoint;
     Optional<System::Clock::Timeout> mTimeout;
 };

 } // namespace Controller
 } // namespace chip
	/*
	*
	* Copyright (c) 2020 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.
	*/

	/**
	* @file
	* This file contains definitions for a base Cluster class. This class will
	* be derived by various ZCL clusters supported by CHIP. The objects of the
	* ZCL cluster class will be used by Controller applications to interact with
	* the CHIP device.
	*/

	#pragma once

	#include "app/ConcreteCommandPath.h"
	#include <app/DeviceProxy.h>
	#include <app/util/error-mapping.h>
	#include <controller/InvokeInteraction.h>
	#include <controller/ReadInteraction.h>
	#include <controller/WriteInteraction.h>
	#include <lib/core/Optional.h>
	#include <messaging/ExchangeMgr.h>
	#include <system/SystemClock.h>

	namespace chip {
	namespace Controller {

	template <typename T>
	using CommandResponseSuccessCallback = void(void * context, const T & responseObject);
	using CommandResponseFailureCallback = void(void * context, CHIP_ERROR err);
	using CommandResponseDoneCallback = void();
	using WriteResponseSuccessCallback = void ()(void context);
	using WriteResponseFailureCallback = void ()(void context, CHIP_ERROR err);
	using WriteResponseDoneCallback = void ()(void context);
	template <typename T>
	using ReadResponseSuccessCallback = void ()(void context, T responseData);
	using ReadResponseFailureCallback = void ()(void context, CHIP_ERROR err);
	using ReadDoneCallback = void ()(void context);
	using SubscriptionEstablishedCallback = void ()(void context);
	using ResubscriptionAttemptCallback = void ()(void context, CHIP_ERROR aError, uint32_t aNextResubscribeIntervalMsec);
	using SubscriptionOnDoneCallback = std::function<void(void)>;

	class DLL_EXPORT ClusterBase
	{
	public:
	ClusterBase(Messaging::ExchangeManager & exchangeManager, const SessionHandle & session, EndpointId endpoint) :
	mExchangeManager(exchangeManager), mSession(session), mEndpoint(endpoint)
	{}

	virtual ~ClusterBase() {}

	// Temporary function to set command timeout before we move over to InvokeCommand
	// TODO: remove when we start using InvokeCommand everywhere
	void SetCommandTimeout(Optional<System::Clock::Timeout> timeout) { mTimeout = timeout; }

	/**
	* Returns the current command timeout set via SetCommandTimeout, or an
	* empty optional if no timeout has been set.
	*/
	Optional<System::Clock::Timeout> GetCommandTimeout() { return mTimeout; }

	/*
	* This function permits sending an invoke request using cluster objects that represent the request and response data payloads.
	*
	* Success and Failure callbacks must be passed in through which the decoded response is provided as well as notification of any
	* failure.
	*/
	template <typename RequestDataT>
	CHIP_ERROR InvokeCommand(const RequestDataT & requestData, void * context,
	CommandResponseSuccessCallback<typename RequestDataT::ResponseType> successCb,
	CommandResponseFailureCallback failureCb, const Optional<uint16_t> & timedInvokeTimeoutMs)
	{
	auto onSuccessCb = [context, successCb](const app::ConcreteCommandPath & aPath, const app::StatusIB & aStatus,
	const typename RequestDataT::ResponseType & responseData) {
	successCb(context, responseData);
	};

	auto onFailureCb = [context, failureCb](CHIP_ERROR aError) { failureCb(context, aError); };

	return InvokeCommandRequest(&mExchangeManager, mSession.Get().Value(), mEndpoint, requestData, onSuccessCb, onFailureCb,
	timedInvokeTimeoutMs, mTimeout);
	}

	template <typename RequestDataT>
	CHIP_ERROR InvokeCommand(const RequestDataT & requestData, void * context,
	CommandResponseSuccessCallback<typename RequestDataT::ResponseType> successCb,
	CommandResponseFailureCallback failureCb, uint16_t timedInvokeTimeoutMs)
	{
	return InvokeCommand(requestData, context, successCb, failureCb, MakeOptional(timedInvokeTimeoutMs));
	}

	template <typename RequestDataT, typename std::enable_if_t<!RequestDataT::MustUseTimedInvoke(), int> = 0>
	CHIP_ERROR InvokeCommand(const RequestDataT & requestData, void * context,
	CommandResponseSuccessCallback<typename RequestDataT::ResponseType> successCb,
	CommandResponseFailureCallback failureCb)
	{
	return InvokeCommand(requestData, context, successCb, failureCb, NullOptional);
	}

	/**
	* Functions for writing attributes. We have lots of different
	* AttributeInfo but a fairly small set of types that get written. So we
	* want to keep the template on AttributeInfo very small, and put all the
	* work in the template with a small number of instantiations (one per
	* type).
	*/
	template <typename AttrType>
	CHIP_ERROR WriteAttribute(const AttrType & requestData, void * context, ClusterId clusterId, AttributeId attributeId,
	WriteResponseSuccessCallback successCb, WriteResponseFailureCallback failureCb,
	const Optional<uint16_t> & aTimedWriteTimeoutMs, WriteResponseDoneCallback doneCb = nullptr,
	const Optional<DataVersion> & aDataVersion = NullOptional)
	{
	auto onSuccessCb = [context, successCb](const app::ConcreteAttributePath & aPath) {
	if (successCb != nullptr)
	{
	successCb(context);
	}
	};

	auto onFailureCb = [context, failureCb](const app::ConcreteAttributePath * aPath, CHIP_ERROR aError) {
	if (failureCb != nullptr)
	{
	failureCb(context, aError);
	}
	};

	auto onDoneCb = [context, doneCb](app::WriteClient * pWriteClient) {
	if (doneCb != nullptr)
	{
	doneCb(context);
	}
	};

	return chip::Controller::WriteAttribute<AttrType>(mSession.Get().Value(), mEndpoint, clusterId, attributeId, requestData,
	onSuccessCb, onFailureCb, aTimedWriteTimeoutMs, onDoneCb, aDataVersion);
	}

	template <typename AttrType>
	CHIP_ERROR WriteAttribute(GroupId groupId, FabricIndex fabricIndex, const AttrType & requestData, void * context,
	ClusterId clusterId, AttributeId attributeId, WriteResponseSuccessCallback successCb,
	WriteResponseFailureCallback failureCb, const Optional<uint16_t> & aTimedWriteTimeoutMs,
	WriteResponseDoneCallback doneCb = nullptr, const Optional<DataVersion> & aDataVersion = NullOptional)
	{

	auto onSuccessCb = [context, successCb](const app::ConcreteAttributePath & aPath) {
	if (successCb != nullptr)
	{
	successCb(context);
	}
	};

	auto onFailureCb = [context, failureCb](const app::ConcreteAttributePath * aPath, CHIP_ERROR aError) {
	if (failureCb != nullptr)
	{
	failureCb(context, aError);
	}
	};

	auto onDoneCb = [context, doneCb](app::WriteClient * pWriteClient) {
	if (doneCb != nullptr)
	{
	doneCb(context);
	}
	};

	Transport::OutgoingGroupSession groupSession(groupId, fabricIndex);
	return chip::Controller::WriteAttribute<AttrType>(SessionHandle(groupSession), 0 /Unused for Group/, clusterId,
	attributeId, requestData, onSuccessCb, onFailureCb, aTimedWriteTimeoutMs,
	onDoneCb, aDataVersion);
	}

	template <typename AttributeInfo>
	CHIP_ERROR WriteAttribute(GroupId groupId, FabricIndex fabricIndex, const typename AttributeInfo::Type & requestData,
	void * context, WriteResponseSuccessCallback successCb, WriteResponseFailureCallback failureCb,
	WriteResponseDoneCallback doneCb = nullptr, const Optional<DataVersion> & aDataVersion = NullOptional,
	const Optional<uint16_t> & aTimedWriteTimeoutMs = NullOptional)
	{
	return WriteAttribute(groupId, fabricIndex, requestData, context, AttributeInfo::GetClusterId(),
	AttributeInfo::GetAttributeId(), successCb, failureCb, aTimedWriteTimeoutMs, doneCb, aDataVersion);
	}

	template <typename AttributeInfo>
	CHIP_ERROR WriteAttribute(const typename AttributeInfo::Type & requestData, void * context,
	WriteResponseSuccessCallback successCb, WriteResponseFailureCallback failureCb,
	const Optional<uint16_t> & aTimedWriteTimeoutMs, WriteResponseDoneCallback doneCb = nullptr,
	const Optional<DataVersion> & aDataVersion = NullOptional)
	{
	return WriteAttribute(requestData, context, AttributeInfo::GetClusterId(), AttributeInfo::GetAttributeId(), successCb,
	failureCb, aTimedWriteTimeoutMs, doneCb, aDataVersion);
	}

	template <typename AttributeInfo>
	CHIP_ERROR WriteAttribute(const typename AttributeInfo::Type & requestData, void * context,
	WriteResponseSuccessCallback successCb, WriteResponseFailureCallback failureCb,
	uint16_t aTimedWriteTimeoutMs, WriteResponseDoneCallback doneCb = nullptr,
	const Optional<DataVersion> & aDataVersion = NullOptional)
	{
	return WriteAttribute<AttributeInfo>(requestData, context, successCb, failureCb, MakeOptional(aTimedWriteTimeoutMs), doneCb,
	aDataVersion);
	}

	template <typename AttributeInfo, typename std::enable_if_t<!AttributeInfo::MustUseTimedWrite(), int> = 0>
	CHIP_ERROR WriteAttribute(const typename AttributeInfo::Type & requestData, void * context,
	WriteResponseSuccessCallback successCb, WriteResponseFailureCallback failureCb,
	WriteResponseDoneCallback doneCb = nullptr, const Optional<DataVersion> & aDataVersion = NullOptional)
	{
	return WriteAttribute<AttributeInfo>(requestData, context, successCb, failureCb, NullOptional, doneCb, aDataVersion);
	}

	/**
	* Read an attribute and get a type-safe callback with the attribute value.
	*/
	template <typename AttributeInfo>
	CHIP_ERROR ReadAttribute(void * context, ReadResponseSuccessCallback<typename AttributeInfo::DecodableArgType> successCb,
	ReadResponseFailureCallback failureCb, bool aIsFabricFiltered = true)
	{
	return ReadAttribute<typename AttributeInfo::DecodableType, typename AttributeInfo::DecodableArgType>(
	context, AttributeInfo::GetClusterId(), AttributeInfo::GetAttributeId(), successCb, failureCb, aIsFabricFiltered);
	}

	template <typename DecodableType, typename DecodableArgType>
	CHIP_ERROR ReadAttribute(void * context, ClusterId clusterId, AttributeId attributeId,
	ReadResponseSuccessCallback<DecodableArgType> successCb, ReadResponseFailureCallback failureCb,
	bool aIsFabricFiltered = true)
	{
	auto onSuccessCb = [context, successCb](const app::ConcreteAttributePath & aPath, const DecodableType & aData) {
	if (successCb != nullptr)
	{
	successCb(context, aData);
	}
	};

	auto onFailureCb = [context, failureCb](const app::ConcreteAttributePath * aPath, CHIP_ERROR aError) {
	if (failureCb != nullptr)
	{
	failureCb(context, aError);
	}
	};

	return Controller::ReadAttribute<DecodableType>(&mExchangeManager, mSession.Get().Value(), mEndpoint, clusterId,
	attributeId, onSuccessCb, onFailureCb, aIsFabricFiltered);
	}

	/**
	* Subscribe to attribute and get a type-safe callback with the attribute
	* value when it changes.
	*/
	template <typename AttributeInfo>
	CHIP_ERROR
	SubscribeAttribute(void * context, ReadResponseSuccessCallback<typename AttributeInfo::DecodableArgType> reportCb,
	ReadResponseFailureCallback failureCb, uint16_t minIntervalFloorSeconds, uint16_t maxIntervalCeilingSeconds,
	SubscriptionEstablishedCallback subscriptionEstablishedCb = nullptr,
	ResubscriptionAttemptCallback resubscriptionAttemptCb = nullptr, bool aIsFabricFiltered = true,
	bool aKeepPreviousSubscriptions = false, const Optional<DataVersion> & aDataVersion = NullOptional,
	SubscriptionOnDoneCallback subscriptionDoneCb = nullptr)
	{
	return SubscribeAttribute<typename AttributeInfo::DecodableType, typename AttributeInfo::DecodableArgType>(
	context, AttributeInfo::GetClusterId(), AttributeInfo::GetAttributeId(), reportCb, failureCb, minIntervalFloorSeconds,
	maxIntervalCeilingSeconds, subscriptionEstablishedCb, resubscriptionAttemptCb, aIsFabricFiltered,
	aKeepPreviousSubscriptions, aDataVersion, subscriptionDoneCb);
	}

	template <typename DecodableType, typename DecodableArgType>
	CHIP_ERROR SubscribeAttribute(void * context, ClusterId clusterId, AttributeId attributeId,
	ReadResponseSuccessCallback<DecodableArgType> reportCb, ReadResponseFailureCallback failureCb,
	uint16_t minIntervalFloorSeconds, uint16_t maxIntervalCeilingSeconds,
	SubscriptionEstablishedCallback subscriptionEstablishedCb = nullptr,
	ResubscriptionAttemptCallback resubscriptionAttemptCb = nullptr, bool aIsFabricFiltered = true,
	bool aKeepPreviousSubscriptions = false,
	const Optional<DataVersion> & aDataVersion = NullOptional,
	SubscriptionOnDoneCallback subscriptionDoneCb = nullptr)
	{
	auto onReportCb = [context, reportCb](const app::ConcreteAttributePath & aPath, const DecodableType & aData) {
	if (reportCb != nullptr)
	{
	reportCb(context, aData);
	}
	};

	auto onFailureCb = [context, failureCb](const app::ConcreteAttributePath * aPath, CHIP_ERROR aError) {
	if (failureCb != nullptr)
	{
	failureCb(context, aError);
	}
	};

	auto onSubscriptionEstablishedCb = [context, subscriptionEstablishedCb](const app::ReadClient & readClient) {
	if (subscriptionEstablishedCb != nullptr)
	{
	subscriptionEstablishedCb(context);
	}
	};

	auto onResubscriptionAttemptCb = [context, resubscriptionAttemptCb](const app::ReadClient & readClient, CHIP_ERROR aError,
	uint32_t aNextResubscribeIntervalMsec) {
	if (resubscriptionAttemptCb != nullptr)
	{
	resubscriptionAttemptCb(context, aError, aNextResubscribeIntervalMsec);
	}
	};

	return Controller::SubscribeAttribute<DecodableType>(
	&mExchangeManager, mSession.Get().Value(), mEndpoint, clusterId, attributeId, onReportCb, onFailureCb,
	minIntervalFloorSeconds, maxIntervalCeilingSeconds, onSubscriptionEstablishedCb, onResubscriptionAttemptCb,
	aIsFabricFiltered, aKeepPreviousSubscriptions, aDataVersion, subscriptionDoneCb);
	}

	/**
	* Read an event and get a type-safe callback with the event data.
	*
	* @param[in] successCb Used to deliver event data received through the Read interactions
	* @param[in] failureCb failureCb will be called when an error occurs after a successful call to ReadEvent.
	* @param[in] doneCb OnDone will be called when ReadClient has finished all work for event retrieval, it is possible that
	* there is no event.
	*/
	template <typename DecodableType>
	CHIP_ERROR ReadEvent(void * context, ReadResponseSuccessCallback<DecodableType> successCb,
	ReadResponseFailureCallback failureCb, ReadDoneCallback doneCb)
	{
	auto onSuccessCb = [context, successCb](const app::EventHeader & aEventHeader, const DecodableType & aData) {
	if (successCb != nullptr)
	{
	successCb(context, aData);
	}
	};

	auto onFailureCb = [context, failureCb](const app::EventHeader * aEventHeader, CHIP_ERROR aError) {
	if (failureCb != nullptr)
	{
	failureCb(context, aError);
	}
	};

	auto onDoneCb = [context, doneCb](app::ReadClient * apReadClient) {
	if (doneCb != nullptr)
	{
	doneCb(context);
	}
	};
	return Controller::ReadEvent<DecodableType>(&mExchangeManager, mSession.Get().Value(), mEndpoint, onSuccessCb, onFailureCb,
	onDoneCb);
	}

	template <typename DecodableType>
	CHIP_ERROR SubscribeEvent(void * context, ReadResponseSuccessCallback<DecodableType> reportCb,
	ReadResponseFailureCallback failureCb, uint16_t minIntervalFloorSeconds,
	uint16_t maxIntervalCeilingSeconds,
	SubscriptionEstablishedCallback subscriptionEstablishedCb = nullptr,
	ResubscriptionAttemptCallback resubscriptionAttemptCb = nullptr,
	bool aKeepPreviousSubscriptions = false, bool aIsUrgentEvent = false)
	{
	auto onReportCb = [context, reportCb](const app::EventHeader & aEventHeader, const DecodableType & aData) {
	if (reportCb != nullptr)
	{
	reportCb(context, aData);
	}
	};

	auto onFailureCb = [context, failureCb](const app::EventHeader * aEventHeader, CHIP_ERROR aError) {
	if (failureCb != nullptr)
	{
	failureCb(context, aError);
	}
	};

	auto onSubscriptionEstablishedCb = [context, subscriptionEstablishedCb](const app::ReadClient & readClient) {
	if (subscriptionEstablishedCb != nullptr)
	{
	subscriptionEstablishedCb(context);
	}
	};

	auto onResubscriptionAttemptCb = [context, resubscriptionAttemptCb](const app::ReadClient & readClient, CHIP_ERROR aError,
	uint32_t aNextResubscribeIntervalMsec) {
	if (resubscriptionAttemptCb != nullptr)
	{
	resubscriptionAttemptCb(context, aError, aNextResubscribeIntervalMsec);
	}
	};

	return Controller::SubscribeEvent<DecodableType>(&mExchangeManager, mSession.Get().Value(), mEndpoint, onReportCb,
	onFailureCb, minIntervalFloorSeconds, maxIntervalCeilingSeconds,
	onSubscriptionEstablishedCb, onResubscriptionAttemptCb,
	aKeepPreviousSubscriptions, aIsUrgentEvent);
	}

	protected:
	Messaging::ExchangeManager & mExchangeManager;

	// Since cluster object is ephemeral, the session shall be valid during the entire lifespan, so we do not need to check the
	// session existence when using it. For java and objective-c binding, the cluster object is allocated in the heap, such that we
	// can't use SessionHandle here, in such case, the cluster object must be freed when the session is released.
	SessionHolder mSession;

	EndpointId mEndpoint;
	Optional<System::Clock::Timeout> mTimeout;
	};

	} // namespace Controller
	} // namespace chip