src/app/WriteClient.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2021 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/AttributePathParams.h>
 #include <app/ConcreteAttributePath.h>
 #include <app/InteractionModelTimeout.h>
 #include <app/MessageDef/AttributeDataIBs.h>
 #include <app/MessageDef/AttributeStatusIB.h>
 #include <app/MessageDef/StatusIB.h>
 #include <app/MessageDef/WriteRequestMessage.h>
 #include <app/data-model/Encode.h>
 #include <app/data-model/FabricScoped.h>
 #include <app/data-model/List.h>
 #include <lib/core/CHIPCore.h>
 #include <lib/core/TLVDebug.h>
 #include <lib/support/CodeUtils.h>
 #include <lib/support/DLLUtil.h>
 #include <lib/support/logging/CHIPLogging.h>
 #include <messaging/ExchangeHolder.h>
 #include <messaging/ExchangeMgr.h>
 #include <messaging/Flags.h>
 #include <platform/LockTracker.h>
 #include <protocols/Protocols.h>
 #include <system/SystemPacketBuffer.h>
 #include <system/TLVPacketBufferBackingStore.h>

 namespace chip {
 namespace app {

 class InteractionModelEngine;

 /**
  *  @brief The write client represents the initiator side of a Write Interaction, and is responsible
  *  for generating one Write Request for a particular set of attributes, and handling the Write response.
  *  Consumer can allocate one write client, then call PrepareAttribute, insert attribute value, followed
  *  by FinishAttribute for every attribute it wants to insert in write request, then call SendWriteRequest
  *
  *  Note: When writing lists, you may receive multiple write status responses for a single list.
  *  Please see ChunkedWriteCallback.h for a high level API which will merge status codes for
  *  chunked write requests.
  *
  */
 class WriteClient : public Messaging::ExchangeDelegate
 {
 public:
     class Callback
     {
     public:
         virtual ~Callback() = default;

         /**
          * OnResponse will be called when a write response has been received
          * and processed for the given path.
          *
          * The WriteClient object MUST continue to exist after this call is completed. The application shall wait until it
          * receives an OnDone call before it shuts down the object.
          *
          * @param[in] apWriteClient   The write client object that initiated the write transaction.
          * @param[in] aPath           The attribute path field in write response.
          * @param[in] attributeStatus Attribute-specific status, containing an InteractionModel::Status code as well as
          *                            an optional cluster-specific status code.
          */
         virtual void OnResponse(const WriteClient * apWriteClient, const ConcreteDataAttributePath & aPath,
                                 StatusIB attributeStatus)
         {}

         /**
          * OnError will be called when an error occurs *after* a successful call to SendWriteRequest(). The following
          * errors will be delivered through this call in the aError field:
          *
          * - CHIP_ERROR_TIMEOUT: A response was not received within the expected response timeout.
          * - CHIP_ERROR_*TLV*: A malformed, non-compliant response was received from the server.
          * - CHIP_ERROR encapsulating a StatusIB: If we got a non-path-specific
          *   status response from the server.  In that case,
          *   StatusIB::InitFromChipError can be used to extract the status.
          * - CHIP_ERROR*: All other cases.
          *
          * The WriteClient object MUST continue to exist after this call is completed. The application shall wait until it
          * receives an OnDone call before it shuts down the object.
          *
          * @param[in] apWriteClient The write client object that initiated the attribute write transaction.
          * @param[in] aError        A system error code that conveys the overall error code.
          */
         virtual void OnError(const WriteClient * apWriteClient, CHIP_ERROR aError) {}

         /**
          * OnDone will be called when WriteClient has finished all work and is reserved for future WriteClient ownership change.
          * (#10366) Users may use this function to release their own objects related to this write interaction.
          *
          * This function will:
          *      - Always be called exactly *once* for a given WriteClient instance.
          *      - Be called even in error circumstances.
          *      - Only be called after a successful call to SendWriteRequest has been made.
          *
          * @param[in] apWriteClient The write client object of the terminated write transaction.
          */
         virtual void OnDone(WriteClient * apWriteClient) = 0;
     };

     /**
      *  Construct the client object. Within the lifetime
      *  of this instance.
      *
      *  @param[in]    apExchangeMgr    A pointer to the ExchangeManager object.
      *  @param[in]    apCallback       Callback set by application.
      *  @param[in]    aTimedWriteTimeoutMs If provided, do a timed write using this timeout.
      *  @param[in]    aSuppressResponse If provided, set SuppressResponse field to the provided value
      */
     WriteClient(Messaging::ExchangeManager * apExchangeMgr, Callback * apCallback, const Optional<uint16_t> & aTimedWriteTimeoutMs,
                 bool aSuppressResponse = false) :
         mpExchangeMgr(apExchangeMgr),
         mExchangeCtx(*this), mpCallback(apCallback), mTimedWriteTimeoutMs(aTimedWriteTimeoutMs),
         mSuppressResponse(aSuppressResponse)
     {
         assertChipStackLockedByCurrentThread();
     }

 #if CONFIG_BUILD_FOR_HOST_UNIT_TEST
     WriteClient(Messaging::ExchangeManager * apExchangeMgr, Callback * apCallback, const Optional<uint16_t> & aTimedWriteTimeoutMs,
                 uint16_t aReservedSize) :
         mpExchangeMgr(apExchangeMgr),
         mExchangeCtx(*this), mpCallback(apCallback), mTimedWriteTimeoutMs(aTimedWriteTimeoutMs), mReservedSize(aReservedSize)
     {
         assertChipStackLockedByCurrentThread();
     }
 #endif

     ~WriteClient() { assertChipStackLockedByCurrentThread(); }

     /**
      *  Encode an attribute value that can be directly encoded using DataModel::Encode. Will create a new chunk when necessary.
      */
     template <class T>
     CHIP_ERROR EncodeAttribute(const AttributePathParams & attributePath, const T & value,
                                const Optional<DataVersion> & aDataVersion = NullOptional)
     {
         ReturnErrorOnFailure(EnsureMessage());

         // Here, we are using kInvalidEndpointId for missing endpoint id, which is used when sending group write requests.
         return EncodeSingleAttributeDataIB(
             ConcreteDataAttributePath(attributePath.HasWildcardEndpointId() ? kInvalidEndpointId : attributePath.mEndpointId,
                                       attributePath.mClusterId, attributePath.mAttributeId, aDataVersion),
             value);
     }

     /**
      *  Encode a possibly-chunked list attribute value.  Will create a new chunk when necessary.
      */
     template <class T>
     CHIP_ERROR EncodeAttribute(const AttributePathParams & attributePath, const DataModel::List<T> & value,
                                const Optional<DataVersion> & aDataVersion = NullOptional)
     {
         // Here, we are using kInvalidEndpointId for missing endpoint id, which is used when sending group write requests.
         ConcreteDataAttributePath path =
             ConcreteDataAttributePath(attributePath.HasWildcardEndpointId() ? kInvalidEndpointId : attributePath.mEndpointId,
                                       attributePath.mClusterId, attributePath.mAttributeId, aDataVersion);

         ReturnErrorOnFailure(EnsureMessage());

         // Encode an empty list for the chunking protocol.
         ReturnErrorOnFailure(EncodeSingleAttributeDataIB(path, DataModel::List<uint8_t>()));

         path.mListOp = ConcreteDataAttributePath::ListOperation::AppendItem;
         for (ListIndex i = 0; i < value.size(); i++)
         {
             ReturnErrorOnFailure(EncodeSingleAttributeDataIB(path, value.data()[i]));
         }

         return CHIP_NO_ERROR;
     }

     /**
      * Encode a Nullable attribute value.  This needs a separate overload so it can dispatch to the right
      * EncodeAttribute when writing a nullable list.
      */
     template <class T>
     CHIP_ERROR EncodeAttribute(const AttributePathParams & attributePath, const DataModel::Nullable<T> & value,
                                const Optional<DataVersion> & aDataVersion = NullOptional)
     {
         ReturnErrorOnFailure(EnsureMessage());

         if (value.IsNull())
         {
             // Here, we are using kInvalidEndpointId to for missing endpoint id, which is used when sending group write requests.
             return EncodeSingleAttributeDataIB(
                 ConcreteDataAttributePath(attributePath.HasWildcardEndpointId() ? kInvalidEndpointId : attributePath.mEndpointId,
                                           attributePath.mClusterId, attributePath.mAttributeId, aDataVersion),
                 value);
         }

         return EncodeAttribute(attributePath, value.Value(), aDataVersion);
     }

     /**
      * Encode an attribute value which is already encoded into a TLV. The TLVReader is expected to be initialized and the read head
      * is expected to point to the element to be encoded.
      *
      * Note: When encoding lists with this function, you may receive more than one write status for a single list. You can refer
      * to ChunkedWriteCallback.h for a high level API which will merge status codes for chunked write requests.
      */
     CHIP_ERROR PutPreencodedAttribute(const ConcreteDataAttributePath & attributePath, const TLV::TLVReader & data);

     /**
      *  Once SendWriteRequest returns successfully, the WriteClient will
      *  handle calling Shutdown on itself once it decides it's done with waiting
      *  for a response (i.e. times out or gets a response). Client can specify
      *  the maximum time to wait for response (in milliseconds) via timeout parameter.
      *  If the timeout is missing or is set to System::Clock::kZero, a value based on the MRP timeouts of the session will be used.
      *  If SendWriteRequest is never called, or the call fails, the API
      *  consumer is responsible for calling Shutdown on the WriteClient.
      */
     CHIP_ERROR SendWriteRequest(const SessionHandle & session, System::Clock::Timeout timeout = System::Clock::kZero);

     /**
      *  Shutdown the WriteClient. This terminates this instance
      *  of the object and releases all held resources.
      */
     void Shutdown();

 private:
     friend class TestWriteInteraction;
     friend class InteractionModelEngine;

     enum class State
     {
         Initialized = 0,     // The client has been initialized
         AddAttribute,        // The client has added attribute and ready for a SendWriteRequest
         AwaitingTimedStatus, // Sent a Tiemd Request, waiting for response.
         AwaitingResponse,    // The client has sent out the write request message
         ResponseReceived,    // We have gotten a response after sending write request
         AwaitingDestruction, // The object has completed its work and is awaiting destruction by the application.
     };

     CHIP_ERROR OnMessageReceived(Messaging::ExchangeContext * apExchangeContext, const PayloadHeader & aPayloadHeader,
                                  System::PacketBufferHandle && aPayload) override;
     void OnResponseTimeout(Messaging::ExchangeContext * apExchangeContext) override;

     void MoveToState(const State aTargetState);
     CHIP_ERROR ProcessWriteResponseMessage(System::PacketBufferHandle && payload);
     CHIP_ERROR ProcessAttributeStatusIB(AttributeStatusIB::Parser & aAttributeStatusIB);
     const char * GetStateStr() const;

     /**
      *  Encode an attribute value that can be directly encoded using DataModel::Encode.
      */
     template <class T, std::enable_if_t<!DataModel::IsFabricScoped<T>::value, int> = 0>
     CHIP_ERROR TryEncodeSingleAttributeDataIB(const ConcreteDataAttributePath & attributePath, const T & value)
     {
         chip::TLV::TLVWriter * writer = nullptr;

         ReturnErrorOnFailure(PrepareAttributeIB(attributePath));
         VerifyOrReturnError((writer = GetAttributeDataIBTLVWriter()) != nullptr, CHIP_ERROR_INCORRECT_STATE);
         ReturnErrorOnFailure(DataModel::Encode(*writer, chip::TLV::ContextTag(chip::app::AttributeDataIB::Tag::kData), value));
         ReturnErrorOnFailure(FinishAttributeIB());

         return CHIP_NO_ERROR;
     }

     template <class T, std::enable_if_t<DataModel::IsFabricScoped<T>::value, int> = 0>
     CHIP_ERROR TryEncodeSingleAttributeDataIB(const ConcreteDataAttributePath & attributePath, const T & value)
     {
         chip::TLV::TLVWriter * writer = nullptr;

         ReturnErrorOnFailure(PrepareAttributeIB(attributePath));
         VerifyOrReturnError((writer = GetAttributeDataIBTLVWriter()) != nullptr, CHIP_ERROR_INCORRECT_STATE);
         ReturnErrorOnFailure(
             DataModel::EncodeForWrite(*writer, chip::TLV::ContextTag(chip::app::AttributeDataIB::Tag::kData), value));
         ReturnErrorOnFailure(FinishAttributeIB());

         return CHIP_NO_ERROR;
     }

     /**
      * A wrapper for TryEncodeSingleAttributeDataIB which will start a new chunk when failed with CHIP_ERROR_NO_MEMORY or
      * CHIP_ERROR_BUFFER_TOO_SMALL.
      */
     template <class T>
     CHIP_ERROR EncodeSingleAttributeDataIB(const ConcreteDataAttributePath & attributePath, const T & value)
     {
         TLV::TLVWriter backupWriter;

         mWriteRequestBuilder.GetWriteRequests().Checkpoint(backupWriter);

         // First attempt to write this attribute.
         CHIP_ERROR err = TryEncodeSingleAttributeDataIB(attributePath, value);
         if (err == CHIP_ERROR_NO_MEMORY || err == CHIP_ERROR_BUFFER_TOO_SMALL)
         {
             // If it failed with no memory, then we create a new chunk for it.
             mWriteRequestBuilder.GetWriteRequests().Rollback(backupWriter);
             ReturnErrorOnFailure(StartNewMessage());
             ReturnErrorOnFailure(TryEncodeSingleAttributeDataIB(attributePath, value));
         }
         else
         {
             ReturnErrorOnFailure(err);
         }

         return CHIP_NO_ERROR;
     }

     /**
      * Encode a preencoded attribute data, returns TLV encode error if the ramaining space of current chunk is too small for the
      * AttributeDataIB.
      */
     CHIP_ERROR TryPutSinglePreencodedAttributeWritePayload(const ConcreteDataAttributePath & attributePath,
                                                            const TLV::TLVReader & data);

     /**
      * Encode a preencoded attribute data, will try to create a new chunk when necessary.
      */
     CHIP_ERROR PutSinglePreencodedAttributeWritePayload(const ConcreteDataAttributePath & attributePath,
                                                         const TLV::TLVReader & data);

     CHIP_ERROR EnsureMessage();

     /**
      * Called internally to signal the completion of all work on this object, gracefully close the
      * exchange (by calling into the base class) and finally, signal to the application that it's
      * safe to release this object.
      */
     void Close();

     /**
      * This forcibly closes the exchange context if a valid one is pointed to. Such a situation does
      * not arise during normal message processing flows that all normally call Close() above. This can only
      * arise due to application-initiated destruction of the object when this object is handling receiving/sending
      * message payloads.
      */
     void Abort();

     // Send our queued-up Write Request message.  Assumes the exchange is ready
     // and mPendingWriteData is populated.
     CHIP_ERROR SendWriteRequest();

     // Encodes the header of an AttributeDataIB, a special case for attributePath is its EndpointId can be kInvalidEndpointId, this
     // is used when sending group write requests.
     // TODO(#14935) Update AttributePathParams to support more list operations.
     CHIP_ERROR PrepareAttributeIB(const ConcreteDataAttributePath & attributePath);
     CHIP_ERROR FinishAttributeIB();
     TLV::TLVWriter * GetAttributeDataIBTLVWriter();

     /**
      * Create a new message (or a new chunk) for the write request.
      */
     CHIP_ERROR StartNewMessage();

     /**
      * Finalize Write Request Message TLV Builder and retrieve final data from tlv builder for later sending
      */
     CHIP_ERROR FinalizeMessage(bool aHasMoreChunks);

     Messaging::ExchangeManager * mpExchangeMgr = nullptr;
     Messaging::ExchangeHolder mExchangeCtx;
     Callback * mpCallback = nullptr;
     State mState          = State::Initialized;
     System::PacketBufferTLVWriter mMessageWriter;
     WriteRequestMessage::Builder mWriteRequestBuilder;
     // TODO Maybe we should change PacketBufferTLVWriter so we can finalize it
     // but have it hold on to the buffer, and get the buffer from it later.
     // Then we could avoid this extra pointer-sized member.
     System::PacketBufferHandle mPendingWriteData;
     // If mTimedWriteTimeoutMs has a value, we are expected to do a timed
     // write.
     Optional<uint16_t> mTimedWriteTimeoutMs;
     bool mSuppressResponse = false;

     // A list of buffers, one buffer for each chunk.
     System::PacketBufferHandle mChunks;

     // TODO: This file might be compiled with different build flags on Darwin platform (when building WriteClient.cpp and
     // CHIPClustersObjc.mm), which will cause undefined behavior when building write requests. Uncomment the #if and #endif after
     // resolving it.
     // #if CONFIG_BUILD_FOR_HOST_UNIT_TEST
     uint16_t mReservedSize = 0;
     // #endif

     /**
      * Below we define several const variables for encoding overheads.
      * WriteRequestMessage =
      * {
      *  timedRequest = false,
      *  AttributeDataIBs =
      *  [
      *     AttributeDataIB =             \
      *     {                              |
      *        DataVersion = 0x0,          |
      *        AttributePathIB =           |
      *        {                           |
      *           Endpoint = 0x2,          |  "atomically" encoded via
      *           Cluster = 0x50f,          > EncodeAttribute or
      *           Attribute = 0x0000_0006, |  PutPreencodedAttribute
      *           ListIndex = Null,        |
      *        }                           |
      *        Data = ...                  |
      *     },                             /
      *     (...)
      *  ],                           <-- 1 byte  "end of AttributeDataIB" (end of container)
      *  moreChunkedMessages = false, <-- 2 bytes "kReservedSizeForMoreChunksFlag"
      *  InteractionModelRevision = 1,<-- 3 bytes "kReservedSizeForIMRevision"
      * }                             <-- 1 byte  "end of WriteRequestMessage" (end of container)
      */

     // Reserved size for the MoreChunks boolean flag, which takes up 1 byte for the control tag and 1 byte for the context tag.
     static constexpr uint16_t kReservedSizeForMoreChunksFlag = 1 + 1;
     // End Of Container (0x18) uses one byte.
     static constexpr uint16_t kReservedSizeForEndOfContainer = 1;
     // Reserved size for the uint8_t InteractionModelRevision flag, which takes up 1 byte for the control tag and 1 byte for the
     // context tag, 1 byte for value
     static constexpr uint16_t kReservedSizeForIMRevision = 1 + 1 + 1;
     // Reserved buffer for TLV level overhead (the overhead for end of AttributeDataIBs (end of container), more chunks flag, end
     // of WriteRequestMessage (another end of container)).
     static constexpr uint16_t kReservedSizeForTLVEncodingOverhead = kReservedSizeForIMRevision + kReservedSizeForMoreChunksFlag +
         kReservedSizeForEndOfContainer + kReservedSizeForEndOfContainer;
     bool mHasDataVersion = false;
 };

 } // namespace app
 } // namespace chip
	/*
	*
	* Copyright (c) 2021 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/AttributePathParams.h>
	#include <app/ConcreteAttributePath.h>
	#include <app/InteractionModelTimeout.h>
	#include <app/MessageDef/AttributeDataIBs.h>
	#include <app/MessageDef/AttributeStatusIB.h>
	#include <app/MessageDef/StatusIB.h>
	#include <app/MessageDef/WriteRequestMessage.h>
	#include <app/data-model/Encode.h>
	#include <app/data-model/FabricScoped.h>
	#include <app/data-model/List.h>
	#include <lib/core/CHIPCore.h>
	#include <lib/core/TLVDebug.h>
	#include <lib/support/CodeUtils.h>
	#include <lib/support/DLLUtil.h>
	#include <lib/support/logging/CHIPLogging.h>
	#include <messaging/ExchangeHolder.h>
	#include <messaging/ExchangeMgr.h>
	#include <messaging/Flags.h>
	#include <platform/LockTracker.h>
	#include <protocols/Protocols.h>
	#include <system/SystemPacketBuffer.h>
	#include <system/TLVPacketBufferBackingStore.h>

	namespace chip {
	namespace app {

	class InteractionModelEngine;

	/**
	* @brief The write client represents the initiator side of a Write Interaction, and is responsible
	* for generating one Write Request for a particular set of attributes, and handling the Write response.
	* Consumer can allocate one write client, then call PrepareAttribute, insert attribute value, followed
	* by FinishAttribute for every attribute it wants to insert in write request, then call SendWriteRequest
	*
	* Note: When writing lists, you may receive multiple write status responses for a single list.
	* Please see ChunkedWriteCallback.h for a high level API which will merge status codes for
	* chunked write requests.
	*
	*/
	class WriteClient : public Messaging::ExchangeDelegate
	{
	public:
	class Callback
	{
	public:
	virtual ~Callback() = default;

	/**
	* OnResponse will be called when a write response has been received
	* and processed for the given path.
	*
	* The WriteClient object MUST continue to exist after this call is completed. The application shall wait until it
	* receives an OnDone call before it shuts down the object.
	*
	* @param[in] apWriteClient The write client object that initiated the write transaction.
	* @param[in] aPath The attribute path field in write response.
	* @param[in] attributeStatus Attribute-specific status, containing an InteractionModel::Status code as well as
	* an optional cluster-specific status code.
	*/
	virtual void OnResponse(const WriteClient * apWriteClient, const ConcreteDataAttributePath & aPath,
	StatusIB attributeStatus)
	{}

	/**
	* OnError will be called when an error occurs after a successful call to SendWriteRequest(). The following
	* errors will be delivered through this call in the aError field:
	*
	* - CHIP_ERROR_TIMEOUT: A response was not received within the expected response timeout.
	* - CHIP_ERROR_TLV: A malformed, non-compliant response was received from the server.
	* - CHIP_ERROR encapsulating a StatusIB: If we got a non-path-specific
	* status response from the server. In that case,
	* StatusIB::InitFromChipError can be used to extract the status.
	* - CHIP_ERROR*: All other cases.
	*
	* The WriteClient object MUST continue to exist after this call is completed. The application shall wait until it
	* receives an OnDone call before it shuts down the object.
	*
	* @param[in] apWriteClient The write client object that initiated the attribute write transaction.
	* @param[in] aError A system error code that conveys the overall error code.
	*/
	virtual void OnError(const WriteClient * apWriteClient, CHIP_ERROR aError) {}

	/**
	* OnDone will be called when WriteClient has finished all work and is reserved for future WriteClient ownership change.
	* (#10366) Users may use this function to release their own objects related to this write interaction.
	*
	* This function will:
	* - Always be called exactly once for a given WriteClient instance.
	* - Be called even in error circumstances.
	* - Only be called after a successful call to SendWriteRequest has been made.
	*
	* @param[in] apWriteClient The write client object of the terminated write transaction.
	*/
	virtual void OnDone(WriteClient * apWriteClient) = 0;
	};

	/**
	* Construct the client object. Within the lifetime
	* of this instance.
	*
	* @param[in] apExchangeMgr A pointer to the ExchangeManager object.
	* @param[in] apCallback Callback set by application.
	* @param[in] aTimedWriteTimeoutMs If provided, do a timed write using this timeout.
	* @param[in] aSuppressResponse If provided, set SuppressResponse field to the provided value
	*/
	WriteClient(Messaging::ExchangeManager * apExchangeMgr, Callback * apCallback, const Optional<uint16_t> & aTimedWriteTimeoutMs,
	bool aSuppressResponse = false) :
	mpExchangeMgr(apExchangeMgr),
	mExchangeCtx(*this), mpCallback(apCallback), mTimedWriteTimeoutMs(aTimedWriteTimeoutMs),
	mSuppressResponse(aSuppressResponse)
	{
	assertChipStackLockedByCurrentThread();
	}

	#if CONFIG_BUILD_FOR_HOST_UNIT_TEST
	WriteClient(Messaging::ExchangeManager * apExchangeMgr, Callback * apCallback, const Optional<uint16_t> & aTimedWriteTimeoutMs,
	uint16_t aReservedSize) :
	mpExchangeMgr(apExchangeMgr),
	mExchangeCtx(*this), mpCallback(apCallback), mTimedWriteTimeoutMs(aTimedWriteTimeoutMs), mReservedSize(aReservedSize)
	{
	assertChipStackLockedByCurrentThread();
	}
	#endif

	~WriteClient() { assertChipStackLockedByCurrentThread(); }

	/**
	* Encode an attribute value that can be directly encoded using DataModel::Encode. Will create a new chunk when necessary.
	*/
	template <class T>
	CHIP_ERROR EncodeAttribute(const AttributePathParams & attributePath, const T & value,
	const Optional<DataVersion> & aDataVersion = NullOptional)
	{
	ReturnErrorOnFailure(EnsureMessage());

	// Here, we are using kInvalidEndpointId for missing endpoint id, which is used when sending group write requests.
	return EncodeSingleAttributeDataIB(
	ConcreteDataAttributePath(attributePath.HasWildcardEndpointId() ? kInvalidEndpointId : attributePath.mEndpointId,
	attributePath.mClusterId, attributePath.mAttributeId, aDataVersion),
	value);
	}

	/**
	* Encode a possibly-chunked list attribute value. Will create a new chunk when necessary.
	*/
	template <class T>
	CHIP_ERROR EncodeAttribute(const AttributePathParams & attributePath, const DataModel::List<T> & value,
	const Optional<DataVersion> & aDataVersion = NullOptional)
	{
	// Here, we are using kInvalidEndpointId for missing endpoint id, which is used when sending group write requests.
	ConcreteDataAttributePath path =
	ConcreteDataAttributePath(attributePath.HasWildcardEndpointId() ? kInvalidEndpointId : attributePath.mEndpointId,
	attributePath.mClusterId, attributePath.mAttributeId, aDataVersion);

	ReturnErrorOnFailure(EnsureMessage());

	// Encode an empty list for the chunking protocol.
	ReturnErrorOnFailure(EncodeSingleAttributeDataIB(path, DataModel::List<uint8_t>()));

	path.mListOp = ConcreteDataAttributePath::ListOperation::AppendItem;
	for (ListIndex i = 0; i < value.size(); i++)
	{
	ReturnErrorOnFailure(EncodeSingleAttributeDataIB(path, value.data()[i]));
	}

	return CHIP_NO_ERROR;
	}

	/**
	* Encode a Nullable attribute value. This needs a separate overload so it can dispatch to the right
	* EncodeAttribute when writing a nullable list.
	*/
	template <class T>
	CHIP_ERROR EncodeAttribute(const AttributePathParams & attributePath, const DataModel::Nullable<T> & value,
	const Optional<DataVersion> & aDataVersion = NullOptional)
	{
	ReturnErrorOnFailure(EnsureMessage());

	if (value.IsNull())
	{
	// Here, we are using kInvalidEndpointId to for missing endpoint id, which is used when sending group write requests.
	return EncodeSingleAttributeDataIB(
	ConcreteDataAttributePath(attributePath.HasWildcardEndpointId() ? kInvalidEndpointId : attributePath.mEndpointId,
	attributePath.mClusterId, attributePath.mAttributeId, aDataVersion),
	value);
	}

	return EncodeAttribute(attributePath, value.Value(), aDataVersion);
	}

	/**
	* Encode an attribute value which is already encoded into a TLV. The TLVReader is expected to be initialized and the read head
	* is expected to point to the element to be encoded.
	*
	* Note: When encoding lists with this function, you may receive more than one write status for a single list. You can refer
	* to ChunkedWriteCallback.h for a high level API which will merge status codes for chunked write requests.
	*/
	CHIP_ERROR PutPreencodedAttribute(const ConcreteDataAttributePath & attributePath, const TLV::TLVReader & data);

	/**
	* Once SendWriteRequest returns successfully, the WriteClient will
	* handle calling Shutdown on itself once it decides it's done with waiting
	* for a response (i.e. times out or gets a response). Client can specify
	* the maximum time to wait for response (in milliseconds) via timeout parameter.
	* If the timeout is missing or is set to System::Clock::kZero, a value based on the MRP timeouts of the session will be used.
	* If SendWriteRequest is never called, or the call fails, the API
	* consumer is responsible for calling Shutdown on the WriteClient.
	*/
	CHIP_ERROR SendWriteRequest(const SessionHandle & session, System::Clock::Timeout timeout = System::Clock::kZero);

	/**
	* Shutdown the WriteClient. This terminates this instance
	* of the object and releases all held resources.
	*/
	void Shutdown();

	private:
	friend class TestWriteInteraction;
	friend class InteractionModelEngine;

	enum class State
	{
	Initialized = 0, // The client has been initialized
	AddAttribute, // The client has added attribute and ready for a SendWriteRequest
	AwaitingTimedStatus, // Sent a Tiemd Request, waiting for response.
	AwaitingResponse, // The client has sent out the write request message
	ResponseReceived, // We have gotten a response after sending write request
	AwaitingDestruction, // The object has completed its work and is awaiting destruction by the application.
	};

	CHIP_ERROR OnMessageReceived(Messaging::ExchangeContext * apExchangeContext, const PayloadHeader & aPayloadHeader,
	System::PacketBufferHandle && aPayload) override;
	void OnResponseTimeout(Messaging::ExchangeContext * apExchangeContext) override;

	void MoveToState(const State aTargetState);
	CHIP_ERROR ProcessWriteResponseMessage(System::PacketBufferHandle && payload);
	CHIP_ERROR ProcessAttributeStatusIB(AttributeStatusIB::Parser & aAttributeStatusIB);
	const char * GetStateStr() const;

	/**
	* Encode an attribute value that can be directly encoded using DataModel::Encode.
	*/
	template <class T, std::enable_if_t<!DataModel::IsFabricScoped<T>::value, int> = 0>
	CHIP_ERROR TryEncodeSingleAttributeDataIB(const ConcreteDataAttributePath & attributePath, const T & value)
	{
	chip::TLV::TLVWriter * writer = nullptr;

	ReturnErrorOnFailure(PrepareAttributeIB(attributePath));
	VerifyOrReturnError((writer = GetAttributeDataIBTLVWriter()) != nullptr, CHIP_ERROR_INCORRECT_STATE);
	ReturnErrorOnFailure(DataModel::Encode(*writer, chip::TLV::ContextTag(chip::app::AttributeDataIB::Tag::kData), value));
	ReturnErrorOnFailure(FinishAttributeIB());

	return CHIP_NO_ERROR;
	}

	template <class T, std::enable_if_t<DataModel::IsFabricScoped<T>::value, int> = 0>
	CHIP_ERROR TryEncodeSingleAttributeDataIB(const ConcreteDataAttributePath & attributePath, const T & value)
	{
	chip::TLV::TLVWriter * writer = nullptr;

	ReturnErrorOnFailure(PrepareAttributeIB(attributePath));
	VerifyOrReturnError((writer = GetAttributeDataIBTLVWriter()) != nullptr, CHIP_ERROR_INCORRECT_STATE);
	ReturnErrorOnFailure(
	DataModel::EncodeForWrite(*writer, chip::TLV::ContextTag(chip::app::AttributeDataIB::Tag::kData), value));
	ReturnErrorOnFailure(FinishAttributeIB());

	return CHIP_NO_ERROR;
	}

	/**
	* A wrapper for TryEncodeSingleAttributeDataIB which will start a new chunk when failed with CHIP_ERROR_NO_MEMORY or
	* CHIP_ERROR_BUFFER_TOO_SMALL.
	*/
	template <class T>
	CHIP_ERROR EncodeSingleAttributeDataIB(const ConcreteDataAttributePath & attributePath, const T & value)
	{
	TLV::TLVWriter backupWriter;

	mWriteRequestBuilder.GetWriteRequests().Checkpoint(backupWriter);

	// First attempt to write this attribute.
	CHIP_ERROR err = TryEncodeSingleAttributeDataIB(attributePath, value);
	if (err == CHIP_ERROR_NO_MEMORY \|\| err == CHIP_ERROR_BUFFER_TOO_SMALL)
	{
	// If it failed with no memory, then we create a new chunk for it.
	mWriteRequestBuilder.GetWriteRequests().Rollback(backupWriter);
	ReturnErrorOnFailure(StartNewMessage());
	ReturnErrorOnFailure(TryEncodeSingleAttributeDataIB(attributePath, value));
	}
	else
	{
	ReturnErrorOnFailure(err);
	}

	return CHIP_NO_ERROR;
	}

	/**
	* Encode a preencoded attribute data, returns TLV encode error if the ramaining space of current chunk is too small for the
	* AttributeDataIB.
	*/
	CHIP_ERROR TryPutSinglePreencodedAttributeWritePayload(const ConcreteDataAttributePath & attributePath,
	const TLV::TLVReader & data);

	/**
	* Encode a preencoded attribute data, will try to create a new chunk when necessary.
	*/
	CHIP_ERROR PutSinglePreencodedAttributeWritePayload(const ConcreteDataAttributePath & attributePath,
	const TLV::TLVReader & data);

	CHIP_ERROR EnsureMessage();

	/**
	* Called internally to signal the completion of all work on this object, gracefully close the
	* exchange (by calling into the base class) and finally, signal to the application that it's
	* safe to release this object.
	*/
	void Close();

	/**
	* This forcibly closes the exchange context if a valid one is pointed to. Such a situation does
	* not arise during normal message processing flows that all normally call Close() above. This can only
	* arise due to application-initiated destruction of the object when this object is handling receiving/sending
	* message payloads.
	*/
	void Abort();

	// Send our queued-up Write Request message. Assumes the exchange is ready
	// and mPendingWriteData is populated.
	CHIP_ERROR SendWriteRequest();

	// Encodes the header of an AttributeDataIB, a special case for attributePath is its EndpointId can be kInvalidEndpointId, this
	// is used when sending group write requests.
	// TODO(#14935) Update AttributePathParams to support more list operations.
	CHIP_ERROR PrepareAttributeIB(const ConcreteDataAttributePath & attributePath);
	CHIP_ERROR FinishAttributeIB();
	TLV::TLVWriter * GetAttributeDataIBTLVWriter();

	/**
	* Create a new message (or a new chunk) for the write request.
	*/
	CHIP_ERROR StartNewMessage();

	/**
	* Finalize Write Request Message TLV Builder and retrieve final data from tlv builder for later sending
	*/
	CHIP_ERROR FinalizeMessage(bool aHasMoreChunks);

	Messaging::ExchangeManager * mpExchangeMgr = nullptr;
	Messaging::ExchangeHolder mExchangeCtx;
	Callback * mpCallback = nullptr;
	State mState = State::Initialized;
	System::PacketBufferTLVWriter mMessageWriter;
	WriteRequestMessage::Builder mWriteRequestBuilder;
	// TODO Maybe we should change PacketBufferTLVWriter so we can finalize it
	// but have it hold on to the buffer, and get the buffer from it later.
	// Then we could avoid this extra pointer-sized member.
	System::PacketBufferHandle mPendingWriteData;
	// If mTimedWriteTimeoutMs has a value, we are expected to do a timed
	// write.
	Optional<uint16_t> mTimedWriteTimeoutMs;
	bool mSuppressResponse = false;

	// A list of buffers, one buffer for each chunk.
	System::PacketBufferHandle mChunks;

	// TODO: This file might be compiled with different build flags on Darwin platform (when building WriteClient.cpp and
	// CHIPClustersObjc.mm), which will cause undefined behavior when building write requests. Uncomment the #if and #endif after
	// resolving it.
	// #if CONFIG_BUILD_FOR_HOST_UNIT_TEST
	uint16_t mReservedSize = 0;
	// #endif

	/**
	* Below we define several const variables for encoding overheads.
	* WriteRequestMessage =
	* {
	* timedRequest = false,
	* AttributeDataIBs =
	* [
	* AttributeDataIB = \
	* { \|
	* DataVersion = 0x0, \|
	* AttributePathIB = \|
	* { \|
	* Endpoint = 0x2, \| "atomically" encoded via
	* Cluster = 0x50f, > EncodeAttribute or
	* Attribute = 0x0000_0006, \| PutPreencodedAttribute
	* ListIndex = Null, \|
	* } \|
	* Data = ... \|
	* }, /
	* (...)
	* ], <-- 1 byte "end of AttributeDataIB" (end of container)
	* moreChunkedMessages = false, <-- 2 bytes "kReservedSizeForMoreChunksFlag"
	* InteractionModelRevision = 1,<-- 3 bytes "kReservedSizeForIMRevision"
	* } <-- 1 byte "end of WriteRequestMessage" (end of container)
	*/

	// Reserved size for the MoreChunks boolean flag, which takes up 1 byte for the control tag and 1 byte for the context tag.
	static constexpr uint16_t kReservedSizeForMoreChunksFlag = 1 + 1;
	// End Of Container (0x18) uses one byte.
	static constexpr uint16_t kReservedSizeForEndOfContainer = 1;
	// Reserved size for the uint8_t InteractionModelRevision flag, which takes up 1 byte for the control tag and 1 byte for the
	// context tag, 1 byte for value
	static constexpr uint16_t kReservedSizeForIMRevision = 1 + 1 + 1;
	// Reserved buffer for TLV level overhead (the overhead for end of AttributeDataIBs (end of container), more chunks flag, end
	// of WriteRequestMessage (another end of container)).
	static constexpr uint16_t kReservedSizeForTLVEncodingOverhead = kReservedSizeForIMRevision + kReservedSizeForMoreChunksFlag +
	kReservedSizeForEndOfContainer + kReservedSizeForEndOfContainer;
	bool mHasDataVersion = false;
	};

	} // namespace app
	} // namespace chip