src/protocols/bdx/BdxTransferSession.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /**
  *    @file
  *      This file defines a TransferSession state machine that contains the main logic governing a Bulk Data Transfer session. It
  *      provides APIs for starting a transfer or preparing to receive a transfer request, providing input to be processed, and
  *      accessing output data (including messages to be sent, message data received by the TransferSession, or state information).
  */

 #pragma once

 #include <lib/core/CHIPError.h>
 #include <protocols/bdx/BdxMessages.h>
 #include <system/SystemPacketBuffer.h>
 #include <transport/raw/MessageHeader.h>

 #include <type_traits>

 namespace chip {
 namespace bdx {

 enum class TransferRole : uint8_t
 {
     kReceiver = 0,
     kSender   = 1,
 };

 class DLL_EXPORT TransferSession
 {
 public:
     enum class OutputEventType : uint16_t
     {
         kNone = 0,
         kMsgToSend,
         kInitReceived,
         kAcceptReceived,
         kBlockReceived,
         kQueryReceived,
         kQueryWithSkipReceived,
         kAckReceived,
         kAckEOFReceived,
         kStatusReceived,
         kInternalError,
         kTransferTimeout
     };

     struct TransferInitData
     {
         TransferControlFlags TransferCtlFlags;

         uint16_t MaxBlockSize = 0;
         uint64_t StartOffset  = 0;
         uint64_t Length       = 0;

         const uint8_t * FileDesignator = nullptr;
         uint16_t FileDesLength         = 0;

         // Additional metadata (optional, TLV format)
         const uint8_t * Metadata = nullptr;
         size_t MetadataLength    = 0;
     };

     struct TransferAcceptData
     {
         TransferControlFlags ControlMode;

         uint16_t MaxBlockSize = 0;
         uint64_t StartOffset  = 0; ///< Not used for SendAccept message
         uint64_t Length       = 0; ///< Not used for SendAccept message

         // Additional metadata (optional, TLV format)
         const uint8_t * Metadata = nullptr;
         size_t MetadataLength    = 0;
     };

     struct StatusReportData
     {
         StatusCode statusCode;
     };

     struct BlockData
     {
         const uint8_t * Data  = nullptr;
         size_t Length         = 0;
         bool IsEof            = false;
         uint32_t BlockCounter = 0;
     };

     struct MessageTypeData
     {
         Protocols::Id ProtocolId; // Should only ever be SecureChannel or BDX
         uint8_t MessageType;

         MessageTypeData() : ProtocolId(Protocols::NotSpecified), MessageType(0) {}

         bool HasProtocol(Protocols::Id protocol) const { return ProtocolId == protocol; }
         bool HasMessageType(uint8_t type) const { return MessageType == type; }
         template <typename TMessageType, typename = std::enable_if_t<std::is_enum<TMessageType>::value>>
         bool HasMessageType(TMessageType type) const
         {
             return HasProtocol(Protocols::MessageTypeTraits<TMessageType>::ProtocolId()) && HasMessageType(to_underlying(type));
         }
     };

     struct TransferSkipData
     {
         uint64_t BytesToSkip = 0;
     };

     /**
      * @brief
      *   All output data processed by the TransferSession object will be passed to the caller using this struct via PollOutput().
      *
      *   NOTE: Some sub-structs may contain pointers to data in a PacketBuffer (see Blockdata). In this case, the MsgData field MUST
      *   be populated with a PacketBufferHandle that encapsulates the respective PacketBuffer, in order to ensure valid memory
      *   access.
      *
      *   NOTE: MsgData can contain messages that have been received or messages that should be sent by the caller. The underlying
      *   buffer will always start at the data, never at the payload header. Outgoing messages do not have a header prepended.
      */
     struct OutputEvent
     {
         OutputEventType EventType;
         System::PacketBufferHandle MsgData;
         union
         {
             TransferInitData transferInitData;
             TransferAcceptData transferAcceptData;
             BlockData blockdata;
             StatusReportData statusData;
             MessageTypeData msgTypeData;
             TransferSkipData bytesToSkip;
         };

         OutputEvent() : EventType(OutputEventType::kNone) { statusData = { StatusCode::kUnknown }; }
         OutputEvent(OutputEventType type) : EventType(type) { statusData = { StatusCode::kUnknown }; }

         const char * ToString(OutputEventType outputEventType);

         static OutputEvent TransferInitEvent(TransferInitData data, System::PacketBufferHandle msg);
         static OutputEvent TransferAcceptEvent(TransferAcceptData data);
         static OutputEvent TransferAcceptEvent(TransferAcceptData data, System::PacketBufferHandle msg);
         static OutputEvent BlockDataEvent(BlockData data, System::PacketBufferHandle msg);
         static OutputEvent StatusReportEvent(OutputEventType type, StatusReportData data);
         static OutputEvent MsgToSendEvent(MessageTypeData typeData, System::PacketBufferHandle msg);
         static OutputEvent QueryWithSkipEvent(TransferSkipData bytesToSkip);
     };

     /**
      * @brief
      *   Indicates the presence of pending output and includes any data for the caller to take action on.
      *
      *   This method should be called frequently in order to be notified about any messages received. It should also be called after
      *   most other methods in order to notify the user of any message that needs to be sent, or errors that occurred internally.
      *
      *   It is possible that consecutive calls to this method may emit different outputs depending on the state of the
      *   TransferSession object.
      *
      *   Note that if the type outputted is kMsgToSend, the caller is expected to send the message immediately, and the session
      *   timeout timer will begin at curTime.
      *
      *   See OutputEventType for all possible output event types.
      *
      * @param event     Reference to an OutputEvent struct that will be filled out with any pending output data
      * @param curTime   Current time
      */
     void PollOutput(OutputEvent & event, System::Clock::Timestamp curTime);

     /**
      * @brief
      *   Initializes the TransferSession object and prepares a TransferInit message (emitted via PollOutput()).
      *
      *   A TransferSession object must be initialized with either StartTransfer() or WaitForTransfer().
      *
      * @param role      Inidcates whether this object will be sending or receiving data
      * @param initData  Data for initializing this object and for populating a TransferInit message
      *                  The role parameter will determine whether to populate a ReceiveInit or SendInit
      * @param timeout   The amount of time to wait for a response before considering the transfer failed
      *
      * @return CHIP_ERROR Result of initialization and preparation of a TransferInit message. May also indicate if the
      *                    TransferSession object is unable to handle this request.
      */
     CHIP_ERROR StartTransfer(TransferRole role, const TransferInitData & initData, System::Clock::Timeout timeout);

     /**
      * @brief
      *   Initialize the TransferSession object and prepare to receive a TransferInit message at some point.
      *
      *   A TransferSession object must be initialized with either StartTransfer() or WaitForTransfer().
      *
      * @param role            Inidcates whether this object will be sending or receiving data
      * @param xferControlOpts Indicates all supported control modes. Used to respond to a TransferInit message
      * @param maxBlockSize    The max Block size that this object supports.
      * @param timeout         The amount of time to wait for a response before considering the transfer failed
      *
      * @return CHIP_ERROR Result of initialization. May also indicate if the TransferSession object is unable to handle this
      *                    request.
      */
     CHIP_ERROR WaitForTransfer(TransferRole role, BitFlags<TransferControlFlags> xferControlOpts, uint16_t maxBlockSize,
                                System::Clock::Timeout timeout);

     /**
      * @brief
      *   Indicate that all transfer parameters are acceptable and prepare a SendAccept or ReceiveAccept message (depending on role).
      *
      * @param acceptData Data used to populate an Accept message (some fields may differ from the original Init message)
      *
      * @return CHIP_ERROR Result of preparation of an Accept message. May also indicate if the TransferSession object is unable to
      *                    handle this request.
      */
     CHIP_ERROR AcceptTransfer(const TransferAcceptData & acceptData);

     /**
      * @brief
      *   Reject a TransferInit message. Use Reset() to prepare this object for another transfer.
      *
      * @param reason A StatusCode indicating the reason for rejecting the transfer
      *
      * @return CHIP_ERROR The result of the preparation of a StatusReport message. May also indicate if the TransferSession object
      *                    is unable to handle this request.
      */
     CHIP_ERROR RejectTransfer(StatusCode reason);

     /**
      * @brief
      *   Prepare a BlockQuery message. The Block counter will be populated automatically.
      *
      * @return CHIP_ERROR The result of the preparation of a BlockQuery message. May also indicate if the TransferSession object
      *                    is unable to handle this request.
      */
     CHIP_ERROR PrepareBlockQuery();

     /**
      * @brief
      *   Prepare a BlockQueryWithSkip message. The Block counter will be populated automatically.
      *
      * @param bytesToSkip Number of bytes to seek skip
      *
      * @return CHIP_ERROR The result of the preparation of a BlockQueryWithSkip message. May also indicate if the TransferSession
      * object is unable to handle this request.
      */
     CHIP_ERROR PrepareBlockQueryWithSkip(const uint64_t & bytesToSkip);

     /**
      * @brief
      *   Prepare a Block message. The Block counter will be populated automatically.
      *
      * @param inData Contains data for filling out the Block message
      *
      * @return CHIP_ERROR The result of the preparation of a Block message. May also indicate if the TransferSession object
      *                    is unable to handle this request.
      */
     CHIP_ERROR PrepareBlock(const BlockData & inData);

     /**
      * @brief
      *   Prepare a BlockAck message. The Block counter will be populated automatically.
      *
      * @return CHIP_ERROR The result of the preparation of a BlockAck message. May also indicate if the TransferSession object
      *                    is unable to handle this request.
      */
     CHIP_ERROR PrepareBlockAck();

     /**
      * @brief
      *   Prematurely end a transfer with a StatusReport. Must still call Reset() to prepare the TransferSession for another
      *   transfer.
      *
      * @param reason The StatusCode reason for ending the transfer.
      *
      * @return CHIP_ERROR May return an error if there is no transfer in progress.
      */
     CHIP_ERROR AbortTransfer(StatusCode reason);

     /**
      * @brief
      *   Reset all TransferSession parameters. The TransferSession object must then be re-initialized with StartTransfer() or
      *   WaitForTransfer().
      */
     void Reset();

     /**
      * @brief
      *   Process a message intended for this TransferSession object.
      *
      * @param payloadHeader A PayloadHeader containing the Protocol type and Message Type
      * @param msg           A PacketBufferHandle pointing to the message buffer to process. May be BDX or StatusReport protocol.
      *                      Buffer is expected to start at data (not header).
      * @param curTime       Current time
      *
      * @return CHIP_ERROR Indicates any problems in decoding the message, or if the message is not of the BDX or StatusReport
      *                    protocols.
      */
     CHIP_ERROR HandleMessageReceived(const PayloadHeader & payloadHeader, System::PacketBufferHandle msg,
                                      System::Clock::Timestamp curTime);

     TransferControlFlags GetControlMode() const { return mControlMode; }
     uint64_t GetStartOffset() const { return mStartOffset; }
     uint64_t GetTransferLength() const { return mTransferLength; }
     uint16_t GetTransferBlockSize() const { return mTransferMaxBlockSize; }
     uint32_t GetNextBlockNum() const { return mNextBlockNum; }
     uint32_t GetNextQueryNum() const { return mNextQueryNum; }
     size_t GetNumBytesProcessed() const { return mNumBytesProcessed; }
     const uint8_t * GetFileDesignator(uint16_t & fileDesignatorLen) const
     {
         fileDesignatorLen = mTransferRequestData.FileDesLength;
         return mTransferRequestData.FileDesignator;
     }

     TransferSession();

 private:
     enum class TransferState : uint8_t
     {
         kUnitialized,
         kAwaitingInitMsg,
         kAwaitingAccept,
         kNegotiateTransferParams,
         kTransferInProgress,
         kAwaitingEOFAck,
         kReceivedEOF,
         kTransferDone,
         kErrorState,
     };

     // Incoming message handlers
     CHIP_ERROR HandleBdxMessage(const PayloadHeader & header, System::PacketBufferHandle msg);
     CHIP_ERROR HandleStatusReportMessage(const PayloadHeader & header, System::PacketBufferHandle msg);
     void HandleTransferInit(MessageType msgType, System::PacketBufferHandle msgData);
     void HandleReceiveAccept(System::PacketBufferHandle msgData);
     void HandleSendAccept(System::PacketBufferHandle msgData);
     void HandleBlockQuery(System::PacketBufferHandle msgData);
     void HandleBlockQueryWithSkip(System::PacketBufferHandle msgData);
     void HandleBlock(System::PacketBufferHandle msgData);
     void HandleBlockEOF(System::PacketBufferHandle msgData);
     void HandleBlockAck(System::PacketBufferHandle msgData);
     void HandleBlockAckEOF(System::PacketBufferHandle msgData);

     /**
      * @brief
      *   Used when handling a TransferInit message. Determines if there are any compatible Transfer control modes between the two
      *   transfer peers.
      */
     void ResolveTransferControlOptions(const BitFlags<TransferControlFlags> & proposed);

     /**
      * @brief
      *   Used when handling an Accept message. Verifies that the chosen control mode is compatible with the orignal supported modes.
      */
     CHIP_ERROR VerifyProposedMode(const BitFlags<TransferControlFlags> & proposed);

     void PrepareStatusReport(StatusCode code);
     bool IsTransferLengthDefinite() const;

     OutputEventType mPendingOutput = OutputEventType::kNone;
     TransferState mState           = TransferState::kUnitialized;
     TransferRole mRole;

     // Indicate supported options pre- transfer accept
     BitFlags<TransferControlFlags> mSuppportedXferOpts;
     uint16_t mMaxSupportedBlockSize = 0;

     // Used to govern transfer once it has been accepted
     TransferControlFlags mControlMode;
     uint8_t mTransferVersion       = 0;
     uint64_t mStartOffset          = 0; ///< 0 represents no offset
     uint64_t mTransferLength       = 0; ///< 0 represents indefinite length
     uint16_t mTransferMaxBlockSize = 0;

     // Used to store event data before it is emitted via PollOutput()
     System::PacketBufferHandle mPendingMsgHandle;
     StatusReportData mStatusReportData;
     TransferInitData mTransferRequestData;
     TransferAcceptData mTransferAcceptData;
     BlockData mBlockEventData;
     MessageTypeData mMsgTypeData;
     TransferSkipData mBytesToSkip;

     size_t mNumBytesProcessed = 0;

     uint32_t mLastBlockNum = 0;
     uint32_t mNextBlockNum = 0;
     uint32_t mLastQueryNum = 0;
     uint32_t mNextQueryNum = 0;

     System::Clock::Timeout mTimeout            = System::Clock::kZero;
     System::Clock::Timestamp mTimeoutStartTime = System::Clock::kZero;
     bool mShouldInitTimeoutStart               = true;
     bool mAwaitingResponse                     = false;
 };

 } // namespace bdx
 } // namespace chip
	/**
	* @file
	* This file defines a TransferSession state machine that contains the main logic governing a Bulk Data Transfer session. It
	* provides APIs for starting a transfer or preparing to receive a transfer request, providing input to be processed, and
	* accessing output data (including messages to be sent, message data received by the TransferSession, or state information).
	*/

	#pragma once

	#include <lib/core/CHIPError.h>
	#include <protocols/bdx/BdxMessages.h>
	#include <system/SystemPacketBuffer.h>
	#include <transport/raw/MessageHeader.h>

	#include <type_traits>

	namespace chip {
	namespace bdx {

	enum class TransferRole : uint8_t
	{
	kReceiver = 0,
	kSender = 1,
	};

	class DLL_EXPORT TransferSession
	{
	public:
	enum class OutputEventType : uint16_t
	{
	kNone = 0,
	kMsgToSend,
	kInitReceived,
	kAcceptReceived,
	kBlockReceived,
	kQueryReceived,
	kQueryWithSkipReceived,
	kAckReceived,
	kAckEOFReceived,
	kStatusReceived,
	kInternalError,
	kTransferTimeout
	};

	struct TransferInitData
	{
	TransferControlFlags TransferCtlFlags;

	uint16_t MaxBlockSize = 0;
	uint64_t StartOffset = 0;
	uint64_t Length = 0;

	const uint8_t * FileDesignator = nullptr;
	uint16_t FileDesLength = 0;

	// Additional metadata (optional, TLV format)
	const uint8_t * Metadata = nullptr;
	size_t MetadataLength = 0;
	};

	struct TransferAcceptData
	{
	TransferControlFlags ControlMode;

	uint16_t MaxBlockSize = 0;
	uint64_t StartOffset = 0; ///< Not used for SendAccept message
	uint64_t Length = 0; ///< Not used for SendAccept message

	// Additional metadata (optional, TLV format)
	const uint8_t * Metadata = nullptr;
	size_t MetadataLength = 0;
	};

	struct StatusReportData
	{
	StatusCode statusCode;
	};

	struct BlockData
	{
	const uint8_t * Data = nullptr;
	size_t Length = 0;
	bool IsEof = false;
	uint32_t BlockCounter = 0;
	};

	struct MessageTypeData
	{
	Protocols::Id ProtocolId; // Should only ever be SecureChannel or BDX
	uint8_t MessageType;

	MessageTypeData() : ProtocolId(Protocols::NotSpecified), MessageType(0) {}

	bool HasProtocol(Protocols::Id protocol) const { return ProtocolId == protocol; }
	bool HasMessageType(uint8_t type) const { return MessageType == type; }
	template <typename TMessageType, typename = std::enable_if_t<std::is_enum<TMessageType>::value>>
	bool HasMessageType(TMessageType type) const
	{
	return HasProtocol(Protocols::MessageTypeTraits<TMessageType>::ProtocolId()) && HasMessageType(to_underlying(type));
	}
	};

	struct TransferSkipData
	{
	uint64_t BytesToSkip = 0;
	};

	/**
	* @brief
	* All output data processed by the TransferSession object will be passed to the caller using this struct via PollOutput().
	*
	* NOTE: Some sub-structs may contain pointers to data in a PacketBuffer (see Blockdata). In this case, the MsgData field MUST
	* be populated with a PacketBufferHandle that encapsulates the respective PacketBuffer, in order to ensure valid memory
	* access.
	*
	* NOTE: MsgData can contain messages that have been received or messages that should be sent by the caller. The underlying
	* buffer will always start at the data, never at the payload header. Outgoing messages do not have a header prepended.
	*/
	struct OutputEvent
	{
	OutputEventType EventType;
	System::PacketBufferHandle MsgData;
	union
	{
	TransferInitData transferInitData;
	TransferAcceptData transferAcceptData;
	BlockData blockdata;
	StatusReportData statusData;
	MessageTypeData msgTypeData;
	TransferSkipData bytesToSkip;
	};

	OutputEvent() : EventType(OutputEventType::kNone) { statusData = { StatusCode::kUnknown }; }
	OutputEvent(OutputEventType type) : EventType(type) { statusData = { StatusCode::kUnknown }; }

	const char * ToString(OutputEventType outputEventType);

	static OutputEvent TransferInitEvent(TransferInitData data, System::PacketBufferHandle msg);
	static OutputEvent TransferAcceptEvent(TransferAcceptData data);
	static OutputEvent TransferAcceptEvent(TransferAcceptData data, System::PacketBufferHandle msg);
	static OutputEvent BlockDataEvent(BlockData data, System::PacketBufferHandle msg);
	static OutputEvent StatusReportEvent(OutputEventType type, StatusReportData data);
	static OutputEvent MsgToSendEvent(MessageTypeData typeData, System::PacketBufferHandle msg);
	static OutputEvent QueryWithSkipEvent(TransferSkipData bytesToSkip);
	};

	/**
	* @brief
	* Indicates the presence of pending output and includes any data for the caller to take action on.
	*
	* This method should be called frequently in order to be notified about any messages received. It should also be called after
	* most other methods in order to notify the user of any message that needs to be sent, or errors that occurred internally.
	*
	* It is possible that consecutive calls to this method may emit different outputs depending on the state of the
	* TransferSession object.
	*
	* Note that if the type outputted is kMsgToSend, the caller is expected to send the message immediately, and the session
	* timeout timer will begin at curTime.
	*
	* See OutputEventType for all possible output event types.
	*
	* @param event Reference to an OutputEvent struct that will be filled out with any pending output data
	* @param curTime Current time
	*/
	void PollOutput(OutputEvent & event, System::Clock::Timestamp curTime);

	/**
	* @brief
	* Initializes the TransferSession object and prepares a TransferInit message (emitted via PollOutput()).
	*
	* A TransferSession object must be initialized with either StartTransfer() or WaitForTransfer().
	*
	* @param role Inidcates whether this object will be sending or receiving data
	* @param initData Data for initializing this object and for populating a TransferInit message
	* The role parameter will determine whether to populate a ReceiveInit or SendInit
	* @param timeout The amount of time to wait for a response before considering the transfer failed
	*
	* @return CHIP_ERROR Result of initialization and preparation of a TransferInit message. May also indicate if the
	* TransferSession object is unable to handle this request.
	*/
	CHIP_ERROR StartTransfer(TransferRole role, const TransferInitData & initData, System::Clock::Timeout timeout);

	/**
	* @brief
	* Initialize the TransferSession object and prepare to receive a TransferInit message at some point.
	*
	* A TransferSession object must be initialized with either StartTransfer() or WaitForTransfer().
	*
	* @param role Inidcates whether this object will be sending or receiving data
	* @param xferControlOpts Indicates all supported control modes. Used to respond to a TransferInit message
	* @param maxBlockSize The max Block size that this object supports.
	* @param timeout The amount of time to wait for a response before considering the transfer failed
	*
	* @return CHIP_ERROR Result of initialization. May also indicate if the TransferSession object is unable to handle this
	* request.
	*/
	CHIP_ERROR WaitForTransfer(TransferRole role, BitFlags<TransferControlFlags> xferControlOpts, uint16_t maxBlockSize,
	System::Clock::Timeout timeout);

	/**
	* @brief
	* Indicate that all transfer parameters are acceptable and prepare a SendAccept or ReceiveAccept message (depending on role).
	*
	* @param acceptData Data used to populate an Accept message (some fields may differ from the original Init message)
	*
	* @return CHIP_ERROR Result of preparation of an Accept message. May also indicate if the TransferSession object is unable to
	* handle this request.
	*/
	CHIP_ERROR AcceptTransfer(const TransferAcceptData & acceptData);

	/**
	* @brief
	* Reject a TransferInit message. Use Reset() to prepare this object for another transfer.
	*
	* @param reason A StatusCode indicating the reason for rejecting the transfer
	*
	* @return CHIP_ERROR The result of the preparation of a StatusReport message. May also indicate if the TransferSession object
	* is unable to handle this request.
	*/
	CHIP_ERROR RejectTransfer(StatusCode reason);

	/**
	* @brief
	* Prepare a BlockQuery message. The Block counter will be populated automatically.
	*
	* @return CHIP_ERROR The result of the preparation of a BlockQuery message. May also indicate if the TransferSession object
	* is unable to handle this request.
	*/
	CHIP_ERROR PrepareBlockQuery();

	/**
	* @brief
	* Prepare a BlockQueryWithSkip message. The Block counter will be populated automatically.
	*
	* @param bytesToSkip Number of bytes to seek skip
	*
	* @return CHIP_ERROR The result of the preparation of a BlockQueryWithSkip message. May also indicate if the TransferSession
	* object is unable to handle this request.
	*/
	CHIP_ERROR PrepareBlockQueryWithSkip(const uint64_t & bytesToSkip);

	/**
	* @brief
	* Prepare a Block message. The Block counter will be populated automatically.
	*
	* @param inData Contains data for filling out the Block message
	*
	* @return CHIP_ERROR The result of the preparation of a Block message. May also indicate if the TransferSession object
	* is unable to handle this request.
	*/
	CHIP_ERROR PrepareBlock(const BlockData & inData);

	/**
	* @brief
	* Prepare a BlockAck message. The Block counter will be populated automatically.
	*
	* @return CHIP_ERROR The result of the preparation of a BlockAck message. May also indicate if the TransferSession object
	* is unable to handle this request.
	*/
	CHIP_ERROR PrepareBlockAck();

	/**
	* @brief
	* Prematurely end a transfer with a StatusReport. Must still call Reset() to prepare the TransferSession for another
	* transfer.
	*
	* @param reason The StatusCode reason for ending the transfer.
	*
	* @return CHIP_ERROR May return an error if there is no transfer in progress.
	*/
	CHIP_ERROR AbortTransfer(StatusCode reason);

	/**
	* @brief
	* Reset all TransferSession parameters. The TransferSession object must then be re-initialized with StartTransfer() or
	* WaitForTransfer().
	*/
	void Reset();

	/**
	* @brief
	* Process a message intended for this TransferSession object.
	*
	* @param payloadHeader A PayloadHeader containing the Protocol type and Message Type
	* @param msg A PacketBufferHandle pointing to the message buffer to process. May be BDX or StatusReport protocol.
	* Buffer is expected to start at data (not header).
	* @param curTime Current time
	*
	* @return CHIP_ERROR Indicates any problems in decoding the message, or if the message is not of the BDX or StatusReport
	* protocols.
	*/
	CHIP_ERROR HandleMessageReceived(const PayloadHeader & payloadHeader, System::PacketBufferHandle msg,
	System::Clock::Timestamp curTime);

	TransferControlFlags GetControlMode() const { return mControlMode; }
	uint64_t GetStartOffset() const { return mStartOffset; }
	uint64_t GetTransferLength() const { return mTransferLength; }
	uint16_t GetTransferBlockSize() const { return mTransferMaxBlockSize; }
	uint32_t GetNextBlockNum() const { return mNextBlockNum; }
	uint32_t GetNextQueryNum() const { return mNextQueryNum; }
	size_t GetNumBytesProcessed() const { return mNumBytesProcessed; }
	const uint8_t * GetFileDesignator(uint16_t & fileDesignatorLen) const
	{
	fileDesignatorLen = mTransferRequestData.FileDesLength;
	return mTransferRequestData.FileDesignator;
	}

	TransferSession();

	private:
	enum class TransferState : uint8_t
	{
	kUnitialized,
	kAwaitingInitMsg,
	kAwaitingAccept,
	kNegotiateTransferParams,
	kTransferInProgress,
	kAwaitingEOFAck,
	kReceivedEOF,
	kTransferDone,
	kErrorState,
	};

	// Incoming message handlers
	CHIP_ERROR HandleBdxMessage(const PayloadHeader & header, System::PacketBufferHandle msg);
	CHIP_ERROR HandleStatusReportMessage(const PayloadHeader & header, System::PacketBufferHandle msg);
	void HandleTransferInit(MessageType msgType, System::PacketBufferHandle msgData);
	void HandleReceiveAccept(System::PacketBufferHandle msgData);
	void HandleSendAccept(System::PacketBufferHandle msgData);
	void HandleBlockQuery(System::PacketBufferHandle msgData);
	void HandleBlockQueryWithSkip(System::PacketBufferHandle msgData);
	void HandleBlock(System::PacketBufferHandle msgData);
	void HandleBlockEOF(System::PacketBufferHandle msgData);
	void HandleBlockAck(System::PacketBufferHandle msgData);
	void HandleBlockAckEOF(System::PacketBufferHandle msgData);

	/**
	* @brief
	* Used when handling a TransferInit message. Determines if there are any compatible Transfer control modes between the two
	* transfer peers.
	*/
	void ResolveTransferControlOptions(const BitFlags<TransferControlFlags> & proposed);

	/**
	* @brief
	* Used when handling an Accept message. Verifies that the chosen control mode is compatible with the orignal supported modes.
	*/
	CHIP_ERROR VerifyProposedMode(const BitFlags<TransferControlFlags> & proposed);

	void PrepareStatusReport(StatusCode code);
	bool IsTransferLengthDefinite() const;

	OutputEventType mPendingOutput = OutputEventType::kNone;
	TransferState mState = TransferState::kUnitialized;
	TransferRole mRole;

	// Indicate supported options pre- transfer accept
	BitFlags<TransferControlFlags> mSuppportedXferOpts;
	uint16_t mMaxSupportedBlockSize = 0;

	// Used to govern transfer once it has been accepted
	TransferControlFlags mControlMode;
	uint8_t mTransferVersion = 0;
	uint64_t mStartOffset = 0; ///< 0 represents no offset
	uint64_t mTransferLength = 0; ///< 0 represents indefinite length
	uint16_t mTransferMaxBlockSize = 0;

	// Used to store event data before it is emitted via PollOutput()
	System::PacketBufferHandle mPendingMsgHandle;
	StatusReportData mStatusReportData;
	TransferInitData mTransferRequestData;
	TransferAcceptData mTransferAcceptData;
	BlockData mBlockEventData;
	MessageTypeData mMsgTypeData;
	TransferSkipData mBytesToSkip;

	size_t mNumBytesProcessed = 0;

	uint32_t mLastBlockNum = 0;
	uint32_t mNextBlockNum = 0;
	uint32_t mLastQueryNum = 0;
	uint32_t mNextQueryNum = 0;

	System::Clock::Timeout mTimeout = System::Clock::kZero;
	System::Clock::Timestamp mTimeoutStartTime = System::Clock::kZero;
	bool mShouldInitTimeoutStart = true;
	bool mAwaitingResponse = false;
	};

	} // namespace bdx
	} // namespace chip