src/messaging/ExchangeContext.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2020-2021 Project CHIP Authors
  *
  *    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 defines the classes corresponding to CHIP Exchange Context.
  *
  */

 #pragma once

 #include <lib/core/ReferenceCounted.h>
 #include <lib/support/BitFlags.h>
 #include <lib/support/DLLUtil.h>
 #include <lib/support/ReferenceCountedHandle.h>
 #include <lib/support/TypeTraits.h>
 #include <messaging/ExchangeDelegate.h>
 #include <messaging/Flags.h>
 #include <messaging/ReliableMessageContext.h>
 #include <protocols/Protocols.h>
 #include <transport/SessionManager.h>

 namespace chip {

 namespace Messaging {

 class ExchangeManager;
 class ExchangeContext;
 class ExchangeMessageDispatch;
 using ExchangeHandle = ReferenceCountedHandle<ExchangeContext>;

 class ExchangeContextDeletor
 {
 public:
     static void Release(ExchangeContext * obj);
 };

 /**
  *  @brief
  *    This class represents an ongoing conversation (ExchangeContext) between two or more nodes.
  *    It defines methods for encoding and communicating CHIP messages within an ExchangeContext
  *    over various transport mechanisms, for example, TCP, UDP, or CHIP Reliable Messaging.
  *
  */
 class DLL_EXPORT ExchangeContext : public ReliableMessageContext,
                                    public ReferenceCounted<ExchangeContext, ExchangeContextDeletor>,
                                    public SessionDelegate
 {
     friend class ExchangeManager;
     friend class ExchangeContextDeletor;

 public:
     typedef System::Clock::Timeout Timeout; // Type used to express the timeout in this ExchangeContext

     ExchangeContext(ExchangeManager * em, uint16_t ExchangeId, const SessionHandle & session, bool Initiator,
                     ExchangeDelegate * delegate, bool isEphemeralExchange = false);

     ~ExchangeContext() override;

     /**
      *  Determine whether the context is the initiator of the exchange.
      *
      *  @return Returns 'true' if it is the initiator, else 'false'.
      */
     bool IsInitiator() const;

     bool IsEncryptionRequired() const { return mDispatch.IsEncryptionRequired(); }

     bool IsGroupExchangeContext() const { return mSession && mSession->IsGroupSession(); }

     // Implement SessionDelegate
     NewSessionHandlingPolicy GetNewSessionHandlingPolicy() override { return NewSessionHandlingPolicy::kStayAtOldSession; }
     void OnSessionReleased() override;

 #if INET_CONFIG_ENABLE_TCP_ENDPOINT
     void OnSessionConnectionClosed(CHIP_ERROR conErr) override;
 #endif // INET_CONFIG_ENABLE_TCP_ENDPOINT
     /**
      *  Send a CHIP message on this exchange.
      *
      *  If SendMessage returns success and the message was not expecting a
      *  response, the exchange will close itself before returning, unless the
      *  message being sent is a standalone ack.  If SendMessage returns failure,
      *  the caller is responsible for deciding what to do (e.g. closing the
      *  exchange, trying to re-establish a secure session, etc).
      *
      *  @param[in]    protocolId    The protocol identifier of the CHIP message to be sent.
      *
      *  @param[in]    msgType       The message type of the corresponding protocol.
      *
      *  @param[in]    msgPayload    A handle to the packet buffer holding the CHIP message.
      *
      *  @param[in]    sendFlags     Flags set by the application for the CHIP message being sent.
      *
      *  @retval  #CHIP_ERROR_INVALID_ARGUMENT               if an invalid argument was passed to this SendMessage API.
      *  @retval  #CHIP_ERROR_NOT_CONNECTED                  if the context was associated with a connection that is now
      *                                                       closed.
      *  @retval  #CHIP_ERROR_INCORRECT_STATE                if the state of the exchange context is incorrect.
      *  @retval  #CHIP_NO_ERROR                             if the CHIP layer successfully sent the message down to the
      *                                                       network layer.
      */
     CHIP_ERROR SendMessage(Protocols::Id protocolId, uint8_t msgType, System::PacketBufferHandle && msgPayload,
                            const SendFlags & sendFlags = SendFlags(SendMessageFlags::kNone));

     /**
      * A strongly-message-typed version of SendMessage.
      */
     template <typename MessageType, typename = std::enable_if_t<std::is_enum<MessageType>::value>>
     CHIP_ERROR SendMessage(MessageType msgType, System::PacketBufferHandle && msgPayload,
                            const SendFlags & sendFlags = SendFlags(SendMessageFlags::kNone))
     {
         return SendMessage(Protocols::MessageTypeTraits<MessageType>::ProtocolId(), to_underlying(msgType), std::move(msgPayload),
                            sendFlags);
     }

     /**
      * A notification that we will have SendMessage called on us in the future
      * (and should stay open until that happens).
      */
     void WillSendMessage() { mFlags.Set(Flags::kFlagWillSendMessage); }

     /**
      *  Handle a received CHIP message on this exchange.
      *
      *  @param[in]    messageCounter  The message counter of the packet.
      *  @param[in]    payloadHeader   A reference to the PayloadHeader object.
      *  @param[in]    msgFlags        The message flags corresponding to the received message
      *  @param[in]    msgBuf          A handle to the packet buffer holding the CHIP message.
      *
      *  @retval  #CHIP_ERROR_INVALID_ARGUMENT               if an invalid argument was passed to this HandleMessage API.
      *  @retval  #CHIP_ERROR_INCORRECT_STATE                if the state of the exchange context is incorrect.
      *  @retval  #CHIP_NO_ERROR                             if the CHIP layer successfully delivered the message up to the
      *                                                       protocol layer.
      */
     CHIP_ERROR HandleMessage(uint32_t messageCounter, const PayloadHeader & payloadHeader, MessageFlags msgFlags,
                              System::PacketBufferHandle && msgBuf);

     ExchangeDelegate * GetDelegate() const { return mDelegate; }
     void SetDelegate(ExchangeDelegate * delegate) { mDelegate = delegate; }

     ExchangeManager * GetExchangeMgr() const { return mExchangeMgr; }

     ReliableMessageContext * GetReliableMessageContext() { return static_cast<ReliableMessageContext *>(this); };

     SessionHandle GetSessionHandle() const
     {
         VerifyOrDie(mSession);
         auto sessionHandle = mSession.Get();
         return std::move(sessionHandle.Value());
     }

     bool HasSessionHandle() const { return mSession; }

     uint16_t GetExchangeId() const { return mExchangeId; }

     /*
      * In order to use reference counting (see refCount below) we use a hold/free paradigm where users of the exchange
      * can hold onto it while it's out of their direct control to make sure it isn't closed before everyone's ready.
      * A customized version of reference counting is used since there are some extra stuff to do within Release.
      */
     void Close();
     void Abort();

     // Applies a suggested response timeout value based on the session type and the given upper layer processing time for
     // the next message to the exchange. The exchange context must have a valid session when calling this function.
     //
     // This function is an equivalent of SetResponseTimeout(mSession->ComputeRoundTripTimeout(applicationProcessingTimeout))
     void UseSuggestedResponseTimeout(Timeout applicationProcessingTimeout);

     // Set the response timeout for the exchange context, regardless of the underlying session type. Using
     // UseSuggestedResponseTimeout to set a timeout based on the type of the session and the application processing time instead of
     // using this function is recommended.
     //
     // If a timeout of 0 is provided, it implies no response is expected. Consequently, ExchangeDelegate::OnResponseTimeout will not
     // be called.
     //
     void SetResponseTimeout(Timeout timeout);

     // This API is used by commands that need to shut down all existing
     // sessions/exchanges on a fabric but need to make sure the response to the
     // command still goes out on the exchange the command came in on.  This API
     // will ensure that all secure sessions for the fabric this exchanges is on
     // are released except the one this exchange is using, and will release
     // that session once this exchange is done sending the response.
     //
     // This API is a no-op if called on an exchange that is not using a
     // SecureSession.
     void AbortAllOtherCommunicationOnFabric();

     /**
      *  Determine whether a response is currently expected for a message that was sent over
      *  this exchange.  While this is true, attempts to send other messages that expect a response
      *  will fail.
      *
      *  @return Returns 'true' if response expected, else 'false'.
      */
     bool IsResponseExpected() const;

     /**
      * Determine whether we are expecting our consumer to send a message on
      * this exchange (i.e. WillSendMessage was called and the message has not
      * yet been sent).
      */
     bool IsSendExpected() const { return mFlags.Has(Flags::kFlagWillSendMessage); }

     /**
      * Tracks whether we have received at least one application level message
      * during the life-time of this exchange
      *
      * @return Returns 'true' if we have received at least one message, else 'false'
      */
     inline bool HasReceivedAtLeastOneMessage() { return mFlags.Has(Flags::kFlagReceivedAtLeastOneMessage); }

 #if CONFIG_BUILD_FOR_HOST_UNIT_TEST
     SessionHolder & GetSessionHolder() { return mSession; }

     enum class InjectedFailureType : uint8_t
     {
         kFailOnSend = 0x01
     };

     void InjectFailure(InjectedFailureType failureType) { mInjectedFailures.Set(failureType); }

     void ClearInjectedFailures() { mInjectedFailures.ClearAll(); }
 #endif

 private:
 #if CONFIG_BUILD_FOR_HOST_UNIT_TEST
     BitFlags<InjectedFailureType> mInjectedFailures;
 #endif

     class ExchangeSessionHolder : public SessionHolderWithDelegate
     {
     public:
         ExchangeSessionHolder(ExchangeContext & exchange) : SessionHolderWithDelegate(exchange) {}
         void GrabExpiredSession(const SessionHandle & session);
     };

     Timeout mResponseTimeout{ 0 }; // Maximum time to wait for response (in milliseconds); 0 disables response timeout.
     ExchangeDelegate * mDelegate   = nullptr;
     ExchangeManager * mExchangeMgr = nullptr;

     ExchangeMessageDispatch & mDispatch;

     ExchangeSessionHolder mSession; // The connection state
     uint16_t mExchangeId;           // Assigned exchange ID.

     /**
      *  Track whether we are now expecting a response to a message sent via this exchange (because that
      *  message had the kExpectResponse flag set in its sendFlags).
      *
      *  @param[in]  inResponseExpected  A Boolean indicating whether (true) or not
      *                                  (false) a response is currently expected on this
      *                                  exchange.
      */
     void SetResponseExpected(bool inResponseExpected);

     /**
      *  Search for an existing exchange that the message applies to.
      *
      *  @param[in]    session       The secure session of the received message.
      *
      *  @param[in]    packetHeader  A reference to the PacketHeader object.
      *
      *  @param[in]    payloadHeader A reference to the PayloadHeader object.
      *
      *  @retval  true                                       If a match is found.
      *  @retval  false                                      If a match is not found.
      */
     bool MatchExchange(const SessionHandle & session, const PacketHeader & packetHeader, const PayloadHeader & payloadHeader);

     /**
      * Notify our delegate, if any, that we have timed out waiting for a
      * response.  If aCloseIfNeeded is true, check whether the exchange needs to
      * be closed.
      */
     void NotifyResponseTimeout(bool aCloseIfNeeded);

     CHIP_ERROR StartResponseTimer();

     void CancelResponseTimer();
     static void HandleResponseTimeout(System::Layer * aSystemLayer, void * aAppState);

     void DoClose(bool clearRetransTable);

     /**
      * We have handled an application-level message in some way and should
      * re-evaluate out state to see whether we should still be open.
      */
     void MessageHandled();

     static ExchangeMessageDispatch & GetMessageDispatch(bool isEphemeralExchange, ExchangeDelegate * delegate);

     // If SetAutoReleaseSession() is called, this exchange must be using a SecureSession, and should
     // evict it when the exchange is done with all its work (including any MRP traffic).
     inline void SetIgnoreSessionRelease(bool ignore) { mFlags.Set(Flags::kFlagIgnoreSessionRelease, ignore); }

     inline bool ShouldIgnoreSessionRelease() { return mFlags.Has(Flags::kFlagIgnoreSessionRelease); }

     inline void SetHasReceivedAtLeastOneMessage(bool hasReceivedMessage)
     {
         mFlags.Set(Flags::kFlagReceivedAtLeastOneMessage, hasReceivedMessage);
     }
 };

 } // namespace Messaging
 } // namespace chip
	/*
	*
	* Copyright (c) 2020-2021 Project CHIP Authors
	*
	* 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 defines the classes corresponding to CHIP Exchange Context.
	*
	*/

	#pragma once

	#include <lib/core/ReferenceCounted.h>
	#include <lib/support/BitFlags.h>
	#include <lib/support/DLLUtil.h>
	#include <lib/support/ReferenceCountedHandle.h>
	#include <lib/support/TypeTraits.h>
	#include <messaging/ExchangeDelegate.h>
	#include <messaging/Flags.h>
	#include <messaging/ReliableMessageContext.h>
	#include <protocols/Protocols.h>
	#include <transport/SessionManager.h>

	namespace chip {

	namespace Messaging {

	class ExchangeManager;
	class ExchangeContext;
	class ExchangeMessageDispatch;
	using ExchangeHandle = ReferenceCountedHandle<ExchangeContext>;

	class ExchangeContextDeletor
	{
	public:
	static void Release(ExchangeContext * obj);
	};

	/**
	* @brief
	* This class represents an ongoing conversation (ExchangeContext) between two or more nodes.
	* It defines methods for encoding and communicating CHIP messages within an ExchangeContext
	* over various transport mechanisms, for example, TCP, UDP, or CHIP Reliable Messaging.
	*
	*/
	class DLL_EXPORT ExchangeContext : public ReliableMessageContext,
	public ReferenceCounted<ExchangeContext, ExchangeContextDeletor>,
	public SessionDelegate
	{
	friend class ExchangeManager;
	friend class ExchangeContextDeletor;

	public:
	typedef System::Clock::Timeout Timeout; // Type used to express the timeout in this ExchangeContext

	ExchangeContext(ExchangeManager * em, uint16_t ExchangeId, const SessionHandle & session, bool Initiator,
	ExchangeDelegate * delegate, bool isEphemeralExchange = false);

	~ExchangeContext() override;

	/**
	* Determine whether the context is the initiator of the exchange.
	*
	* @return Returns 'true' if it is the initiator, else 'false'.
	*/
	bool IsInitiator() const;

	bool IsEncryptionRequired() const { return mDispatch.IsEncryptionRequired(); }

	bool IsGroupExchangeContext() const { return mSession && mSession->IsGroupSession(); }

	// Implement SessionDelegate
	NewSessionHandlingPolicy GetNewSessionHandlingPolicy() override { return NewSessionHandlingPolicy::kStayAtOldSession; }
	void OnSessionReleased() override;

	#if INET_CONFIG_ENABLE_TCP_ENDPOINT
	void OnSessionConnectionClosed(CHIP_ERROR conErr) override;
	#endif // INET_CONFIG_ENABLE_TCP_ENDPOINT
	/**
	* Send a CHIP message on this exchange.
	*
	* If SendMessage returns success and the message was not expecting a
	* response, the exchange will close itself before returning, unless the
	* message being sent is a standalone ack. If SendMessage returns failure,
	* the caller is responsible for deciding what to do (e.g. closing the
	* exchange, trying to re-establish a secure session, etc).
	*
	* @param[in] protocolId The protocol identifier of the CHIP message to be sent.
	*
	* @param[in] msgType The message type of the corresponding protocol.
	*
	* @param[in] msgPayload A handle to the packet buffer holding the CHIP message.
	*
	* @param[in] sendFlags Flags set by the application for the CHIP message being sent.
	*
	* @retval #CHIP_ERROR_INVALID_ARGUMENT if an invalid argument was passed to this SendMessage API.
	* @retval #CHIP_ERROR_NOT_CONNECTED if the context was associated with a connection that is now
	* closed.
	* @retval #CHIP_ERROR_INCORRECT_STATE if the state of the exchange context is incorrect.
	* @retval #CHIP_NO_ERROR if the CHIP layer successfully sent the message down to the
	* network layer.
	*/
	CHIP_ERROR SendMessage(Protocols::Id protocolId, uint8_t msgType, System::PacketBufferHandle && msgPayload,
	const SendFlags & sendFlags = SendFlags(SendMessageFlags::kNone));

	/**
	* A strongly-message-typed version of SendMessage.
	*/
	template <typename MessageType, typename = std::enable_if_t<std::is_enum<MessageType>::value>>
	CHIP_ERROR SendMessage(MessageType msgType, System::PacketBufferHandle && msgPayload,
	const SendFlags & sendFlags = SendFlags(SendMessageFlags::kNone))
	{
	return SendMessage(Protocols::MessageTypeTraits<MessageType>::ProtocolId(), to_underlying(msgType), std::move(msgPayload),
	sendFlags);
	}

	/**
	* A notification that we will have SendMessage called on us in the future
	* (and should stay open until that happens).
	*/
	void WillSendMessage() { mFlags.Set(Flags::kFlagWillSendMessage); }

	/**
	* Handle a received CHIP message on this exchange.
	*
	* @param[in] messageCounter The message counter of the packet.
	* @param[in] payloadHeader A reference to the PayloadHeader object.
	* @param[in] msgFlags The message flags corresponding to the received message
	* @param[in] msgBuf A handle to the packet buffer holding the CHIP message.
	*
	* @retval #CHIP_ERROR_INVALID_ARGUMENT if an invalid argument was passed to this HandleMessage API.
	* @retval #CHIP_ERROR_INCORRECT_STATE if the state of the exchange context is incorrect.
	* @retval #CHIP_NO_ERROR if the CHIP layer successfully delivered the message up to the
	* protocol layer.
	*/
	CHIP_ERROR HandleMessage(uint32_t messageCounter, const PayloadHeader & payloadHeader, MessageFlags msgFlags,
	System::PacketBufferHandle && msgBuf);

	ExchangeDelegate * GetDelegate() const { return mDelegate; }
	void SetDelegate(ExchangeDelegate * delegate) { mDelegate = delegate; }

	ExchangeManager * GetExchangeMgr() const { return mExchangeMgr; }

	ReliableMessageContext * GetReliableMessageContext() { return static_cast<ReliableMessageContext *>(this); };

	SessionHandle GetSessionHandle() const
	{
	VerifyOrDie(mSession);
	auto sessionHandle = mSession.Get();
	return std::move(sessionHandle.Value());
	}

	bool HasSessionHandle() const { return mSession; }

	uint16_t GetExchangeId() const { return mExchangeId; }

	/*
	* In order to use reference counting (see refCount below) we use a hold/free paradigm where users of the exchange
	* can hold onto it while it's out of their direct control to make sure it isn't closed before everyone's ready.
	* A customized version of reference counting is used since there are some extra stuff to do within Release.
	*/
	void Close();
	void Abort();

	// Applies a suggested response timeout value based on the session type and the given upper layer processing time for
	// the next message to the exchange. The exchange context must have a valid session when calling this function.
	//
	// This function is an equivalent of SetResponseTimeout(mSession->ComputeRoundTripTimeout(applicationProcessingTimeout))
	void UseSuggestedResponseTimeout(Timeout applicationProcessingTimeout);

	// Set the response timeout for the exchange context, regardless of the underlying session type. Using
	// UseSuggestedResponseTimeout to set a timeout based on the type of the session and the application processing time instead of
	// using this function is recommended.
	//
	// If a timeout of 0 is provided, it implies no response is expected. Consequently, ExchangeDelegate::OnResponseTimeout will not
	// be called.
	//
	void SetResponseTimeout(Timeout timeout);

	// This API is used by commands that need to shut down all existing
	// sessions/exchanges on a fabric but need to make sure the response to the
	// command still goes out on the exchange the command came in on. This API
	// will ensure that all secure sessions for the fabric this exchanges is on
	// are released except the one this exchange is using, and will release
	// that session once this exchange is done sending the response.
	//
	// This API is a no-op if called on an exchange that is not using a
	// SecureSession.
	void AbortAllOtherCommunicationOnFabric();

	/**
	* Determine whether a response is currently expected for a message that was sent over
	* this exchange. While this is true, attempts to send other messages that expect a response
	* will fail.
	*
	* @return Returns 'true' if response expected, else 'false'.
	*/
	bool IsResponseExpected() const;

	/**
	* Determine whether we are expecting our consumer to send a message on
	* this exchange (i.e. WillSendMessage was called and the message has not
	* yet been sent).
	*/
	bool IsSendExpected() const { return mFlags.Has(Flags::kFlagWillSendMessage); }

	/**
	* Tracks whether we have received at least one application level message
	* during the life-time of this exchange
	*
	* @return Returns 'true' if we have received at least one message, else 'false'
	*/
	inline bool HasReceivedAtLeastOneMessage() { return mFlags.Has(Flags::kFlagReceivedAtLeastOneMessage); }

	#if CONFIG_BUILD_FOR_HOST_UNIT_TEST
	SessionHolder & GetSessionHolder() { return mSession; }

	enum class InjectedFailureType : uint8_t
	{
	kFailOnSend = 0x01
	};

	void InjectFailure(InjectedFailureType failureType) { mInjectedFailures.Set(failureType); }

	void ClearInjectedFailures() { mInjectedFailures.ClearAll(); }
	#endif

	private:
	#if CONFIG_BUILD_FOR_HOST_UNIT_TEST
	BitFlags<InjectedFailureType> mInjectedFailures;
	#endif

	class ExchangeSessionHolder : public SessionHolderWithDelegate
	{
	public:
	ExchangeSessionHolder(ExchangeContext & exchange) : SessionHolderWithDelegate(exchange) {}
	void GrabExpiredSession(const SessionHandle & session);
	};

	Timeout mResponseTimeout{ 0 }; // Maximum time to wait for response (in milliseconds); 0 disables response timeout.
	ExchangeDelegate * mDelegate = nullptr;
	ExchangeManager * mExchangeMgr = nullptr;

	ExchangeMessageDispatch & mDispatch;

	ExchangeSessionHolder mSession; // The connection state
	uint16_t mExchangeId; // Assigned exchange ID.

	/**
	* Track whether we are now expecting a response to a message sent via this exchange (because that
	* message had the kExpectResponse flag set in its sendFlags).
	*
	* @param[in] inResponseExpected A Boolean indicating whether (true) or not
	* (false) a response is currently expected on this
	* exchange.
	*/
	void SetResponseExpected(bool inResponseExpected);

	/**
	* Search for an existing exchange that the message applies to.
	*
	* @param[in] session The secure session of the received message.
	*
	* @param[in] packetHeader A reference to the PacketHeader object.
	*
	* @param[in] payloadHeader A reference to the PayloadHeader object.
	*
	* @retval true If a match is found.
	* @retval false If a match is not found.
	*/
	bool MatchExchange(const SessionHandle & session, const PacketHeader & packetHeader, const PayloadHeader & payloadHeader);

	/**
	* Notify our delegate, if any, that we have timed out waiting for a
	* response. If aCloseIfNeeded is true, check whether the exchange needs to
	* be closed.
	*/
	void NotifyResponseTimeout(bool aCloseIfNeeded);

	CHIP_ERROR StartResponseTimer();

	void CancelResponseTimer();
	static void HandleResponseTimeout(System::Layer * aSystemLayer, void * aAppState);

	void DoClose(bool clearRetransTable);

	/**
	* We have handled an application-level message in some way and should
	* re-evaluate out state to see whether we should still be open.
	*/
	void MessageHandled();

	static ExchangeMessageDispatch & GetMessageDispatch(bool isEphemeralExchange, ExchangeDelegate * delegate);

	// If SetAutoReleaseSession() is called, this exchange must be using a SecureSession, and should
	// evict it when the exchange is done with all its work (including any MRP traffic).
	inline void SetIgnoreSessionRelease(bool ignore) { mFlags.Set(Flags::kFlagIgnoreSessionRelease, ignore); }

	inline bool ShouldIgnoreSessionRelease() { return mFlags.Has(Flags::kFlagIgnoreSessionRelease); }

	inline void SetHasReceivedAtLeastOneMessage(bool hasReceivedMessage)
	{
	mFlags.Set(Flags::kFlagReceivedAtLeastOneMessage, hasReceivedMessage);
	}
	};

	} // namespace Messaging
	} // namespace chip