src/messaging/ExchangeMgr.cpp - 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 implements the ExchangeManager class.
  *
  */

 #include <cstring>
 #include <inttypes.h>
 #include <stddef.h>

 #include <crypto/RandUtils.h>
 #include <lib/core/CHIPCore.h>
 #include <lib/core/CHIPEncoding.h>
 #include <lib/support/CHIPFaultInjection.h>
 #include <lib/support/CodeUtils.h>
 #include <lib/support/logging/CHIPLogging.h>
 #include <messaging/ExchangeContext.h>
 #include <messaging/ExchangeMgr.h>
 #include <protocols/Protocols.h>

 using namespace chip::Encoding;
 using namespace chip::Inet;
 using namespace chip::System;

 namespace chip {
 namespace Messaging {

 /**
  *  Constructor for the ExchangeManager class.
  *  It sets the state to kState_NotInitialized.
  *
  *  @note
  *    The class must be initialized via ExchangeManager::Init()
  *    prior to use.
  *
  */
 ExchangeManager::ExchangeManager() : mReliableMessageMgr(mContextPool)
 {
     mState = State::kState_NotInitialized;
 }

 CHIP_ERROR ExchangeManager::Init(SessionManager * sessionManager)
 {
     CHIP_ERROR err = CHIP_NO_ERROR;

     VerifyOrReturnError(mState == State::kState_NotInitialized, err = CHIP_ERROR_INCORRECT_STATE);

     mSessionManager = sessionManager;

     mNextExchangeId = chip::Crypto::GetRandU16();
     mNextKeyId      = 0;

     for (auto & handler : UMHandlerPool)
     {
         // Mark all handlers as unallocated.  This handles both initial
         // initialization and the case when the consumer shuts us down and
         // then re-initializes without removing registered handlers.
         handler.Reset();
     }

     sessionManager->SetMessageDelegate(this);

 #if INET_CONFIG_ENABLE_TCP_ENDPOINT
     sessionManager->SetConnectionDelegate(this);
 #endif // INET_CONFIG_ENABLE_TCP_ENDPOINT
     mReliableMessageMgr.Init(sessionManager->SystemLayer());

     mState = State::kState_Initialized;

     return err;
 }

 void ExchangeManager::Shutdown()
 {
     VerifyOrReturn(mState != State::kState_NotInitialized);

     mReliableMessageMgr.Shutdown();

     if (mSessionManager != nullptr)
     {
         mSessionManager->SetMessageDelegate(nullptr);
         mSessionManager = nullptr;
     }

     mState = State::kState_NotInitialized;
 }

 ExchangeContext * ExchangeManager::NewContext(const SessionHandle & session, ExchangeDelegate * delegate, bool isInitiator)
 {
     if (!session->IsActiveSession())
     {
         // Disallow creating exchange on an inactive session
         ChipLogError(ExchangeManager, "NewContext failed: session inactive");
         return nullptr;
     }
     return mContextPool.CreateObject(this, mNextExchangeId++, session, isInitiator, delegate);
 }

 CHIP_ERROR ExchangeManager::RegisterUnsolicitedMessageHandlerForProtocol(Protocols::Id protocolId,
                                                                          UnsolicitedMessageHandler * handler)
 {
     return RegisterUMH(protocolId, kAnyMessageType, handler);
 }

 CHIP_ERROR ExchangeManager::RegisterUnsolicitedMessageHandlerForType(Protocols::Id protocolId, uint8_t msgType,
                                                                      UnsolicitedMessageHandler * handler)
 {
     return RegisterUMH(protocolId, static_cast<int16_t>(msgType), handler);
 }

 CHIP_ERROR ExchangeManager::UnregisterUnsolicitedMessageHandlerForProtocol(Protocols::Id protocolId)
 {
     return UnregisterUMH(protocolId, kAnyMessageType);
 }

 CHIP_ERROR ExchangeManager::UnregisterUnsolicitedMessageHandlerForType(Protocols::Id protocolId, uint8_t msgType)
 {
     return UnregisterUMH(protocolId, static_cast<int16_t>(msgType));
 }

 CHIP_ERROR ExchangeManager::RegisterUMH(Protocols::Id protocolId, int16_t msgType, UnsolicitedMessageHandler * handler)
 {
     UnsolicitedMessageHandlerSlot * selected = nullptr;

     for (auto & umh : UMHandlerPool)
     {
         if (!umh.IsInUse())
         {
             if (selected == nullptr)
                 selected = &umh;
         }
         else if (umh.Matches(protocolId, msgType))
         {
             umh.Handler = handler;
             return CHIP_NO_ERROR;
         }
     }

     if (selected == nullptr)
         return CHIP_ERROR_TOO_MANY_UNSOLICITED_MESSAGE_HANDLERS;

     selected->Handler     = handler;
     selected->ProtocolId  = protocolId;
     selected->MessageType = msgType;

     SYSTEM_STATS_INCREMENT(chip::System::Stats::kExchangeMgr_NumUMHandlers);

     return CHIP_NO_ERROR;
 }

 CHIP_ERROR ExchangeManager::UnregisterUMH(Protocols::Id protocolId, int16_t msgType)
 {
     for (auto & umh : UMHandlerPool)
     {
         if (umh.IsInUse() && umh.Matches(protocolId, msgType))
         {
             umh.Reset();
             SYSTEM_STATS_DECREMENT(chip::System::Stats::kExchangeMgr_NumUMHandlers);
             return CHIP_NO_ERROR;
         }
     }

     return CHIP_ERROR_NO_UNSOLICITED_MESSAGE_HANDLER;
 }

 void ExchangeManager::OnMessageReceived(const PacketHeader & packetHeader, const PayloadHeader & payloadHeader,
                                         const SessionHandle & session, DuplicateMessage isDuplicate,
                                         System::PacketBufferHandle && msgBuf)
 {
     UnsolicitedMessageHandlerSlot * matchingUMH = nullptr;

 #if CHIP_PROGRESS_LOGGING
     auto * protocolName = Protocols::GetProtocolName(payloadHeader.GetProtocolID());
     auto * msgTypeName  = Protocols::GetMessageTypeName(payloadHeader.GetProtocolID(), payloadHeader.GetMessageType());

     //
     // 32-bit value maximum = 10 chars + text preamble (6) + trailer (1) + null (1) + 2 buffer = 20
     //
     char ackBuf[20];
     ackBuf[0] = '\0';
     if (payloadHeader.GetAckMessageCounter().HasValue())
     {
         snprintf(ackBuf, sizeof(ackBuf), " (Ack:" ChipLogFormatMessageCounter ")", payloadHeader.GetAckMessageCounter().Value());
     }

     CompressedFabricId compressedFabricId = 0;
     if (session->IsSecureSession() && mSessionManager->GetFabricTable() != nullptr)
     {
         auto fabricInfo = mSessionManager->GetFabricTable()->FindFabricWithIndex(session->AsSecureSession()->GetFabricIndex());
         if (fabricInfo)
         {
             compressedFabricId = fabricInfo->GetCompressedFabricId();
         }
     }

     //
     // Legend that can be used to decode this log line can be found in README.md
     //
     ChipLogProgress(ExchangeManager,
                     ">>> [E:" ChipLogFormatExchangeId " S:%u M:" ChipLogFormatMessageCounter
                     "%s] (%s) Msg RX from %u:" ChipLogFormatX64 " [%04X] --- Type %04x:%02x (%s:%s)",
                     ChipLogValueExchangeIdFromReceivedHeader(payloadHeader), session->SessionIdForLogging(),
                     packetHeader.GetMessageCounter(), ackBuf, Transport::GetSessionTypeString(session), session->GetFabricIndex(),
                     ChipLogValueX64(session->GetPeer().GetNodeId()), static_cast<uint16_t>(compressedFabricId),
                     payloadHeader.GetProtocolID().GetProtocolId(), payloadHeader.GetMessageType(), protocolName, msgTypeName);
 #endif

     MessageFlags msgFlags;
     if (isDuplicate == DuplicateMessage::Yes)
     {
         msgFlags.Set(MessageFlagValues::kDuplicateMessage);
     }

     // Skip retrieval of exchange for group message since no exchange is stored
     // for group msg (optimization)
     if (!packetHeader.IsGroupSession())
     {
         // Search for an existing exchange that the message applies to. If a match is found...
         bool found = false;
         mContextPool.ForEachActiveObject([&](auto * ec) {
             if (ec->MatchExchange(session, packetHeader, payloadHeader))
             {
                 ChipLogDetail(ExchangeManager, "Found matching exchange: " ChipLogFormatExchange ", Delegate: %p",
                               ChipLogValueExchange(ec), ec->GetDelegate());

                 // Matched ExchangeContext; send to message handler.
                 ec->HandleMessage(packetHeader.GetMessageCounter(), payloadHeader, msgFlags, std::move(msgBuf));
                 found = true;
                 return Loop::Break;
             }
             return Loop::Continue;
         });

         if (found)
         {
             return;
         }
     }
     else
     {
         ChipLogProgress(ExchangeManager, "Received Groupcast Message with GroupId 0x%04X (%d)",
                         packetHeader.GetDestinationGroupId().Value(), packetHeader.GetDestinationGroupId().Value());
     }

     // Do not handle messages that don't match an existing exchange on an
     // inactive session, since we should not be creating new exchanges there.
     if (!session->IsActiveSession())
     {
         ChipLogProgress(ExchangeManager, "Dropping message on inactive session that does not match an existing exchange");
         return;
     }

     // If it's not a duplicate message, search for an unsolicited message handler if it is marked as being sent by an initiator.
     // Since we didn't find an existing exchange that matches the message, it must be an unsolicited message. However all
     // unsolicited messages must be marked as being from an initiator.
     if (!msgFlags.Has(MessageFlagValues::kDuplicateMessage) && payloadHeader.IsInitiator())
     {
         // Search for an unsolicited message handler that can handle the message. Prefer handlers that can explicitly
         // handle the message type over handlers that handle all messages for a profile.
         matchingUMH = nullptr;

         for (auto & umh : UMHandlerPool)
         {
             if (umh.IsInUse() && payloadHeader.HasProtocol(umh.ProtocolId))
             {
                 if (umh.MessageType == payloadHeader.GetMessageType())
                 {
                     matchingUMH = &umh;
                     break;
                 }

                 if (umh.MessageType == kAnyMessageType)
                     matchingUMH = &umh;
             }
         }
     }
     // Discard the message if it isn't marked as being sent by an initiator and the message does not need to send
     // an ack to the peer.
     else if (!payloadHeader.NeedsAck())
     {
         // We can easily get standalone acks here: any time we fail to get a
         // timely ack for the last message in an exchange and retransmit it,
         // then get acks for both the message and the retransmit, the second ack
         // will end up in this block.  That's not really an error condition, so
         // there is no need to log an error in that case.
         if (!payloadHeader.HasMessageType(Protocols::SecureChannel::MsgType::StandaloneAck))
         {
             // Using same error message for all errors to reduce code size.
             ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT,
                          CHIP_ERROR_UNSOLICITED_MSG_NO_ORIGINATOR.Format());
         }
         return;
     }

     // If we found a handler, create an exchange to handle the message.
     if (matchingUMH != nullptr)
     {
         ExchangeDelegate * delegate = nullptr;

         // Fetch delegate from the handler
         CHIP_ERROR err = matchingUMH->Handler->OnUnsolicitedMessageReceived(payloadHeader, delegate);
         if (err != CHIP_NO_ERROR)
         {
             // Using same error message for all errors to reduce code size.
             ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT, err.Format());
             SendStandaloneAckIfNeeded(packetHeader, payloadHeader, session, msgFlags, std::move(msgBuf));
             return;
         }

         ExchangeContext * ec = mContextPool.CreateObject(this, payloadHeader.GetExchangeID(), session, false, delegate);

         if (ec == nullptr)
         {
             if (delegate != nullptr)
             {
                 matchingUMH->Handler->OnExchangeCreationFailed(delegate);
             }

             // Using same error message for all errors to reduce code size.
             ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT, CHIP_ERROR_NO_MEMORY.Format());
             // No resource for creating new exchange, SendStandaloneAckIfNeeded probably also fails, so do not try it here
             return;
         }

         ChipLogDetail(ExchangeManager, "Handling via exchange: " ChipLogFormatExchange ", Delegate: %p", ChipLogValueExchange(ec),
                       ec->GetDelegate());

         if (ec->IsEncryptionRequired() != packetHeader.IsEncrypted())
         {
             ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT,
                          CHIP_ERROR_INVALID_MESSAGE_TYPE.Format());
             ec->Close();
             SendStandaloneAckIfNeeded(packetHeader, payloadHeader, session, msgFlags, std::move(msgBuf));
             return;
         }

         err = ec->HandleMessage(packetHeader.GetMessageCounter(), payloadHeader, msgFlags, std::move(msgBuf));
         if (err != CHIP_NO_ERROR)
         {
             // Using same error message for all errors to reduce code size.
             ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT, err.Format());
         }
         return;
     }

     SendStandaloneAckIfNeeded(packetHeader, payloadHeader, session, msgFlags, std::move(msgBuf));
 }

 void ExchangeManager::SendStandaloneAckIfNeeded(const PacketHeader & packetHeader, const PayloadHeader & payloadHeader,
                                                 const SessionHandle & session, MessageFlags msgFlags,
                                                 System::PacketBufferHandle && msgBuf)
 {

     // If using the MRP protocol and we need to send a StandaloneAck, create an EphemeralExchange to send
     // the StandaloneAck.
     if (!session->AllowsMRP() || !payloadHeader.NeedsAck())
         return;

     // If rcvd msg is from initiator then this exchange is created as not Initiator.
     // If rcvd msg is not from initiator then this exchange is created as Initiator.
     // Create a EphemeralExchange to generate a StandaloneAck
     ExchangeContext * ec = mContextPool.CreateObject(this, payloadHeader.GetExchangeID(), session, !payloadHeader.IsInitiator(),
                                                      nullptr, true /* IsEphemeralExchange */);

     if (ec == nullptr)
     {
         // Using same error message for all errors to reduce code size.
         ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT, CHIP_ERROR_NO_MEMORY.Format());
         return;
     }

     ChipLogDetail(ExchangeManager, "Generating StandaloneAck via exchange: " ChipLogFormatExchange, ChipLogValueExchange(ec));

     // No need to verify packet encryption type, the EphemeralExchange can handle both secure and insecure messages.

     CHIP_ERROR err = ec->HandleMessage(packetHeader.GetMessageCounter(), payloadHeader, msgFlags, std::move(msgBuf));
     if (err != CHIP_NO_ERROR)
     {
         // Using same error message for all errors to reduce code size.
         ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT, err.Format());
     }

     // The exchange should be closed inside HandleMessage function. So don't bother close it here.
 }

 void ExchangeManager::CloseAllContextsForDelegate(const ExchangeDelegate * delegate)
 {
     mContextPool.ForEachActiveObject([&](auto * ec) {
         if (ec->GetDelegate() == delegate)
         {
             // Make sure to null out the delegate before closing the context, so
             // we don't notify the delegate that the context is closing.  We
             // have to do this, because the delegate might be partially
             // destroyed by this point.
             ec->SetDelegate(nullptr);
             ec->Close();
         }
         return Loop::Continue;
     });
 }

 #if INET_CONFIG_ENABLE_TCP_ENDPOINT
 void ExchangeManager::OnTCPConnectionClosed(const SessionHandle & session, CHIP_ERROR conErr)
 {
     mContextPool.ForEachActiveObject([&](auto * ec) {
         if (ec->HasSessionHandle() && ec->GetSessionHandle() == session)
         {
             ec->OnSessionConnectionClosed(conErr);
         }
         return Loop::Continue;
     });
 }
 #endif // INET_CONFIG_ENABLE_TCP_ENDPOINT

 } // 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 implements the ExchangeManager class.
	*
	*/

	#include <cstring>
	#include <inttypes.h>
	#include <stddef.h>

	#include <crypto/RandUtils.h>
	#include <lib/core/CHIPCore.h>
	#include <lib/core/CHIPEncoding.h>
	#include <lib/support/CHIPFaultInjection.h>
	#include <lib/support/CodeUtils.h>
	#include <lib/support/logging/CHIPLogging.h>
	#include <messaging/ExchangeContext.h>
	#include <messaging/ExchangeMgr.h>
	#include <protocols/Protocols.h>

	using namespace chip::Encoding;
	using namespace chip::Inet;
	using namespace chip::System;

	namespace chip {
	namespace Messaging {

	/**
	* Constructor for the ExchangeManager class.
	* It sets the state to kState_NotInitialized.
	*
	* @note
	* The class must be initialized via ExchangeManager::Init()
	* prior to use.
	*
	*/
	ExchangeManager::ExchangeManager() : mReliableMessageMgr(mContextPool)
	{
	mState = State::kState_NotInitialized;
	}

	CHIP_ERROR ExchangeManager::Init(SessionManager * sessionManager)
	{
	CHIP_ERROR err = CHIP_NO_ERROR;

	VerifyOrReturnError(mState == State::kState_NotInitialized, err = CHIP_ERROR_INCORRECT_STATE);

	mSessionManager = sessionManager;

	mNextExchangeId = chip::Crypto::GetRandU16();
	mNextKeyId = 0;

	for (auto & handler : UMHandlerPool)
	{
	// Mark all handlers as unallocated. This handles both initial
	// initialization and the case when the consumer shuts us down and
	// then re-initializes without removing registered handlers.
	handler.Reset();
	}

	sessionManager->SetMessageDelegate(this);

	#if INET_CONFIG_ENABLE_TCP_ENDPOINT
	sessionManager->SetConnectionDelegate(this);
	#endif // INET_CONFIG_ENABLE_TCP_ENDPOINT
	mReliableMessageMgr.Init(sessionManager->SystemLayer());

	mState = State::kState_Initialized;

	return err;
	}

	void ExchangeManager::Shutdown()
	{
	VerifyOrReturn(mState != State::kState_NotInitialized);

	mReliableMessageMgr.Shutdown();

	if (mSessionManager != nullptr)
	{
	mSessionManager->SetMessageDelegate(nullptr);
	mSessionManager = nullptr;
	}

	mState = State::kState_NotInitialized;
	}

	ExchangeContext * ExchangeManager::NewContext(const SessionHandle & session, ExchangeDelegate * delegate, bool isInitiator)
	{
	if (!session->IsActiveSession())
	{
	// Disallow creating exchange on an inactive session
	ChipLogError(ExchangeManager, "NewContext failed: session inactive");
	return nullptr;
	}
	return mContextPool.CreateObject(this, mNextExchangeId++, session, isInitiator, delegate);
	}

	CHIP_ERROR ExchangeManager::RegisterUnsolicitedMessageHandlerForProtocol(Protocols::Id protocolId,
	UnsolicitedMessageHandler * handler)
	{
	return RegisterUMH(protocolId, kAnyMessageType, handler);
	}

	CHIP_ERROR ExchangeManager::RegisterUnsolicitedMessageHandlerForType(Protocols::Id protocolId, uint8_t msgType,
	UnsolicitedMessageHandler * handler)
	{
	return RegisterUMH(protocolId, static_cast<int16_t>(msgType), handler);
	}

	CHIP_ERROR ExchangeManager::UnregisterUnsolicitedMessageHandlerForProtocol(Protocols::Id protocolId)
	{
	return UnregisterUMH(protocolId, kAnyMessageType);
	}

	CHIP_ERROR ExchangeManager::UnregisterUnsolicitedMessageHandlerForType(Protocols::Id protocolId, uint8_t msgType)
	{
	return UnregisterUMH(protocolId, static_cast<int16_t>(msgType));
	}

	CHIP_ERROR ExchangeManager::RegisterUMH(Protocols::Id protocolId, int16_t msgType, UnsolicitedMessageHandler * handler)
	{
	UnsolicitedMessageHandlerSlot * selected = nullptr;

	for (auto & umh : UMHandlerPool)
	{
	if (!umh.IsInUse())
	{
	if (selected == nullptr)
	selected = &umh;
	}
	else if (umh.Matches(protocolId, msgType))
	{
	umh.Handler = handler;
	return CHIP_NO_ERROR;
	}
	}

	if (selected == nullptr)
	return CHIP_ERROR_TOO_MANY_UNSOLICITED_MESSAGE_HANDLERS;

	selected->Handler = handler;
	selected->ProtocolId = protocolId;
	selected->MessageType = msgType;

	SYSTEM_STATS_INCREMENT(chip::System::Stats::kExchangeMgr_NumUMHandlers);

	return CHIP_NO_ERROR;
	}

	CHIP_ERROR ExchangeManager::UnregisterUMH(Protocols::Id protocolId, int16_t msgType)
	{
	for (auto & umh : UMHandlerPool)
	{
	if (umh.IsInUse() && umh.Matches(protocolId, msgType))
	{
	umh.Reset();
	SYSTEM_STATS_DECREMENT(chip::System::Stats::kExchangeMgr_NumUMHandlers);
	return CHIP_NO_ERROR;
	}
	}

	return CHIP_ERROR_NO_UNSOLICITED_MESSAGE_HANDLER;
	}

	void ExchangeManager::OnMessageReceived(const PacketHeader & packetHeader, const PayloadHeader & payloadHeader,
	const SessionHandle & session, DuplicateMessage isDuplicate,
	System::PacketBufferHandle && msgBuf)
	{
	UnsolicitedMessageHandlerSlot * matchingUMH = nullptr;

	#if CHIP_PROGRESS_LOGGING
	auto * protocolName = Protocols::GetProtocolName(payloadHeader.GetProtocolID());
	auto * msgTypeName = Protocols::GetMessageTypeName(payloadHeader.GetProtocolID(), payloadHeader.GetMessageType());

	//
	// 32-bit value maximum = 10 chars + text preamble (6) + trailer (1) + null (1) + 2 buffer = 20
	//
	char ackBuf[20];
	ackBuf[0] = '\0';
	if (payloadHeader.GetAckMessageCounter().HasValue())
	{
	snprintf(ackBuf, sizeof(ackBuf), " (Ack:" ChipLogFormatMessageCounter ")", payloadHeader.GetAckMessageCounter().Value());
	}

	CompressedFabricId compressedFabricId = 0;
	if (session->IsSecureSession() && mSessionManager->GetFabricTable() != nullptr)
	{
	auto fabricInfo = mSessionManager->GetFabricTable()->FindFabricWithIndex(session->AsSecureSession()->GetFabricIndex());
	if (fabricInfo)
	{
	compressedFabricId = fabricInfo->GetCompressedFabricId();
	}
	}

	//
	// Legend that can be used to decode this log line can be found in README.md
	//
	ChipLogProgress(ExchangeManager,
	">>> [E:" ChipLogFormatExchangeId " S:%u M:" ChipLogFormatMessageCounter
	"%s] (%s) Msg RX from %u:" ChipLogFormatX64 " [%04X] --- Type %04x:%02x (%s:%s)",
	ChipLogValueExchangeIdFromReceivedHeader(payloadHeader), session->SessionIdForLogging(),
	packetHeader.GetMessageCounter(), ackBuf, Transport::GetSessionTypeString(session), session->GetFabricIndex(),
	ChipLogValueX64(session->GetPeer().GetNodeId()), static_cast<uint16_t>(compressedFabricId),
	payloadHeader.GetProtocolID().GetProtocolId(), payloadHeader.GetMessageType(), protocolName, msgTypeName);
	#endif

	MessageFlags msgFlags;
	if (isDuplicate == DuplicateMessage::Yes)
	{
	msgFlags.Set(MessageFlagValues::kDuplicateMessage);
	}

	// Skip retrieval of exchange for group message since no exchange is stored
	// for group msg (optimization)
	if (!packetHeader.IsGroupSession())
	{
	// Search for an existing exchange that the message applies to. If a match is found...
	bool found = false;
	mContextPool.ForEachActiveObject([&](auto * ec) {
	if (ec->MatchExchange(session, packetHeader, payloadHeader))
	{
	ChipLogDetail(ExchangeManager, "Found matching exchange: " ChipLogFormatExchange ", Delegate: %p",
	ChipLogValueExchange(ec), ec->GetDelegate());

	// Matched ExchangeContext; send to message handler.
	ec->HandleMessage(packetHeader.GetMessageCounter(), payloadHeader, msgFlags, std::move(msgBuf));
	found = true;
	return Loop::Break;
	}
	return Loop::Continue;
	});

	if (found)
	{
	return;
	}
	}
	else
	{
	ChipLogProgress(ExchangeManager, "Received Groupcast Message with GroupId 0x%04X (%d)",
	packetHeader.GetDestinationGroupId().Value(), packetHeader.GetDestinationGroupId().Value());
	}

	// Do not handle messages that don't match an existing exchange on an
	// inactive session, since we should not be creating new exchanges there.
	if (!session->IsActiveSession())
	{
	ChipLogProgress(ExchangeManager, "Dropping message on inactive session that does not match an existing exchange");
	return;
	}

	// If it's not a duplicate message, search for an unsolicited message handler if it is marked as being sent by an initiator.
	// Since we didn't find an existing exchange that matches the message, it must be an unsolicited message. However all
	// unsolicited messages must be marked as being from an initiator.
	if (!msgFlags.Has(MessageFlagValues::kDuplicateMessage) && payloadHeader.IsInitiator())
	{
	// Search for an unsolicited message handler that can handle the message. Prefer handlers that can explicitly
	// handle the message type over handlers that handle all messages for a profile.
	matchingUMH = nullptr;

	for (auto & umh : UMHandlerPool)
	{
	if (umh.IsInUse() && payloadHeader.HasProtocol(umh.ProtocolId))
	{
	if (umh.MessageType == payloadHeader.GetMessageType())
	{
	matchingUMH = &umh;
	break;
	}

	if (umh.MessageType == kAnyMessageType)
	matchingUMH = &umh;
	}
	}
	}
	// Discard the message if it isn't marked as being sent by an initiator and the message does not need to send
	// an ack to the peer.
	else if (!payloadHeader.NeedsAck())
	{
	// We can easily get standalone acks here: any time we fail to get a
	// timely ack for the last message in an exchange and retransmit it,
	// then get acks for both the message and the retransmit, the second ack
	// will end up in this block. That's not really an error condition, so
	// there is no need to log an error in that case.
	if (!payloadHeader.HasMessageType(Protocols::SecureChannel::MsgType::StandaloneAck))
	{
	// Using same error message for all errors to reduce code size.
	ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT,
	CHIP_ERROR_UNSOLICITED_MSG_NO_ORIGINATOR.Format());
	}
	return;
	}

	// If we found a handler, create an exchange to handle the message.
	if (matchingUMH != nullptr)
	{
	ExchangeDelegate * delegate = nullptr;

	// Fetch delegate from the handler
	CHIP_ERROR err = matchingUMH->Handler->OnUnsolicitedMessageReceived(payloadHeader, delegate);
	if (err != CHIP_NO_ERROR)
	{
	// Using same error message for all errors to reduce code size.
	ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT, err.Format());
	SendStandaloneAckIfNeeded(packetHeader, payloadHeader, session, msgFlags, std::move(msgBuf));
	return;
	}

	ExchangeContext * ec = mContextPool.CreateObject(this, payloadHeader.GetExchangeID(), session, false, delegate);

	if (ec == nullptr)
	{
	if (delegate != nullptr)
	{
	matchingUMH->Handler->OnExchangeCreationFailed(delegate);
	}

	// Using same error message for all errors to reduce code size.
	ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT, CHIP_ERROR_NO_MEMORY.Format());
	// No resource for creating new exchange, SendStandaloneAckIfNeeded probably also fails, so do not try it here
	return;
	}

	ChipLogDetail(ExchangeManager, "Handling via exchange: " ChipLogFormatExchange ", Delegate: %p", ChipLogValueExchange(ec),
	ec->GetDelegate());

	if (ec->IsEncryptionRequired() != packetHeader.IsEncrypted())
	{
	ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT,
	CHIP_ERROR_INVALID_MESSAGE_TYPE.Format());
	ec->Close();
	SendStandaloneAckIfNeeded(packetHeader, payloadHeader, session, msgFlags, std::move(msgBuf));
	return;
	}

	err = ec->HandleMessage(packetHeader.GetMessageCounter(), payloadHeader, msgFlags, std::move(msgBuf));
	if (err != CHIP_NO_ERROR)
	{
	// Using same error message for all errors to reduce code size.
	ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT, err.Format());
	}
	return;
	}

	SendStandaloneAckIfNeeded(packetHeader, payloadHeader, session, msgFlags, std::move(msgBuf));
	}

	void ExchangeManager::SendStandaloneAckIfNeeded(const PacketHeader & packetHeader, const PayloadHeader & payloadHeader,
	const SessionHandle & session, MessageFlags msgFlags,
	System::PacketBufferHandle && msgBuf)
	{

	// If using the MRP protocol and we need to send a StandaloneAck, create an EphemeralExchange to send
	// the StandaloneAck.
	if (!session->AllowsMRP() \|\| !payloadHeader.NeedsAck())
	return;

	// If rcvd msg is from initiator then this exchange is created as not Initiator.
	// If rcvd msg is not from initiator then this exchange is created as Initiator.
	// Create a EphemeralExchange to generate a StandaloneAck
	ExchangeContext * ec = mContextPool.CreateObject(this, payloadHeader.GetExchangeID(), session, !payloadHeader.IsInitiator(),
	nullptr, true /* IsEphemeralExchange */);

	if (ec == nullptr)
	{
	// Using same error message for all errors to reduce code size.
	ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT, CHIP_ERROR_NO_MEMORY.Format());
	return;
	}

	ChipLogDetail(ExchangeManager, "Generating StandaloneAck via exchange: " ChipLogFormatExchange, ChipLogValueExchange(ec));

	// No need to verify packet encryption type, the EphemeralExchange can handle both secure and insecure messages.

	CHIP_ERROR err = ec->HandleMessage(packetHeader.GetMessageCounter(), payloadHeader, msgFlags, std::move(msgBuf));
	if (err != CHIP_NO_ERROR)
	{
	// Using same error message for all errors to reduce code size.
	ChipLogError(ExchangeManager, "OnMessageReceived failed, err = %" CHIP_ERROR_FORMAT, err.Format());
	}

	// The exchange should be closed inside HandleMessage function. So don't bother close it here.
	}

	void ExchangeManager::CloseAllContextsForDelegate(const ExchangeDelegate * delegate)
	{
	mContextPool.ForEachActiveObject([&](auto * ec) {
	if (ec->GetDelegate() == delegate)
	{
	// Make sure to null out the delegate before closing the context, so
	// we don't notify the delegate that the context is closing. We
	// have to do this, because the delegate might be partially
	// destroyed by this point.
	ec->SetDelegate(nullptr);
	ec->Close();
	}
	return Loop::Continue;
	});
	}

	#if INET_CONFIG_ENABLE_TCP_ENDPOINT
	void ExchangeManager::OnTCPConnectionClosed(const SessionHandle & session, CHIP_ERROR conErr)
	{
	mContextPool.ForEachActiveObject([&](auto * ec) {
	if (ec->HasSessionHandle() && ec->GetSessionHandle() == session)
	{
	ec->OnSessionConnectionClosed(conErr);
	}
	return Loop::Continue;
	});
	}
	#endif // INET_CONFIG_ENABLE_TCP_ENDPOINT

	} // namespace Messaging
	} // namespace chip