src/transport/raw/TCP.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2020-2021 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.
  */

 /**
  *    @file
  *      This file defines the CHIP Connection object that maintains TCP connections.
  *      It binds to any available local addr and port and begins listening.
  */

 #pragma once

 #include <algorithm>
 #include <new>
 #include <utility>

 #include <inet/IPAddress.h>
 #include <inet/InetInterface.h>
 #include <inet/TCPEndPoint.h>
 #include <lib/core/CHIPCore.h>
 #include <lib/support/CodeUtils.h>
 #include <lib/support/PoolWrapper.h>
 #include <transport/raw/Base.h>

 namespace chip {
 namespace Transport {

 /** Defines listening parameters for setting up a TCP transport */
 class TcpListenParameters
 {
 public:
     explicit TcpListenParameters(Inet::EndPointManager<Inet::TCPEndPoint> * endPointManager) : mEndPointManager(endPointManager) {}
     TcpListenParameters(const TcpListenParameters &) = default;
     TcpListenParameters(TcpListenParameters &&)      = default;

     Inet::EndPointManager<Inet::TCPEndPoint> * GetEndPointManager() { return mEndPointManager; }

     Inet::IPAddressType GetAddressType() const { return mAddressType; }
     TcpListenParameters & SetAddressType(Inet::IPAddressType type)
     {
         mAddressType = type;

         return *this;
     }

     uint16_t GetListenPort() const { return mListenPort; }
     TcpListenParameters & SetListenPort(uint16_t port)
     {
         mListenPort = port;

         return *this;
     }

     Inet::InterfaceId GetInterfaceId() const { return mInterfaceId; }
     TcpListenParameters & SetInterfaceId(Inet::InterfaceId id)
     {
         mInterfaceId = id;

         return *this;
     }

 private:
     Inet::EndPointManager<Inet::TCPEndPoint> * mEndPointManager;   ///< Associated endpoint factory
     Inet::IPAddressType mAddressType = Inet::IPAddressType::kIPv6; ///< type of listening socket
     uint16_t mListenPort             = CHIP_PORT;                  ///< TCP listen port
     Inet::InterfaceId mInterfaceId   = Inet::InterfaceId::Null();  ///< Interface to listen on
 };

 /**
  * Packets scheduled for sending once a connection has been established.
  */
 struct PendingPacket
 {
     PendingPacket(const PeerAddress & peerAddress, System::PacketBufferHandle && packetBuffer) :
         mPeerAddress(peerAddress), mPacketBuffer(std::move(packetBuffer))
     {}

     PeerAddress mPeerAddress;                 // where the packet is being sent to
     System::PacketBufferHandle mPacketBuffer; // what data needs to be sent
 };

 /** Implements a transport using TCP. */
 class DLL_EXPORT TCPBase : public Base
 {
     /**
      *  The State of the TCP connection
      */
     enum class State
     {
         kNotReady    = 0, /**< State before initialization. */
         kInitialized = 1, /**< State after class is listening and ready. */
     };

 protected:
     /**
      *  State for each active connection
      */
     struct ActiveConnectionState
     {
         void Init(Inet::TCPEndPoint * endPoint)
         {
             mEndPoint = endPoint;
             mReceived = nullptr;
         }

         void Free()
         {
             mEndPoint->Free();
             mEndPoint = nullptr;
             mReceived = nullptr;
         }
         bool InUse() const { return mEndPoint != nullptr; }

         // Associated endpoint.
         Inet::TCPEndPoint * mEndPoint;

         // Buffers received but not yet consumed.
         System::PacketBufferHandle mReceived;
     };

 public:
     using PendingPacketPoolType = PoolInterface<PendingPacket, const PeerAddress &, System::PacketBufferHandle &&>;
     TCPBase(ActiveConnectionState * activeConnectionsBuffer, size_t bufferSize, PendingPacketPoolType & packetBuffers) :
         mActiveConnections(activeConnectionsBuffer), mActiveConnectionsSize(bufferSize), mPendingPackets(packetBuffers)
     {
         // activeConnectionsBuffer must be initialized by the caller.
     }
     ~TCPBase() override;

     /**
      * Initialize a TCP transport on a given port.
      *
      * @param params        TCP configuration parameters for this transport
      *
      * @details
      *   Generally send and receive ports should be the same and equal to CHIP_PORT.
      *   The class allows separate definitions to allow local execution of several
      *   Nodes.
      */
     CHIP_ERROR Init(TcpListenParameters & params);

     /**
      * Close the open endpoint without destroying the object
      */
     void Close() override;

     CHIP_ERROR SendMessage(const PeerAddress & address, System::PacketBufferHandle && msgBuf) override;

     void Disconnect(const PeerAddress & address) override;

     bool CanSendToPeer(const PeerAddress & address) override
     {
         return (mState == State::kInitialized) && (address.GetTransportType() == Type::kTcp) &&
             (address.GetIPAddress().Type() == mEndpointType);
     }

     /**
      * Helper method to determine if IO processing is still required for a TCP transport
      * before everything is cleaned up (socket closing is async, so after calling 'Close' on
      * the transport, some time may be needed to actually be able to close.)
      */
     bool HasActiveConnections() const;

     /**
      * Close all active connections.
      */
     void CloseActiveConnections();

 private:
     friend class TCPTest;

     /**
      * Find an active connection to the given peer or return nullptr if
      * no active connection exists.
      */
     ActiveConnectionState * FindActiveConnection(const PeerAddress & addr);
     ActiveConnectionState * FindActiveConnection(const Inet::TCPEndPoint * endPoint);

     /**
      * Sends the specified message once a connection has been established.
      *
      * @param addr - what peer to connect to
      * @param msg - what buffer to send once a connection has been established.
      *
      * Ownership of msg is taken over and will be freed at some unspecified time
      * in the future (once connection succeeds/fails).
      */
     CHIP_ERROR SendAfterConnect(const PeerAddress & addr, System::PacketBufferHandle && msg);

     /**
      * Process a single received buffer from the specified peer address.
      *
      * @param endPoint the source end point from which the data comes from
      * @param peerAddress the peer the data is coming from
      * @param buffer the actual data
      *
      * Ownership of buffer is taken over and will be freed (or re-enqueued to the endPoint receive queue)
      * as needed during processing.
      */
     CHIP_ERROR ProcessReceivedBuffer(Inet::TCPEndPoint * endPoint, const PeerAddress & peerAddress,
                                      System::PacketBufferHandle && buffer);

     /**
      * Process a single message of the specified size from a buffer.
      *
      * @param[in]     peerAddress   The peer the data is coming from.
      * @param[in,out] state         The connection state, which contains the message. On entry, the payload points to the message
      *                              body (after the length). On exit, it points after the message (or the queue is null, if there
      *                              is no other data).
      * @param[in]     messageSize   Size of the single message.
      */
     CHIP_ERROR ProcessSingleMessage(const PeerAddress & peerAddress, ActiveConnectionState * state, uint16_t messageSize);

     // Callback handler for TCPEndPoint. TCP message receive handler.
     // @see TCPEndpoint::OnDataReceivedFunct
     static CHIP_ERROR OnTcpReceive(Inet::TCPEndPoint * endPoint, System::PacketBufferHandle && buffer);

     // Callback handler for TCPEndPoint. Called when a connection has been completed.
     // @see TCPEndpoint::OnConnectCompleteFunct
     static void OnConnectionComplete(Inet::TCPEndPoint * endPoint, CHIP_ERROR err);

     // Callback handler for TCPEndPoint. Called when a connection has been closed.
     // @see TCPEndpoint::OnConnectionClosedFunct
     static void OnConnectionClosed(Inet::TCPEndPoint * endPoint, CHIP_ERROR err);

     // Callback handler for TCPEndPoint. Callend when a peer closes the connection.
     // @see TCPEndpoint::OnPeerCloseFunct
     static void OnPeerClosed(Inet::TCPEndPoint * endPoint);

     // Callback handler for TCPEndPoint. Called when a connection is received on the listening port.
     // @see TCPEndpoint::OnConnectionReceivedFunct
     static void OnConnectionReceived(Inet::TCPEndPoint * listenEndPoint, Inet::TCPEndPoint * endPoint,
                                      const Inet::IPAddress & peerAddress, uint16_t peerPort);

     // Called on accept error
     // @see TCPEndpoint::OnAcceptErrorFunct
     static void OnAcceptError(Inet::TCPEndPoint * endPoint, CHIP_ERROR err);

     Inet::TCPEndPoint * mListenSocket = nullptr;                       ///< TCP socket used by the transport
     Inet::IPAddressType mEndpointType = Inet::IPAddressType::kUnknown; ///< Socket listening type
     State mState                      = State::kNotReady;              ///< State of the TCP transport

     // Number of active and 'pending connection' endpoints
     size_t mUsedEndPointCount = 0;

     // Currently active connections
     ActiveConnectionState * mActiveConnections;
     const size_t mActiveConnectionsSize;

     // Data to be sent when connections succeed
     PendingPacketPoolType & mPendingPackets;
 };

 template <size_t kActiveConnectionsSize, size_t kPendingPacketSize>
 class TCP : public TCPBase
 {
 public:
     TCP() : TCPBase(mConnectionsBuffer, kActiveConnectionsSize, mPendingPackets)
     {
         for (size_t i = 0; i < kActiveConnectionsSize; ++i)
         {
             mConnectionsBuffer[i].Init(nullptr);
         }
     }
     ~TCP() override { mPendingPackets.ReleaseAll(); }

 private:
     friend class TCPTest;
     TCPBase::ActiveConnectionState mConnectionsBuffer[kActiveConnectionsSize];
     PoolImpl<PendingPacket, kPendingPacketSize, ObjectPoolMem::kInline, PendingPacketPoolType::Interface> mPendingPackets;
 };

 } // namespace Transport
 } // namespace chip
	/*
	*
	* Copyright (c) 2020-2021 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.
	*/

	/**
	* @file
	* This file defines the CHIP Connection object that maintains TCP connections.
	* It binds to any available local addr and port and begins listening.
	*/

	#pragma once

	#include <algorithm>
	#include <new>
	#include <utility>

	#include <inet/IPAddress.h>
	#include <inet/InetInterface.h>
	#include <inet/TCPEndPoint.h>
	#include <lib/core/CHIPCore.h>
	#include <lib/support/CodeUtils.h>
	#include <lib/support/PoolWrapper.h>
	#include <transport/raw/Base.h>

	namespace chip {
	namespace Transport {

	/** Defines listening parameters for setting up a TCP transport */
	class TcpListenParameters
	{
	public:
	explicit TcpListenParameters(Inet::EndPointManager<Inet::TCPEndPoint> * endPointManager) : mEndPointManager(endPointManager) {}
	TcpListenParameters(const TcpListenParameters &) = default;
	TcpListenParameters(TcpListenParameters &&) = default;

	Inet::EndPointManager<Inet::TCPEndPoint> * GetEndPointManager() { return mEndPointManager; }

	Inet::IPAddressType GetAddressType() const { return mAddressType; }
	TcpListenParameters & SetAddressType(Inet::IPAddressType type)
	{
	mAddressType = type;

	return *this;
	}

	uint16_t GetListenPort() const { return mListenPort; }
	TcpListenParameters & SetListenPort(uint16_t port)
	{
	mListenPort = port;

	return *this;
	}

	Inet::InterfaceId GetInterfaceId() const { return mInterfaceId; }
	TcpListenParameters & SetInterfaceId(Inet::InterfaceId id)
	{
	mInterfaceId = id;

	return *this;
	}

	private:
	Inet::EndPointManager<Inet::TCPEndPoint> * mEndPointManager; ///< Associated endpoint factory
	Inet::IPAddressType mAddressType = Inet::IPAddressType::kIPv6; ///< type of listening socket
	uint16_t mListenPort = CHIP_PORT; ///< TCP listen port
	Inet::InterfaceId mInterfaceId = Inet::InterfaceId::Null(); ///< Interface to listen on
	};

	/**
	* Packets scheduled for sending once a connection has been established.
	*/
	struct PendingPacket
	{
	PendingPacket(const PeerAddress & peerAddress, System::PacketBufferHandle && packetBuffer) :
	mPeerAddress(peerAddress), mPacketBuffer(std::move(packetBuffer))
	{}

	PeerAddress mPeerAddress; // where the packet is being sent to
	System::PacketBufferHandle mPacketBuffer; // what data needs to be sent
	};

	/** Implements a transport using TCP. */
	class DLL_EXPORT TCPBase : public Base
	{
	/**
	* The State of the TCP connection
	*/
	enum class State
	{
	kNotReady = 0, /*< State before initialization. /
	kInitialized = 1, /*< State after class is listening and ready. /
	};

	protected:
	/**
	* State for each active connection
	*/
	struct ActiveConnectionState
	{
	void Init(Inet::TCPEndPoint * endPoint)
	{
	mEndPoint = endPoint;
	mReceived = nullptr;
	}

	void Free()
	{
	mEndPoint->Free();
	mEndPoint = nullptr;
	mReceived = nullptr;
	}
	bool InUse() const { return mEndPoint != nullptr; }

	// Associated endpoint.
	Inet::TCPEndPoint * mEndPoint;

	// Buffers received but not yet consumed.
	System::PacketBufferHandle mReceived;
	};

	public:
	using PendingPacketPoolType = PoolInterface<PendingPacket, const PeerAddress &, System::PacketBufferHandle &&>;
	TCPBase(ActiveConnectionState * activeConnectionsBuffer, size_t bufferSize, PendingPacketPoolType & packetBuffers) :
	mActiveConnections(activeConnectionsBuffer), mActiveConnectionsSize(bufferSize), mPendingPackets(packetBuffers)
	{
	// activeConnectionsBuffer must be initialized by the caller.
	}
	~TCPBase() override;

	/**
	* Initialize a TCP transport on a given port.
	*
	* @param params TCP configuration parameters for this transport
	*
	* @details
	* Generally send and receive ports should be the same and equal to CHIP_PORT.
	* The class allows separate definitions to allow local execution of several
	* Nodes.
	*/
	CHIP_ERROR Init(TcpListenParameters & params);

	/**
	* Close the open endpoint without destroying the object
	*/
	void Close() override;

	CHIP_ERROR SendMessage(const PeerAddress & address, System::PacketBufferHandle && msgBuf) override;

	void Disconnect(const PeerAddress & address) override;

	bool CanSendToPeer(const PeerAddress & address) override
	{
	return (mState == State::kInitialized) && (address.GetTransportType() == Type::kTcp) &&
	(address.GetIPAddress().Type() == mEndpointType);
	}

	/**
	* Helper method to determine if IO processing is still required for a TCP transport
	* before everything is cleaned up (socket closing is async, so after calling 'Close' on
	* the transport, some time may be needed to actually be able to close.)
	*/
	bool HasActiveConnections() const;

	/**
	* Close all active connections.
	*/
	void CloseActiveConnections();

	private:
	friend class TCPTest;

	/**
	* Find an active connection to the given peer or return nullptr if
	* no active connection exists.
	*/
	ActiveConnectionState * FindActiveConnection(const PeerAddress & addr);
	ActiveConnectionState * FindActiveConnection(const Inet::TCPEndPoint * endPoint);

	/**
	* Sends the specified message once a connection has been established.
	*
	* @param addr - what peer to connect to
	* @param msg - what buffer to send once a connection has been established.
	*
	* Ownership of msg is taken over and will be freed at some unspecified time
	* in the future (once connection succeeds/fails).
	*/
	CHIP_ERROR SendAfterConnect(const PeerAddress & addr, System::PacketBufferHandle && msg);

	/**
	* Process a single received buffer from the specified peer address.
	*
	* @param endPoint the source end point from which the data comes from
	* @param peerAddress the peer the data is coming from
	* @param buffer the actual data
	*
	* Ownership of buffer is taken over and will be freed (or re-enqueued to the endPoint receive queue)
	* as needed during processing.
	*/
	CHIP_ERROR ProcessReceivedBuffer(Inet::TCPEndPoint * endPoint, const PeerAddress & peerAddress,
	System::PacketBufferHandle && buffer);

	/**
	* Process a single message of the specified size from a buffer.
	*
	* @param[in] peerAddress The peer the data is coming from.
	* @param[in,out] state The connection state, which contains the message. On entry, the payload points to the message
	* body (after the length). On exit, it points after the message (or the queue is null, if there
	* is no other data).
	* @param[in] messageSize Size of the single message.
	*/
	CHIP_ERROR ProcessSingleMessage(const PeerAddress & peerAddress, ActiveConnectionState * state, uint16_t messageSize);

	// Callback handler for TCPEndPoint. TCP message receive handler.
	// @see TCPEndpoint::OnDataReceivedFunct
	static CHIP_ERROR OnTcpReceive(Inet::TCPEndPoint * endPoint, System::PacketBufferHandle && buffer);

	// Callback handler for TCPEndPoint. Called when a connection has been completed.
	// @see TCPEndpoint::OnConnectCompleteFunct
	static void OnConnectionComplete(Inet::TCPEndPoint * endPoint, CHIP_ERROR err);

	// Callback handler for TCPEndPoint. Called when a connection has been closed.
	// @see TCPEndpoint::OnConnectionClosedFunct
	static void OnConnectionClosed(Inet::TCPEndPoint * endPoint, CHIP_ERROR err);

	// Callback handler for TCPEndPoint. Callend when a peer closes the connection.
	// @see TCPEndpoint::OnPeerCloseFunct
	static void OnPeerClosed(Inet::TCPEndPoint * endPoint);

	// Callback handler for TCPEndPoint. Called when a connection is received on the listening port.
	// @see TCPEndpoint::OnConnectionReceivedFunct
	static void OnConnectionReceived(Inet::TCPEndPoint * listenEndPoint, Inet::TCPEndPoint * endPoint,
	const Inet::IPAddress & peerAddress, uint16_t peerPort);

	// Called on accept error
	// @see TCPEndpoint::OnAcceptErrorFunct
	static void OnAcceptError(Inet::TCPEndPoint * endPoint, CHIP_ERROR err);

	Inet::TCPEndPoint * mListenSocket = nullptr; ///< TCP socket used by the transport
	Inet::IPAddressType mEndpointType = Inet::IPAddressType::kUnknown; ///< Socket listening type
	State mState = State::kNotReady; ///< State of the TCP transport

	// Number of active and 'pending connection' endpoints
	size_t mUsedEndPointCount = 0;

	// Currently active connections
	ActiveConnectionState * mActiveConnections;
	const size_t mActiveConnectionsSize;

	// Data to be sent when connections succeed
	PendingPacketPoolType & mPendingPackets;
	};

	template <size_t kActiveConnectionsSize, size_t kPendingPacketSize>
	class TCP : public TCPBase
	{
	public:
	TCP() : TCPBase(mConnectionsBuffer, kActiveConnectionsSize, mPendingPackets)
	{
	for (size_t i = 0; i < kActiveConnectionsSize; ++i)
	{
	mConnectionsBuffer[i].Init(nullptr);
	}
	}
	~TCP() override { mPendingPackets.ReleaseAll(); }

	private:
	friend class TCPTest;
	TCPBase::ActiveConnectionState mConnectionsBuffer[kActiveConnectionsSize];
	PoolImpl<PendingPacket, kPendingPacketSize, ObjectPoolMem::kInline, PendingPacketPoolType::Interface> mPendingPackets;
	};

	} // namespace Transport
	} // namespace chip