/* LUFA Library Copyright (C) Dean Camera, 2009. dean [at] fourwalledcubicle [dot] com www.fourwalledcubicle.com */ /* Copyright 2009 Dean Camera (dean [at] fourwalledcubicle [dot] com) Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that the copyright notice and this permission notice and warranty disclaimer appear in supporting documentation, and that the name of the author not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. The author disclaim all warranties with regard to this software, including all implied warranties of merchantability and fitness. In no event shall the author be liable for any special, indirect or consequential damages or any damages whatsoever resulting from loss of use, data or profits, whether in an action of contract, negligence or other tortious action, arising out of or in connection with the use or performance of this software. */ /** \file * * Header file for TCP.c. */ #ifndef _TCP_H_ #define _TCP_H_ /* Includes: */ #include #include #include #include "EthernetProtocols.h" #include "Ethernet.h" #include "ProtocolDecoders.h" /* Macros: */ /** Maximum number of TCP ports which can be open at the one time */ #define MAX_OPEN_TCP_PORTS 1 /** Maximum number of TCP connections which can be sustained at the one time */ #define MAX_TCP_CONNECTIONS 1 /** TCP window size, giving the maximum number of bytes which can be buffered at the one time */ #define TCP_WINDOW_SIZE 1024 /** Port number for HTTP transmissions */ #define TCP_PORT_HTTP SwapEndian_16(80) /** Data direction indicator for a TCP application buffer, indicating data from host-to-device */ #define TCP_PACKETDIR_IN false /** Data direction indicator for a TCP application buffer, indicating data from device-to-host */ #define TCP_PACKETDIR_OUT true /** Congestion Window Reduced TCP flag mask */ #define TCP_FLAG_CWR (1 << 7) /** Explicit Congestion Notification TCP flag mask */ #define TCP_FLAG_ECE (1 << 6) /** Urgent TCP flag mask */ #define TCP_FLAG_URG (1 << 5) /** Data Acknowledge TCP flag mask */ #define TCP_FLAG_ACK (1 << 4) /** Data Push TCP flag mask */ #define TCP_FLAG_PSH (1 << 3) /** Reset TCP flag mask */ #define TCP_FLAG_RST (1 << 2) /** Synchronize TCP flag mask */ #define TCP_FLAG_SYN (1 << 1) /** Connection Finalize TCP flag mask */ #define TCP_FLAG_FIN (1 << 0) /** Application macro: Determines if the given application buffer contains a packet received from the host * * \param Buffer Application buffer to check * * \return Boolean true if the buffer contains a packet from the host, false otherwise */ #define TCP_APP_HAS_RECEIVED_PACKET(Buffer) (Buffer->Ready && (Buffer->Direction == TCP_PACKETDIR_IN)) /** Application macro: Indicates if the application buffer is currently locked by the application for device-to-host transfers. * * \param Buffer Application buffer to check * * \return Boolean true if the buffer has been captured by the application for device-to-host transmissions, false otherwise */ #define TCP_APP_HAVE_CAPTURED_BUFFER(Buffer) (!(Buffer->Ready) && Buffer->InUse && \ (Buffer->Direction == TCP_PACKETDIR_OUT)) /** Application macro: Indicates if the application can lock the buffer for multiple continued device-to-host transmissions. * * \param Buffer Application buffer to check * * \return Boolean true if the buffer may be captured by the application for device-to-host transmissions, false otherwise */ #define TCP_APP_CAN_CAPTURE_BUFFER(Buffer) Buffer->InUse /** Application macro: Captures the application buffer, locking it for device-to-host transmissions only. This should be * performed when the application needs to transmit several packets worth of data in succession with no interruptions from the host. * * \note The application must check that the buffer can be locked first using TCP_APP_CAN_CAPTURE_BUFFER(). * * \param Buffer Application buffer to lock */ #define TCP_APP_CAPTURE_BUFFER(Buffer) MACROS{ Buffer->Direction = TCP_PACKETDIR_OUT; Buffer->InUse = true; }MACROE /** Application macro: Releases a captured application buffer, allowing for host-to-device packets to be received. * * \param Buffer Application buffer to release */ #define TCP_APP_RELEASE_BUFFER(Buffer) MACROS{ Buffer->InUse = false; }MACROE /** Application macro: Sends the contents of the given application buffer to the host. * * \param Buffer Application buffer to send * \param Len Length of data contained in the buffer */ #define TCP_APP_SEND_BUFFER(Buffer, Len) MACROS{ Buffer->Direction = TCP_PACKETDIR_OUT; Buffer->Length = Len; Buffer->Ready = true; }MACROE /** Application macro: Clears the application buffer, ready for a packet to be written to it. * * \param Buffer Application buffer to clear */ #define TCP_APP_CLEAR_BUFFER(Buffer) MACROS{ Buffer->Ready = false; Buffer->Length = 0; }MACROE /** Application macro: Closes an open connection to a host. * * \param Connection Open TCP connection to close */ #define TCP_APP_CLOSECONNECTION(Connection) MACROS{ Connection->State = TCP_Connection_Closing; }MACROE /* Enums: */ /** Enum for possible TCP port states */ enum TCP_PortStates_t { TCP_Port_Closed = 0, /**< TCP port closed, no connections to a host may be made on this port. */ TCP_Port_Open = 1, /**< TCP port open, connections to a host may be made on this port. */ }; /** Enum for possible TCP connection states */ enum TCP_ConnectionStates_t { TCP_Connection_Listen = 0, /**< Listening for a connection from a host */ TCP_Connection_SYNSent = 1, /**< Unused */ TCP_Connection_SYNReceived = 2, /**< SYN received, waiting for ACK */ TCP_Connection_Established = 3, /**< Connection established in both directions */ TCP_Connection_FINWait1 = 4, /**< Closing, waiting for ACK */ TCP_Connection_FINWait2 = 5, /**< Closing, waiting for FIN ACK */ TCP_Connection_CloseWait = 6, /**< Closing, waiting for ACK */ TCP_Connection_Closing = 7, /**< Unused */ TCP_Connection_LastACK = 8, /**< Unused */ TCP_Connection_TimeWait = 9, /**< Unused */ TCP_Connection_Closed = 10, /**< Connection closed in both directions */ }; /* Type Defines: */ /** Type define for a TCP connection buffer structure, including size, data and direction */ typedef struct { uint16_t Length; /**< Length of data in the TCP application buffer */ uint8_t Data[TCP_WINDOW_SIZE]; /**< TCP application data buffer */ bool Direction; /**< Buffer transmission direction, either TCP_PACKETDIR_IN or TCP_PACKETDIR_OUT */ bool Ready; /**< If data from host, indicates buffer ready to be read, otherwise indicates * buffer ready to be sent to the host */ bool InUse; /** Indicates if the buffer is locked to to the current direction, and cannot be changed */ } TCP_ConnectionBuffer_t; /** Type define for a TCP connection information structure */ typedef struct { uint32_t SequenceNumberIn; /**< Current TCP sequence number for host-to-device */ uint32_t SequenceNumberOut; /**< Current TCP sequence number for device-to-host */ TCP_ConnectionBuffer_t Buffer; /**< Connection application data buffer */ } TCP_ConnectionInfo_t; /** Type define for a complete TCP connection state */ typedef struct { uint16_t Port; /**< Connection port number on the device */ uint16_t RemotePort; /**< Connection port number on the host */ IP_Address_t RemoteAddress; /**< Connection protocol IP address of the host */ TCP_ConnectionInfo_t Info; /**< Connection information, including application buffer */ uint8_t State; /**< Current connection state, a value from the TCP_ConnectionStates_t enum */ } TCP_ConnectionState_t; /** Type define for a TCP port state */ typedef struct { uint16_t Port; /**< TCP port number on the device */ uint8_t State; /**< Current port state, a value from the TCP_PortStates_t enum */ void (*ApplicationHandler) (TCP_ConnectionState_t* ConnectionState, TCP_ConnectionBuffer_t* Buffer); /**< Port application handler */ } TCP_PortState_t; /** Type define for a TCP packet header */ typedef struct { uint16_t SourcePort; /**< Source port of the TCP packet */ uint16_t DestinationPort; /**< Destination port of the TCP packet */ uint32_t SequenceNumber; /**< Data sequence number of the packet */ uint32_t AcknowledgmentNumber; /**< Data acknowledgment number of the packet */ unsigned int Reserved : 4; /**< Reserved, must be all 0 */ unsigned int DataOffset : 4; /**< Offset of the data from the start of the header, in 4 byte chunks */ uint8_t Flags; /**< TCP packet flags */ uint16_t WindowSize; /**< Current data window size (bytes remaning in reception buffer) */ uint16_t Checksum; /**< TCP checksum */ uint16_t UrgentPointer; /**< Urgent data pointer */ } TCP_Header_t; /* Tasks: */ TASK(TCP_Task); /* External Variables: */ TCP_PortState_t PortStateTable[MAX_OPEN_TCP_PORTS]; /* Function Prototypes: */ void TCP_Init(void); bool TCP_SetPortState(uint16_t Port, uint8_t State, void (*Handler)(TCP_ConnectionState_t*, TCP_ConnectionBuffer_t*)); uint8_t TCP_GetPortState(uint16_t Port); bool TCP_SetConnectionState(uint16_t Port, IP_Address_t RemoteAddress, uint16_t RemotePort, uint8_t State); uint8_t TCP_GetConnectionState(uint16_t Port, IP_Address_t RemoteAddress, uint16_t RemotePort); TCP_ConnectionInfo_t* TCP_GetConnectionInfo(uint16_t Port, IP_Address_t RemoteAddress, uint16_t RemotePort); int16_t TCP_ProcessTCPPacket(void* IPHeaderInStart, void* TCPHeaderInStart, void* TCPHeaderOutStart); #if defined(INCLUDE_FROM_TCP_C) static uint16_t TCP_Checksum16(void* TCPHeaderOutStart, IP_Address_t SourceAddress, IP_Address_t DestinationAddress, uint16_t TCPOutSize); #endif #endif