/*++ Copyright (c) 2001-2007 Future Technology Devices International Ltd. Module Name: ftd2xx.h Abstract: Native USB device driver for FTDI FT8U232/245 FTD2XX library definitions Environment: kernel & user mode Revision History: 13/03/01 awm Created. 13/01/03 awm Added device information support. 19/03/03 awm Added FT_W32_CancelIo. 12/06/03 awm Added FT_StopInTask and FT_RestartInTask. 18/09/03 awm Added FT_SetResetPipeRetryCount. 10/10/03 awm Added FT_ResetPort. 23/01/04 awm Added support for open-by-location. 16/03/04 awm Added support for FT2232C. 23/09/04 awm Added support for FT232R. 20/10/04 awm Added FT_CyclePort. 18/01/05 awm Added FT_DEVICE_LIST_INFO_NODE type. 11/02/05 awm Added LocId to FT_DEVICE_LIST_INFO_NODE. 25/08/05 awm Added FT_SetDeadmanTimeout. 02/12/05 awm Removed obsolete references. 05/12/05 awm Added FT_GetVersion, FT_GetVersionEx. 08/09/06 awm Added FT_W32_GetCommMask. 11/09/06 awm Added FT_Rescan. 11/07/07 awm Added support for FT2232H and FT4232H. 10/08/07 awm Added flags definitions. 21/11/07 mja Added FT_GetComPortNumber. 05/06/08 mja Added EEPROM extensions for FT2232H. --*/ #ifndef FTD2XX_H #define FTD2XX_H // The following ifdef block is the standard way of creating macros // which make exporting from a DLL simpler. All files within this DLL // are compiled with the FTD2XX_EXPORTS symbol defined on the command line. // This symbol should not be defined on any project that uses this DLL. // This way any other project whose source files include this file see // FTD2XX_API functions as being imported from a DLL, whereas this DLL // sees symbols defined with this macro as being exported. #ifdef FTD2XX_EXPORTS #define FTD2XX_API __declspec(dllexport) #else #define FTD2XX_API __declspec(dllimport) #endif typedef PVOID FT_HANDLE; typedef ULONG FT_STATUS; // // Device status // enum { FT_OK, FT_INVALID_HANDLE, FT_DEVICE_NOT_FOUND, FT_DEVICE_NOT_OPENED, FT_IO_ERROR, FT_INSUFFICIENT_RESOURCES, FT_INVALID_PARAMETER, FT_INVALID_BAUD_RATE, FT_DEVICE_NOT_OPENED_FOR_ERASE, FT_DEVICE_NOT_OPENED_FOR_WRITE, FT_FAILED_TO_WRITE_DEVICE, FT_EEPROM_READ_FAILED, FT_EEPROM_WRITE_FAILED, FT_EEPROM_ERASE_FAILED, FT_EEPROM_NOT_PRESENT, FT_EEPROM_NOT_PROGRAMMED, FT_INVALID_ARGS, FT_NOT_SUPPORTED, FT_OTHER_ERROR, FT_DEVICE_LIST_NOT_READY, }; #define FT_SUCCESS(status) ((status) == FT_OK) // // FT_OpenEx Flags // #define FT_OPEN_BY_SERIAL_NUMBER 1 #define FT_OPEN_BY_DESCRIPTION 2 #define FT_OPEN_BY_LOCATION 4 // // FT_ListDevices Flags (used in conjunction with FT_OpenEx Flags // #define FT_LIST_NUMBER_ONLY 0x80000000 #define FT_LIST_BY_INDEX 0x40000000 #define FT_LIST_ALL 0x20000000 #define FT_LIST_MASK (FT_LIST_NUMBER_ONLY|FT_LIST_BY_INDEX|FT_LIST_ALL) // // Baud Rates // #define FT_BAUD_300 300 #define FT_BAUD_600 600 #define FT_BAUD_1200 1200 #define FT_BAUD_2400 2400 #define FT_BAUD_4800 4800 #define FT_BAUD_9600 9600 #define FT_BAUD_14400 14400 #define FT_BAUD_19200 19200 #define FT_BAUD_38400 38400 #define FT_BAUD_57600 57600 #define FT_BAUD_115200 115200 #define FT_BAUD_230400 230400 #define FT_BAUD_460800 460800 #define FT_BAUD_921600 921600 // // Word Lengths // #define FT_BITS_8 (UCHAR) 8 #define FT_BITS_7 (UCHAR) 7 #define FT_BITS_6 (UCHAR) 6 #define FT_BITS_5 (UCHAR) 5 // // Stop Bits // #define FT_STOP_BITS_1 (UCHAR) 0 #define FT_STOP_BITS_1_5 (UCHAR) 1 #define FT_STOP_BITS_2 (UCHAR) 2 // // Parity // #define FT_PARITY_NONE (UCHAR) 0 #define FT_PARITY_ODD (UCHAR) 1 #define FT_PARITY_EVEN (UCHAR) 2 #define FT_PARITY_MARK (UCHAR) 3 #define FT_PARITY_SPACE (UCHAR) 4 // // Flow Control // #define FT_FLOW_NONE 0x0000 #define FT_FLOW_RTS_CTS 0x0100 #define FT_FLOW_DTR_DSR 0x0200 #define FT_FLOW_XON_XOFF 0x0400 // // Purge rx and tx buffers // #define FT_PURGE_RX 1 #define FT_PURGE_TX 2 // // Events // typedef void (*PFT_EVENT_HANDLER)(DWORD,DWORD); #define FT_EVENT_RXCHAR 1 #define FT_EVENT_MODEM_STATUS 2 #define FT_EVENT_LINE_STATUS 4 // // Timeouts // #define FT_DEFAULT_RX_TIMEOUT 300 #define FT_DEFAULT_TX_TIMEOUT 300 // // Device types // typedef ULONG FT_DEVICE; enum { FT_DEVICE_BM, FT_DEVICE_AM, FT_DEVICE_100AX, FT_DEVICE_UNKNOWN, FT_DEVICE_2232C, FT_DEVICE_232R, FT_DEVICE_2232H, FT_DEVICE_4232H }; #ifdef __cplusplus extern "C" { #endif FTD2XX_API FT_STATUS WINAPI FT_Open( int deviceNumber, FT_HANDLE *pHandle ); FTD2XX_API FT_STATUS WINAPI FT_OpenEx( PVOID pArg1, DWORD Flags, FT_HANDLE *pHandle ); FTD2XX_API FT_STATUS WINAPI FT_ListDevices( PVOID pArg1, PVOID pArg2, DWORD Flags ); FTD2XX_API FT_STATUS WINAPI FT_Close( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_Read( FT_HANDLE ftHandle, LPVOID lpBuffer, DWORD dwBytesToRead, LPDWORD lpBytesReturned ); FTD2XX_API FT_STATUS WINAPI FT_Write( FT_HANDLE ftHandle, LPVOID lpBuffer, DWORD dwBytesToWrite, LPDWORD lpBytesWritten ); FTD2XX_API FT_STATUS WINAPI FT_IoCtl( FT_HANDLE ftHandle, DWORD dwIoControlCode, LPVOID lpInBuf, DWORD nInBufSize, LPVOID lpOutBuf, DWORD nOutBufSize, LPDWORD lpBytesReturned, LPOVERLAPPED lpOverlapped ); FTD2XX_API FT_STATUS WINAPI FT_SetBaudRate( FT_HANDLE ftHandle, ULONG BaudRate ); FTD2XX_API FT_STATUS WINAPI FT_SetDivisor( FT_HANDLE ftHandle, USHORT Divisor ); FTD2XX_API FT_STATUS WINAPI FT_SetDataCharacteristics( FT_HANDLE ftHandle, UCHAR WordLength, UCHAR StopBits, UCHAR Parity ); FTD2XX_API FT_STATUS WINAPI FT_SetFlowControl( FT_HANDLE ftHandle, USHORT FlowControl, UCHAR XonChar, UCHAR XoffChar ); FTD2XX_API FT_STATUS WINAPI FT_ResetDevice( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_SetDtr( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_ClrDtr( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_SetRts( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_ClrRts( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_GetModemStatus( FT_HANDLE ftHandle, ULONG *pModemStatus ); FTD2XX_API FT_STATUS WINAPI FT_SetChars( FT_HANDLE ftHandle, UCHAR EventChar, UCHAR EventCharEnabled, UCHAR ErrorChar, UCHAR ErrorCharEnabled ); FTD2XX_API FT_STATUS WINAPI FT_Purge( FT_HANDLE ftHandle, ULONG Mask ); FTD2XX_API FT_STATUS WINAPI FT_SetTimeouts( FT_HANDLE ftHandle, ULONG ReadTimeout, ULONG WriteTimeout ); FTD2XX_API FT_STATUS WINAPI FT_GetQueueStatus( FT_HANDLE ftHandle, DWORD *dwRxBytes ); FTD2XX_API FT_STATUS WINAPI FT_SetEventNotification( FT_HANDLE ftHandle, DWORD Mask, PVOID Param ); FTD2XX_API FT_STATUS WINAPI FT_GetStatus( FT_HANDLE ftHandle, DWORD *dwRxBytes, DWORD *dwTxBytes, DWORD *dwEventDWord ); FTD2XX_API FT_STATUS WINAPI FT_SetBreakOn( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_SetBreakOff( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_SetWaitMask( FT_HANDLE ftHandle, DWORD Mask ); FTD2XX_API FT_STATUS WINAPI FT_WaitOnMask( FT_HANDLE ftHandle, DWORD *Mask ); FTD2XX_API FT_STATUS WINAPI FT_GetEventStatus( FT_HANDLE ftHandle, DWORD *dwEventDWord ); FTD2XX_API FT_STATUS WINAPI FT_ReadEE( FT_HANDLE ftHandle, DWORD dwWordOffset, LPWORD lpwValue ); FTD2XX_API FT_STATUS WINAPI FT_WriteEE( FT_HANDLE ftHandle, DWORD dwWordOffset, WORD wValue ); FTD2XX_API FT_STATUS WINAPI FT_EraseEE( FT_HANDLE ftHandle ); // // structure to hold program data for FT_Program function // typedef struct ft_program_data { DWORD Signature1; // Header - must be 0x00000000 DWORD Signature2; // Header - must be 0xffffffff DWORD Version; // Header - FT_PROGRAM_DATA version // 0 = original // 1 = FT2232C extensions // 2 = FT232R extensions // 3 = FT2232H extensions // 4 = FT4232H extensions WORD VendorId; // 0x0403 WORD ProductId; // 0x6001 char *Manufacturer; // "FTDI" char *ManufacturerId; // "FT" char *Description; // "USB HS Serial Converter" char *SerialNumber; // "FT000001" if fixed, or NULL WORD MaxPower; // 0 < MaxPower <= 500 WORD PnP; // 0 = disabled, 1 = enabled WORD SelfPowered; // 0 = bus powered, 1 = self powered WORD RemoteWakeup; // 0 = not capable, 1 = capable // // Rev4 (FT232B) extensions // UCHAR Rev4; // non-zero if Rev4 chip, zero otherwise UCHAR IsoIn; // non-zero if in endpoint is isochronous UCHAR IsoOut; // non-zero if out endpoint is isochronous UCHAR PullDownEnable; // non-zero if pull down enabled UCHAR SerNumEnable; // non-zero if serial number to be used UCHAR USBVersionEnable; // non-zero if chip uses USBVersion WORD USBVersion; // BCD (0x0200 => USB2) // // Rev 5 (FT2232) extensions // UCHAR Rev5; // non-zero if Rev5 chip, zero otherwise UCHAR IsoInA; // non-zero if in endpoint is isochronous UCHAR IsoInB; // non-zero if in endpoint is isochronous UCHAR IsoOutA; // non-zero if out endpoint is isochronous UCHAR IsoOutB; // non-zero if out endpoint is isochronous UCHAR PullDownEnable5; // non-zero if pull down enabled UCHAR SerNumEnable5; // non-zero if serial number to be used UCHAR USBVersionEnable5; // non-zero if chip uses USBVersion WORD USBVersion5; // BCD (0x0200 => USB2) UCHAR AIsHighCurrent; // non-zero if interface is high current UCHAR BIsHighCurrent; // non-zero if interface is high current UCHAR IFAIsFifo; // non-zero if interface is 245 FIFO UCHAR IFAIsFifoTar; // non-zero if interface is 245 FIFO CPU target UCHAR IFAIsFastSer; // non-zero if interface is Fast serial UCHAR AIsVCP; // non-zero if interface is to use VCP drivers UCHAR IFBIsFifo; // non-zero if interface is 245 FIFO UCHAR IFBIsFifoTar; // non-zero if interface is 245 FIFO CPU target UCHAR IFBIsFastSer; // non-zero if interface is Fast serial UCHAR BIsVCP; // non-zero if interface is to use VCP drivers // // Rev 6 (FT232R) extensions // UCHAR UseExtOsc; // Use External Oscillator UCHAR HighDriveIOs; // High Drive I/Os UCHAR EndpointSize; // Endpoint size UCHAR PullDownEnableR; // non-zero if pull down enabled UCHAR SerNumEnableR; // non-zero if serial number to be used UCHAR InvertTXD; // non-zero if invert TXD UCHAR InvertRXD; // non-zero if invert RXD UCHAR InvertRTS; // non-zero if invert RTS UCHAR InvertCTS; // non-zero if invert CTS UCHAR InvertDTR; // non-zero if invert DTR UCHAR InvertDSR; // non-zero if invert DSR UCHAR InvertDCD; // non-zero if invert DCD UCHAR InvertRI; // non-zero if invert RI UCHAR Cbus0; // Cbus Mux control UCHAR Cbus1; // Cbus Mux control UCHAR Cbus2; // Cbus Mux control UCHAR Cbus3; // Cbus Mux control UCHAR Cbus4; // Cbus Mux control UCHAR RIsD2XX; // non-zero if using D2XX driver // // Rev 7 (FT2232H) Extensions // UCHAR PullDownEnable7; // non-zero if pull down enabled UCHAR SerNumEnable7; // non-zero if serial number to be used UCHAR ALSlowSlew; // non-zero if AL pins have slow slew UCHAR ALSchmittInput; // non-zero if AL pins are Schmitt input UCHAR ALDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA UCHAR AHSlowSlew; // non-zero if AH pins have slow slew UCHAR AHSchmittInput; // non-zero if AH pins are Schmitt input UCHAR AHDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA UCHAR BLSlowSlew; // non-zero if BL pins have slow slew UCHAR BLSchmittInput; // non-zero if BL pins are Schmitt input UCHAR BLDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA UCHAR BHSlowSlew; // non-zero if BH pins have slow slew UCHAR BHSchmittInput; // non-zero if BH pins are Schmitt input UCHAR BHDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA UCHAR IFAIsFifo7; // non-zero if interface is 245 FIFO UCHAR IFAIsFifoTar7; // non-zero if interface is 245 FIFO CPU target UCHAR IFAIsFastSer7; // non-zero if interface is Fast serial UCHAR AIsVCP7; // non-zero if interface is to use VCP drivers UCHAR IFBIsFifo7; // non-zero if interface is 245 FIFO UCHAR IFBIsFifoTar7; // non-zero if interface is 245 FIFO CPU target UCHAR IFBIsFastSer7; // non-zero if interface is Fast serial UCHAR BIsVCP7; // non-zero if interface is to use VCP drivers UCHAR PowerSaveEnable; // non-zero if using BCBUS7 to save power for self-powered designs // // Rev 8 (FT4232H) Extensions // UCHAR PullDownEnable8; // non-zero if pull down enabled UCHAR SerNumEnable8; // non-zero if serial number to be used UCHAR ASlowSlew; // non-zero if AL pins have slow slew UCHAR ASchmittInput; // non-zero if AL pins are Schmitt input UCHAR ADriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA UCHAR BSlowSlew; // non-zero if AH pins have slow slew UCHAR BSchmittInput; // non-zero if AH pins are Schmitt input UCHAR BDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA UCHAR CSlowSlew; // non-zero if BL pins have slow slew UCHAR CSchmittInput; // non-zero if BL pins are Schmitt input UCHAR CDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA UCHAR DSlowSlew; // non-zero if BH pins have slow slew UCHAR DSchmittInput; // non-zero if BH pins are Schmitt input UCHAR DDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA UCHAR ARIIsTXDEN; // non-zero if port A uses RI as RS485 TXDEN UCHAR BRIIsTXDEN; // non-zero if port B uses RI as RS485 TXDEN UCHAR CRIIsTXDEN; // non-zero if port C uses RI as RS485 TXDEN UCHAR DRIIsTXDEN; // non-zero if port D uses RI as RS485 TXDEN UCHAR AIsVCP8; // non-zero if interface is to use VCP drivers UCHAR BIsVCP8; // non-zero if interface is to use VCP drivers UCHAR CIsVCP8; // non-zero if interface is to use VCP drivers UCHAR DIsVCP8; // non-zero if interface is to use VCP drivers } FT_PROGRAM_DATA, *PFT_PROGRAM_DATA; FTD2XX_API FT_STATUS WINAPI FT_EE_Program( FT_HANDLE ftHandle, PFT_PROGRAM_DATA pData ); FTD2XX_API FT_STATUS WINAPI FT_EE_ProgramEx( FT_HANDLE ftHandle, PFT_PROGRAM_DATA pData, char *Manufacturer, char *ManufacturerId, char *Description, char *SerialNumber ); FTD2XX_API FT_STATUS WINAPI FT_EE_Read( FT_HANDLE ftHandle, PFT_PROGRAM_DATA pData ); FTD2XX_API FT_STATUS WINAPI FT_EE_ReadEx( FT_HANDLE ftHandle, PFT_PROGRAM_DATA pData, char *Manufacturer, char *ManufacturerId, char *Description, char *SerialNumber ); FTD2XX_API FT_STATUS WINAPI FT_EE_UASize( FT_HANDLE ftHandle, LPDWORD lpdwSize ); FTD2XX_API FT_STATUS WINAPI FT_EE_UAWrite( FT_HANDLE ftHandle, PUCHAR pucData, DWORD dwDataLen ); FTD2XX_API FT_STATUS WINAPI FT_EE_UARead( FT_HANDLE ftHandle, PUCHAR pucData, DWORD dwDataLen, LPDWORD lpdwBytesRead ); FTD2XX_API FT_STATUS WINAPI FT_SetLatencyTimer( FT_HANDLE ftHandle, UCHAR ucLatency ); FTD2XX_API FT_STATUS WINAPI FT_GetLatencyTimer( FT_HANDLE ftHandle, PUCHAR pucLatency ); FTD2XX_API FT_STATUS WINAPI FT_SetBitMode( FT_HANDLE ftHandle, UCHAR ucMask, UCHAR ucEnable ); FTD2XX_API FT_STATUS WINAPI FT_GetBitMode( FT_HANDLE ftHandle, PUCHAR pucMode ); FTD2XX_API FT_STATUS WINAPI FT_SetUSBParameters( FT_HANDLE ftHandle, ULONG ulInTransferSize, ULONG ulOutTransferSize ); FTD2XX_API FT_STATUS WINAPI FT_SetDeadmanTimeout( FT_HANDLE ftHandle, ULONG ulDeadmanTimeout ); FTD2XX_API FT_STATUS WINAPI FT_GetDeviceInfo( FT_HANDLE ftHandle, FT_DEVICE *lpftDevice, LPDWORD lpdwID, PCHAR SerialNumber, PCHAR Description, LPVOID Dummy ); FTD2XX_API FT_STATUS WINAPI FT_StopInTask( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_RestartInTask( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_SetResetPipeRetryCount( FT_HANDLE ftHandle, DWORD dwCount ); FTD2XX_API FT_STATUS WINAPI FT_ResetPort( FT_HANDLE ftHandle ); FTD2XX_API FT_STATUS WINAPI FT_CyclePort( FT_HANDLE ftHandle ); // // Win32-type functions // FTD2XX_API FT_HANDLE WINAPI FT_W32_CreateFile( LPCTSTR lpszName, DWORD dwAccess, DWORD dwShareMode, LPSECURITY_ATTRIBUTES lpSecurityAttributes, DWORD dwCreate, DWORD dwAttrsAndFlags, HANDLE hTemplate ); FTD2XX_API BOOL WINAPI FT_W32_CloseHandle( FT_HANDLE ftHandle ); FTD2XX_API BOOL WINAPI FT_W32_ReadFile( FT_HANDLE ftHandle, LPVOID lpBuffer, DWORD nBufferSize, LPDWORD lpBytesReturned, LPOVERLAPPED lpOverlapped ); FTD2XX_API BOOL WINAPI FT_W32_WriteFile( FT_HANDLE ftHandle, LPVOID lpBuffer, DWORD nBufferSize, LPDWORD lpBytesWritten, LPOVERLAPPED lpOverlapped ); FTD2XX_API DWORD WINAPI FT_W32_GetLastError( FT_HANDLE ftHandle ); FTD2XX_API BOOL WINAPI FT_W32_GetOverlappedResult( FT_HANDLE ftHandle, LPOVERLAPPED lpOverlapped, LPDWORD lpdwBytesTransferred, BOOL bWait ); FTD2XX_API BOOL WINAPI FT_W32_CancelIo( FT_HANDLE ftHandle ); // // Win32 COMM API type functions // typedef struct _FTCOMSTAT { DWORD fCtsHold : 1; DWORD fDsrHold : 1; DWORD fRlsdHold : 1; DWORD fXoffHold : 1; DWORD fXoffSent : 1; DWORD fEof : 1; DWORD fTxim : 1; DWORD fReserved : 25; DWORD cbInQue; DWORD cbOutQue; } FTCOMSTAT, *LPFTCOMSTAT; typedef struct _FTDCB { DWORD DCBlength; /* sizeof(FTDCB) */ DWORD BaudRate; /* Baudrate at which running */ DWORD fBinary: 1; /* Binary Mode (skip EOF check) */ DWORD fParity: 1; /* Enable parity checking */ DWORD fOutxCtsFlow:1; /* CTS handshaking on output */ DWORD fOutxDsrFlow:1; /* DSR handshaking on output */ DWORD fDtrControl:2; /* DTR Flow control */ DWORD fDsrSensitivity:1; /* DSR Sensitivity */ DWORD fTXContinueOnXoff: 1; /* Continue TX when Xoff sent */ DWORD fOutX: 1; /* Enable output X-ON/X-OFF */ DWORD fInX: 1; /* Enable input X-ON/X-OFF */ DWORD fErrorChar: 1; /* Enable Err Replacement */ DWORD fNull: 1; /* Enable Null stripping */ DWORD fRtsControl:2; /* Rts Flow control */ DWORD fAbortOnError:1; /* Abort all reads and writes on Error */ DWORD fDummy2:17; /* Reserved */ WORD wReserved; /* Not currently used */ WORD XonLim; /* Transmit X-ON threshold */ WORD XoffLim; /* Transmit X-OFF threshold */ BYTE ByteSize; /* Number of bits/byte, 4-8 */ BYTE Parity; /* 0-4=None,Odd,Even,Mark,Space */ BYTE StopBits; /* 0,1,2 = 1, 1.5, 2 */ char XonChar; /* Tx and Rx X-ON character */ char XoffChar; /* Tx and Rx X-OFF character */ char ErrorChar; /* Error replacement char */ char EofChar; /* End of Input character */ char EvtChar; /* Received Event character */ WORD wReserved1; /* Fill for now. */ } FTDCB, *LPFTDCB; typedef struct _FTTIMEOUTS { DWORD ReadIntervalTimeout; /* Maximum time between read chars. */ DWORD ReadTotalTimeoutMultiplier; /* Multiplier of characters. */ DWORD ReadTotalTimeoutConstant; /* Constant in milliseconds. */ DWORD WriteTotalTimeoutMultiplier; /* Multiplier of characters. */ DWORD WriteTotalTimeoutConstant; /* Constant in milliseconds. */ } FTTIMEOUTS,*LPFTTIMEOUTS; FTD2XX_API BOOL WINAPI FT_W32_ClearCommBreak( FT_HANDLE ftHandle ); FTD2XX_API BOOL WINAPI FT_W32_ClearCommError( FT_HANDLE ftHandle, LPDWORD lpdwErrors, LPFTCOMSTAT lpftComstat ); FTD2XX_API BOOL WINAPI FT_W32_EscapeCommFunction( FT_HANDLE ftHandle, DWORD dwFunc ); FTD2XX_API BOOL WINAPI FT_W32_GetCommModemStatus( FT_HANDLE ftHandle, LPDWORD lpdwModemStatus ); FTD2XX_API BOOL WINAPI FT_W32_GetCommState( FT_HANDLE ftHandle, LPFTDCB lpftDcb ); FTD2XX_API BOOL WINAPI FT_W32_GetCommTimeouts( FT_HANDLE ftHandle, FTTIMEOUTS *pTimeouts ); FTD2XX_API BOOL WINAPI FT_W32_PurgeComm( FT_HANDLE ftHandle, DWORD dwMask ); FTD2XX_API BOOL WINAPI FT_W32_SetCommBreak( FT_HANDLE ftHandle ); FTD2XX_API BOOL WINAPI FT_W32_SetCommMask( FT_HANDLE ftHandle, ULONG ulEventMask ); FTD2XX_API BOOL WINAPI FT_W32_GetCommMask( FT_HANDLE ftHandle, LPDWORD lpdwEventMask ); FTD2XX_API BOOL WINAPI FT_W32_SetCommState( FT_HANDLE ftHandle, LPFTDCB lpftDcb ); FTD2XX_API BOOL WINAPI FT_W32_SetCommTimeouts( FT_HANDLE ftHandle, FTTIMEOUTS *pTimeouts ); FTD2XX_API BOOL WINAPI FT_W32_SetupComm( FT_HANDLE ftHandle, DWORD dwReadBufferSize, DWORD dwWriteBufferSize ); FTD2XX_API BOOL WINAPI FT_W32_WaitCommEvent( FT_HANDLE ftHandle, PULONG pulEvent, LPOVERLAPPED lpOverlapped ); // // Device information // typedef struct _ft_device_list_info_node { ULONG Flags; ULONG Type; ULONG ID; DWORD LocId; char SerialNumber[16]; char Description[64]; FT_HANDLE ftHandle; } FT_DEVICE_LIST_INFO_NODE; // Device information flags enum { FT_FLAGS_OPENED = 1, FT_FLAGS_HISPEED = 2 }; FTD2XX_API FT_STATUS WINAPI FT_CreateDeviceInfoList( LPDWORD lpdwNumDevs ); FTD2XX_API FT_STATUS WINAPI FT_GetDeviceInfoList( FT_DEVICE_LIST_INFO_NODE *pDest, LPDWORD lpdwNumDevs ); FTD2XX_API FT_STATUS WINAPI FT_GetDeviceInfoDetail( DWORD dwIndex, LPDWORD lpdwFlags, LPDWORD lpdwType, LPDWORD lpdwID, LPDWORD lpdwLocId, LPVOID lpSerialNumber, LPVOID lpDescription, FT_HANDLE *pftHandle ); // // Version information // FTD2XX_API FT_STATUS WINAPI FT_GetDriverVersion( FT_HANDLE ftHandle, LPDWORD lpdwVersion ); FTD2XX_API FT_STATUS WINAPI FT_GetLibraryVersion( LPDWORD lpdwVersion ); FTD2XX_API FT_STATUS WINAPI FT_Rescan( void ); FTD2XX_API FT_STATUS WINAPI FT_Reload( WORD wVid, WORD wPid ); FTD2XX_API FT_STATUS WINAPI FT_GetComPortNumber( FT_HANDLE ftHandle, LPLONG lpdwComPortNumber ); #ifdef __cplusplus } #endif #endif /* FTD2XX_H */