unit D2XXUnit; interface Uses Windows,Forms,Dialogs, Messages, SysUtils, Variants, Classes, Graphics, Controls; Type FT_Result = Integer; // Device Info Node structure for info list functions type FT_Device_Info_Node = record Flags : DWord; DeviceType : Dword; ID : DWord; LocID : DWord; SerialNumber : array [0..15] of Char; Description : array [0..63] of Char; DeviceHandle : DWord; end; type TDWordptr = ^DWord; // Structure to hold EEPROM data for FT_EE_Program function TFT_Program_Data = record Signature1 : DWord; Signature2 : DWord; Version : DWord; VendorID : Word; ProductID : Word; Manufacturer : PChar; ManufacturerID : PChar; Description : PChar; SerialNumber : PChar; MaxPower : Word; PnP : Word; SelfPowered : Word; RemoteWakeup : Word; // Rev4 extensions Rev4 : Byte; IsoIn : Byte; IsoOut : Byte; PullDownEnable : Byte; SerNumEnable : Byte; USBVersionEnable : Byte; USBVersion : Word; // FT2232C extensions Rev5 : Byte; IsoInA : Byte; IsoInB : Byte; IsoOutA : Byte; IsoOutB : Byte; PullDownEnable5 : Byte; SerNumEnable5 : Byte; USBVersionEnable5 : Byte; USBVersion5 : Word; AIsHighCurrent : Byte; BIsHighCurrent : Byte; IFAIsFifo : Byte; IFAIsFifoTar : Byte; IFAIsFastSer : Byte; AIsVCP : Byte; IFBIsFifo : Byte; IFBIsFifoTar : Byte; IFBIsFastSer : Byte; BIsVCP : Byte; // FT232R extensions UseExtOsc : Byte; HighDriveIOs : Byte; EndpointSize : Byte; PullDownEnableR : Byte; SerNumEnableR : Byte; InvertTXD : Byte; InvertRXD : Byte; InvertRTS : Byte; InvertCTS : Byte; InvertDTR : Byte; InvertDSR : Byte; InvertDCD : Byte; InvertRI : Byte; Cbus0 : Byte; Cbus1 : Byte; Cbus2 : Byte; Cbus3 : Byte; Cbus4 : Byte; RIsVCP : Byte; end; // Exported Functions // Classic Functions Function GetFTDeviceCount : FT_Result; Function GetFTDeviceSerialNo(DeviceIndex:DWord) : FT_Result; Function GetFTDeviceDescription(DeviceIndex:DWord) : FT_Result; Function GetFTDeviceLocation(DeviceIndex:DWord) : FT_Result; Function Open_USB_Device : FT_Result; Function Open_USB_Device_By_Serial_Number(Serial_Number:string) : FT_Result; Function Open_USB_Device_By_Device_Description(Device_Description:string) : FT_Result; Function Open_USB_Device_By_Device_Location(Location:DWord) : FT_Result; Function Close_USB_Device : FT_Result; Function Read_USB_Device_Buffer(Read_Count:Integer) : Integer; Function Write_USB_Device_Buffer(Write_Count:Integer) : Integer; Function Reset_USB_Device : FT_Result; Function Set_USB_Device_BaudRate : FT_Result; Function Set_USB_Device_BaudRate_Divisor(Divisor:Dword) : FT_Result; Function Set_USB_Device_DataCharacteristics : FT_Result; Function Set_USB_Device_FlowControl : FT_Result; Function Set_USB_Device_RTS : FT_Result; Function Clr_USB_Device_RTS : FT_Result; Function Set_USB_Device_DTR : FT_Result; Function Clr_USB_Device_DTR : FT_Result; Function Get_USB_Device_ModemStatus : FT_Result; Function Set_USB_Device_Chars : FT_Result; Function Purge_USB_Device_Out : FT_Result; Function Purge_USB_Device_In : FT_Result; Function Set_USB_Device_TimeOuts(ReadTimeOut,WriteTimeOut:DWord) : FT_Result; Function Get_USB_Device_QueueStatus : FT_Result; Function Set_USB_Device_Break_On : FT_Result; Function Set_USB_Device_Break_Off : FT_Result; Function Get_USB_Device_Status : FT_Result; Function Set_USB_Device_Event_Notification(EventMask:DWord) : FT_Result; Function USB_FT_GetDeviceInfo(DevType,ID:DWord; SerialNumber,Description:array of char) : FT_Result; Function Set_USB_Device_Reset_Pipe_Retry_Count(RetryCount:DWord) : FT_Result; Function Stop_USB_Device_InTask : FT_Result; Function Restart_USB_Device_InTask : FT_Result; Function Reset_USB_Port : FT_Result; Function Cycle_USB_Port : FT_Result; Function Create_USB_Device_List : FT_Result; Function Get_USB_Device_List : FT_Result; Function Get_USB_Device_List_Detail(Index:DWord) : FT_Result; // EEPROM Functions function USB_FT_EE_Read : FT_Result; function USB_FT_C_EE_Read : FT_Result; function USB_FT_R_EE_Read : FT_Result; function USB_FT_EE_Program : FT_Result; function USB_FT_ReadEE(WordAddr:Dword) : FT_Result; function USB_FT_WriteEE(WordAddr:Dword;WordData:Word) : FT_Result; function USB_FT_EraseEE : FT_Result; function USB_FT_EE_UARead : FT_Result; function USB_FT_EE_UAWrite : FT_Result; function USB_FT_EE_UASize : FT_Result; // FT2232C, FT232BM and FT245BM Extended API Functions Function Get_USB_Device_LatencyTimer : FT_Result; Function Set_USB_Device_LatencyTimer(Latency : Byte) : FT_Result; Function Get_USB_Device_BitMode(var BitMode:Byte) : FT_Result; Function Set_USB_Device_BitMode(Mask, Enable:Byte) : FT_Result; Function Set_USB_Parameters(InSize, OutSize:Dword) : FT_Result; Function Get_USB_Driver_Version(DrVersion : TDWordptr): FT_Result; Function Get_USB_Library_Version(LbVersion : TDWordptr): FT_Result; Var // Port Handle Returned by the Open Function // Used by the Subsequent Function Calls FT_HANDLE : DWord = 0; // Used to handle multiple device instances in future // versions. Must be set to 0 for now. // PV_Device : DWord = 0; // Holding Variables for the current settings // Can be configured visually using the CFGUnit Unit // or manually before calling SetUp_USB_Device FT_Current_Baud : Dword; FT_Current_DataBits : Byte; FT_Current_StopBits : Byte; FT_Current_Parity : Byte; FT_Current_FlowControl : Word; FT_RTS_On : Boolean; FT_DTR_On : Boolean; FT_Event_On : Boolean; FT_Error_On : Boolean; FT_XON_Value : Byte = $11; FT_XOFF_Value : Byte = $13; FT_EVENT_Value : Byte = $0; FT_ERROR_Value : Byte = $0; // Used by CFGUnit to flag a bad value FT_SetupError : Boolean; // Used to Return the current Modem Status FT_Modem_Status : DWord; // Used to return the number of bytes pending // in the Rx Buffer Queue FT_Q_Bytes : DWord; FT_TxQ_Bytes : DWord; FT_Event_Status : DWord; // Used to Enable / Disable the Error Report Dialog FT_Enable_Error_Report : Boolean = True; // Deposit for Get latency timer FT_LatencyRd : Byte; FT_DeviceInfoList : array of FT_Device_Info_Node; Manufacturer: array [0..63] of char; ManufacturerID: array [0..15] of char; Description: array [0..63] of char; SerialNumber: array [0..15] of char; LocID : DWord; EEDataBuffer : TFT_Program_Data; UserData : array [0..63] of byte; FT_UA_Size : integer; WordRead : Word; Const // FT_Result Values FT_OK = 0; FT_INVALID_HANDLE = 1; FT_DEVICE_NOT_FOUND = 2; FT_DEVICE_NOT_OPENED = 3; FT_IO_ERROR = 4; FT_INSUFFICIENT_RESOURCES = 5; FT_INVALID_PARAMETER = 6; FT_SUCCESS = FT_OK; FT_INVALID_BAUD_RATE = 7; FT_DEVICE_NOT_OPENED_FOR_ERASE = 8; FT_DEVICE_NOT_OPENED_FOR_WRITE = 9; FT_FAILED_TO_WRITE_DEVICE = 10; FT_EEPROM_READ_FAILED = 11; FT_EEPROM_WRITE_FAILED = 12; FT_EEPROM_ERASE_FAILED = 13; FT_EEPROM_NOT_PRESENT = 14; FT_EEPROM_NOT_PROGRAMMED = 15; FT_INVALID_ARGS = 16; FT_OTHER_ERROR = 17; // FT_Open_Ex Flags FT_OPEN_BY_SERIAL_NUMBER = 1; FT_OPEN_BY_DESCRIPTION = 2; FT_OPEN_BY_LOCATION = 4; // FT_List_Devices Flags FT_LIST_NUMBER_ONLY = $80000000; FT_LIST_BY_INDEX = $40000000; FT_LIST_ALL = $20000000; // Baud Rate Selection FT_BAUD_300 = 300; FT_BAUD_600 = 600; FT_BAUD_1200 = 1200; FT_BAUD_2400 = 2400; FT_BAUD_4800 = 4800; FT_BAUD_9600 = 9600; FT_BAUD_14400 = 14400; FT_BAUD_19200 = 19200; FT_BAUD_38400 = 38400; FT_BAUD_57600 = 57600; FT_BAUD_115200 = 115200; FT_BAUD_230400 = 230400; FT_BAUD_460800 = 460800; FT_BAUD_921600 = 921600; // Data Bits Selection FT_DATA_BITS_7 = 7; FT_DATA_BITS_8 = 8; // Stop Bits Selection FT_STOP_BITS_1 = 0; FT_STOP_BITS_2 = 2; // Parity Selection FT_PARITY_NONE = 0; FT_PARITY_ODD = 1; FT_PARITY_EVEN = 2; FT_PARITY_MARK = 3; FT_PARITY_SPACE = 4; // Flow Control Selection FT_FLOW_NONE = $0000; FT_FLOW_RTS_CTS = $0100; FT_FLOW_DTR_DSR = $0200; FT_FLOW_XON_XOFF = $0400; // Purge Commands FT_PURGE_RX = 1; FT_PURGE_TX = 2; // Notification Events FT_EVENT_RXCHAR = 1; FT_EVENT_MODEM_STATUS = 2; // Modem Status CTS = $10; DSR = $20; RI = $40; DCD = $80; // IO Buffer Sizes FT_In_Buffer_Size = $10000; // 64k FT_In_Buffer_Index = FT_In_Buffer_Size - 1; FT_Out_Buffer_Size = $10000; // 64k FT_Out_Buffer_Index = FT_Out_Buffer_Size - 1; // DLL Name FT_DLL_Name = 'FTD2XX.DLL'; var // Declare Input and Output Buffers FT_In_Buffer : Array[0..FT_In_Buffer_Index] of Byte; FT_Out_Buffer : Array[0..FT_Out_Buffer_Index] of Byte; // A variable used to detect time-outs // Attach a timer to the main project form // which decrements this every 10mS if // FT_TimeOut_Count <> 0 FT_TimeOut_Count : Integer = 0; // Used to determine how many bytes were // actually received by FT_Read_Device_All // in the case of a time-out FT_All_Bytes_Received : Integer = 0; FT_IO_Status : Ft_Result = FT_OK; // Used By FT_ListDevices FT_Device_Count : DWord; FT_Device_String_Buffer : array [1..50] of Char; FT_Device_String : String; FT_Device_Location : DWord; USB_Device_Info_Node : FT_Device_Info_Node; FT_Event_Handle : DWord; implementation //Classic functions function FT_GetNumDevices(pvArg1:Pointer; pvArg2:Pointer; dwFlags:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_ListDevices'; function FT_ListDevices(pvArg1:Dword; pvArg2:Pointer; dwFlags:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_ListDevices'; function FT_Open(Index:Integer; ftHandle:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_Open'; function FT_OpenEx(pvArg1:Pointer; dwFlags:Dword; ftHandle:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_OpenEx'; function FT_OpenByLocation(pvArg1:DWord; dwFlags:Dword; ftHandle:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_OpenEx'; function FT_Close(ftHandle:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_Close'; function FT_Read(ftHandle:Dword; FTInBuf:Pointer; BufferSize:LongInt; ResultPtr:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_Read'; function FT_Write(ftHandle:Dword; FTOutBuf:Pointer; BufferSize:LongInt; ResultPtr:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_Write'; function FT_ResetDevice(ftHandle:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_ResetDevice'; function FT_SetBaudRate(ftHandle:Dword; BaudRate:DWord):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetBaudRate'; function FT_SetDivisor(ftHandle:Dword; Divisor:DWord):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetDivisor'; function FT_SetDataCharacteristics(ftHandle:Dword; WordLength,StopBits,Parity:Byte):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetDataCharacteristics'; function FT_SetFlowControl(ftHandle:Dword; FlowControl:Word; XonChar,XoffChar:Byte):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetFlowControl'; function FT_SetDtr(ftHandle:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetDtr'; function FT_ClrDtr(ftHandle:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_ClrDtr'; function FT_SetRts(ftHandle:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetRts'; function FT_ClrRts(ftHandle:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_ClrRts'; function FT_GetModemStatus(ftHandle:Dword; ModemStatus:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_GetModemStatus'; function FT_SetChars(ftHandle:Dword; EventChar,EventCharEnabled,ErrorChar,ErrorCharEnabled:Byte):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetChars'; function FT_Purge(ftHandle:Dword; Mask:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_Purge'; function FT_SetTimeouts(ftHandle:Dword; ReadTimeout,WriteTimeout:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetTimeouts'; function FT_GetQueueStatus(ftHandle:Dword; RxBytes:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_GetQueueStatus'; function FT_SetBreakOn(ftHandle:Dword) : FT_Result; stdcall; External FT_DLL_Name name 'FT_SetBreakOn'; function FT_SetBreakOff(ftHandle:Dword) : FT_Result; stdcall; External FT_DLL_Name name 'FT_SetBreakOff'; function FT_GetStatus(ftHandle:DWord; RxBytes,TxBytes,EventStatus:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_GetStatus'; function FT_SetEventNotification(ftHandle:DWord; EventMask:DWord; pvArgs:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetEventNotification'; function FT_GetDeviceInfo(ftHandle:DWord; DevType,ID,SerNum,Desc,pvDummy:Pointer) : FT_Result; stdcall; External FT_DLL_Name name 'FT_GetDeviceInfo'; function FT_SetResetPipeRetryCount(ftHandle:Dword; RetryCount:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetResetPipeRetryCount'; function FT_StopInTask(ftHandle:Dword) : FT_Result; stdcall; External FT_DLL_Name name 'FT_StopInTask'; function FT_RestartInTask(ftHandle:Dword) : FT_Result; stdcall; External FT_DLL_Name name 'FT_RestartInTask'; function FT_ResetPort(ftHandle:Dword) : FT_Result; stdcall; External FT_DLL_Name name 'FT_ResetPort'; function FT_CyclePort(ftHandle:Dword) : FT_Result; stdcall; External 'FTD2XX.DLL' name 'FT_CyclePort'; function FT_CreateDeviceInfoList(NumDevs:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_CreateDeviceInfoList'; function FT_GetDeviceInfoList(pFT_Device_Info_List:Pointer; NumDevs:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_GetDeviceInfoList'; function FT_GetDeviceInfoDetail(Index:DWord; Flags,DevType,ID,LocID,SerialNumber,Description,DevHandle:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_GetDeviceInfoDetail'; function FT_GetDriverVersion(ftHandle:Dword; DrVersion:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_GetDriverVersion'; function FT_GetLibraryVersion(LbVersion:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_GetLibraryVersion'; // EEPROM functions function FT_EE_Read(ftHandle:DWord; pEEData:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_EE_Read'; function FT_EE_Program(ftHandle:DWord; pEEData:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_EE_Program'; // EEPROM primitives - you need an NDA for EEPROM checksum function FT_ReadEE(ftHandle:DWord; WordAddr:DWord; WordRead:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_ReadEE'; function FT_WriteEE(ftHandle:DWord; WordAddr:DWord; WordData:word):FT_Result; stdcall; External FT_DLL_Name name 'FT_WriteEE'; function FT_EraseEE(ftHandle:DWord):FT_Result; stdcall; External FT_DLL_Name name 'FT_EraseEE'; function FT_EE_UARead(ftHandle:DWord; Data:Pointer; DataLen:DWord; BytesRead:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_EE_UARead'; function FT_EE_UAWrite(ftHandle:DWord; Data:Pointer; DataLen:DWord):FT_Result; stdcall; External FT_DLL_Name name 'FT_EE_UAWrite'; function FT_EE_UASize(ftHandle:DWord; UASize:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_EE_UASize'; // FT2232C, FT232BM and FT245BM Extended API Functions function FT_GetLatencyTimer(ftHandle:Dword; Latency:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_GetLatencyTimer'; function FT_SetLatencyTimer(ftHandle:Dword; Latency:Byte):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetLatencyTimer'; function FT_GetBitMode(ftHandle:Dword; BitMode:Pointer):FT_Result; stdcall; External FT_DLL_Name name 'FT_GetBitMode'; function FT_SetBitMode(ftHandle:Dword; Mask,Enable:Byte):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetBitMode'; function FT_SetUSBParameters(ftHandle:Dword; InSize,OutSize:Dword):FT_Result; stdcall; External FT_DLL_Name name 'FT_SetUSBParameters'; Procedure FT_Error_Report(ErrStr: String; PortStatus : Integer); Var Str : String; Begin If Not FT_Enable_Error_Report then Exit; If PortStatus = FT_OK then Exit; Case PortStatus of FT_INVALID_HANDLE : Str := ErrStr+' - Invalid handle...'; FT_DEVICE_NOT_FOUND : Str := ErrStr+' - Device not found...'; FT_DEVICE_NOT_OPENED : Str := ErrStr+' - Device not opened...'; FT_IO_ERROR : Str := ErrStr+' - General IO error...'; FT_INSUFFICIENT_RESOURCES : Str := ErrStr+' - Insufficient resources...'; FT_INVALID_PARAMETER : Str := ErrStr+' - Invalid parameter...'; FT_INVALID_BAUD_RATE : Str := ErrStr+' - Invalid baud rate...'; FT_DEVICE_NOT_OPENED_FOR_ERASE : Str := ErrStr+' Device not opened for erase...'; FT_DEVICE_NOT_OPENED_FOR_WRITE : Str := ErrStr+' Device not opened for write...'; FT_FAILED_TO_WRITE_DEVICE : Str := ErrStr+' - Failed to write...'; FT_EEPROM_READ_FAILED : Str := ErrStr+' - EEPROM read failed...'; FT_EEPROM_WRITE_FAILED : Str := ErrStr+' - EEPROM write failed...'; FT_EEPROM_ERASE_FAILED : Str := ErrStr+' - EEPROM erase failed...'; FT_EEPROM_NOT_PRESENT : Str := ErrStr+' - EEPROM not present...'; FT_EEPROM_NOT_PROGRAMMED : Str := ErrStr+' - EEPROM not programmed...'; FT_INVALID_ARGS : Str := ErrStr+' - Invalid arguments...'; FT_OTHER_ERROR : Str := ErrStr+' - Other error ...'; End; MessageDlg(Str, mtError, [mbOk], 0); End; Function GetDeviceString : String; Var I : Integer; Begin Result := ''; I := 1; FT_Device_String_Buffer[50] := Chr(0); // Just in case ! While FT_Device_String_Buffer[I] <> Chr(0) do Begin Result := Result + FT_Device_String_Buffer[I]; Inc(I); End; End; Procedure SetDeviceString ( S : String ); Var I,L : Integer; Begin FT_Device_String_Buffer[1] := Chr(0); L := Length(S); If L > 49 then L := 49; If L = 0 then Exit; For I := 1 to L do FT_Device_String_Buffer[I] := S[I]; FT_Device_String_Buffer[L+1] := Chr(0); End; // FTD2XX functions from here Function GetFTDeviceCount : FT_Result; Begin Result := FT_GetNumDevices(@FT_Device_Count,Nil,FT_LIST_NUMBER_ONLY); If Result <> FT_OK then FT_Error_Report('GetFTDeviceCount',Result); End; Function GetFTDeviceSerialNo(DeviceIndex:DWord) : FT_Result; Begin Result := FT_ListDevices(DeviceIndex,@SerialNumber,(FT_OPEN_BY_SERIAL_NUMBER or FT_LIST_BY_INDEX)); If Result = FT_OK then FT_Device_String := SerialNumber; If Result <> FT_OK then FT_Error_Report('GetFTDeviceSerialNo',Result); End; Function GetFTDeviceDescription(DeviceIndex:DWord) : FT_Result; Begin Result := FT_ListDevices(DeviceIndex,@Description,(FT_OPEN_BY_DESCRIPTION or FT_LIST_BY_INDEX)); If Result = FT_OK then FT_Device_String := Description; If Result <> FT_OK then FT_Error_Report('GetFTDeviceDescription',Result); End; Function GetFTDeviceLocation(DeviceIndex:DWord) : FT_Result; Begin Result := FT_ListDevices(DeviceIndex,@LocID,(FT_OPEN_BY_LOCATION or FT_LIST_BY_INDEX)); If Result = FT_OK then FT_Device_Location := LocID; If Result <> FT_OK then FT_Error_Report('GetFTDeviceLocation',Result); End; Function Open_USB_Device : FT_Result; Var DevIndex : DWord; Begin DevIndex := 0; Result := FT_Open(DevIndex,@FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_Open',Result); End; Function Open_USB_Device_By_Serial_Number(Serial_Number:string) : FT_Result; Begin SetDeviceString(Serial_Number); Result := FT_OpenEx(@FT_Device_String_Buffer,FT_OPEN_BY_SERIAL_NUMBER,@FT_Handle); If Result <> FT_OK then FT_Error_Report('Open_USB_Device_By_Serial_Number',Result); End; Function Open_USB_Device_By_Device_Description(Device_Description:string) : FT_Result; Begin SetDeviceString(Device_Description); Result := FT_OpenEx(@FT_Device_String_Buffer,FT_OPEN_BY_DESCRIPTION,@FT_Handle); If Result <> FT_OK then FT_Error_Report('Open_USB_Device_By_Device_Description',Result); End; Function Open_USB_Device_By_Device_Location(Location:DWord) : FT_Result; Begin Result := FT_OpenByLocation(Location,FT_OPEN_BY_LOCATION,@FT_Handle); If Result <> FT_OK then FT_Error_Report('Open_USB_Device_By_Device_Location',Result); End; Function Close_USB_Device : FT_Result; Begin Result := FT_Close(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_Close',Result); End; function Read_USB_Device_Buffer( Read_Count : Integer ) : Integer; // Reads Read_Count Bytes (or less) from the USB device to the FT_In_Buffer // Function returns the number of bytes actually received which may range from zero // to the actual number of bytes requested, depending on how many have been received // at the time of the request + the read timeout value. Var Read_Result : Integer; Begin if (read_count = 1) then begin read_result := read_count; end; FT_IO_Status := FT_Read(FT_Handle,@FT_In_Buffer,Read_Count,@Read_Result); If FT_IO_Status <> FT_OK then FT_Error_Report('FT_Read',FT_IO_Status); Result := Read_Result; End; function Write_USB_Device_Buffer( Write_Count : Integer ) : Integer; // Writes Write_Count Bytes from FT_Out_Buffer to the USB device // Function returns the number of bytes actually sent // In this example, Write_Count should be 32k bytes max Var Write_Result : Integer; Begin FT_IO_Status := FT_Write(FT_Handle,@FT_Out_Buffer,Write_Count,@Write_Result); If FT_IO_Status <> FT_OK then FT_Error_Report('FT_Write',FT_IO_Status); Result := Write_Result; End; Function Reset_USB_Device : FT_Result; Begin Result := FT_ResetDevice(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_ResetDevice',Result); End; Function Set_USB_Device_BaudRate : FT_Result; Begin Result := FT_SetBaudRate(FT_Handle,FT_Current_Baud); If Result <> FT_OK then FT_Error_Report('FT_SetBaudRate',Result); End; Function Set_USB_Device_BaudRate_Divisor(Divisor:Dword) : FT_Result; Begin Result := FT_SetDivisor(FT_Handle,Divisor); If Result <> FT_OK then FT_Error_Report('FT_SetDivisor',Result); End; Function Set_USB_Device_DataCharacteristics : FT_Result; Begin Result := FT_SetDataCharacteristics(FT_Handle,FT_Current_DataBits,FT_Current_StopBits,FT_Current_Parity); If Result <> FT_OK then FT_Error_Report('FT_SetDataCharacteristics',Result); End; Function Set_USB_Device_FlowControl : FT_Result; Begin Result := FT_SetFlowControl(FT_Handle,FT_Current_FlowControl,FT_XON_Value,FT_XOFF_Value); If Result <> FT_OK then FT_Error_Report('FT_SetFlowControl',Result); End; Function Set_USB_Device_RTS : FT_Result; Begin Result := FT_SetRTS(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_SetRTS',Result); End; Function Clr_USB_Device_RTS : FT_Result; Begin Result := FT_ClrRTS(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_ClrRTS',Result); End; Function Set_USB_Device_DTR : FT_Result; Begin Result := FT_SetDTR(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_SetDTR',Result); End; Function Clr_USB_Device_DTR : FT_Result; Begin Result := FT_ClrDTR(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_ClrDTR',Result); End; Function Get_USB_Device_ModemStatus : FT_Result; Begin Result := FT_GetModemStatus(FT_Handle,@FT_Modem_Status); If Result <> FT_OK then FT_Error_Report('FT_GetModemStatus',Result); End; Function Set_USB_Device_Chars : FT_Result; Var Events_On,Errors_On : Byte; Begin If FT_Event_On then Events_On := 1 else Events_On := 0; If FT_Error_On then Errors_On := 1 else Errors_On := 0; Result := FT_SetChars(FT_Handle,FT_EVENT_Value,Events_On,FT_ERROR_Value,Errors_On); If Result <> FT_OK then FT_Error_Report('FT_SetChars',Result); End; Function Purge_USB_Device_Out : FT_Result; Begin Result := FT_Purge(FT_Handle,FT_PURGE_RX); If Result <> FT_OK then FT_Error_Report('FT_Purge RX',Result); End; Function Purge_USB_Device_In : FT_Result; Begin Result := FT_Purge(FT_Handle,FT_PURGE_TX); If Result <> FT_OK then FT_Error_Report('FT_Purge TX',Result); End; Function Set_USB_Device_TimeOuts(ReadTimeOut,WriteTimeOut:DWord) : FT_Result; Begin Result := FT_SetTimeouts(FT_Handle,ReadTimeout,WriteTimeout); If Result <> FT_OK then FT_Error_Report('FT_SetTimeouts',Result); End; Function Get_USB_Device_QueueStatus : FT_Result; Begin Result := FT_GetQueueStatus(FT_Handle,@FT_Q_Bytes); If Result <> FT_OK then FT_Error_Report('FT_GetQueueStatus',Result); End; Function Set_USB_Device_Break_On : FT_Result; Begin Result := FT_SetBreakOn(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_SetBreakOn',Result); End; Function Set_USB_Device_Break_Off : FT_Result; Begin Result := FT_SetBreakOff(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_SetBreakOff',Result); End; Function Get_USB_Device_Status : FT_Result; Begin Result := FT_GetStatus(FT_Handle, @FT_Q_Bytes, @FT_TxQ_Bytes, @FT_Event_Status); If Result <> FT_OK then FT_Error_Report('FT_GetStatus',Result); End; Function Set_USB_Device_Event_Notification(EventMask:DWord) : FT_Result; Begin Result := FT_SetEventNotification(FT_Handle,EventMask,FT_Event_Handle); If Result <> FT_OK then FT_Error_Report('FT_SetEventNotification ',Result); End; Function USB_FT_GetDeviceInfo(DevType,ID:DWord; SerialNumber,Description:array of char) : FT_Result; begin Result := FT_GetDeviceInfo(FT_Handle,@DevType,@ID,@SerialNumber,@Description,Nil); If Result <> FT_OK then FT_Error_Report('FT_GetDeviceInfo ',Result); end; Function Set_USB_Device_Reset_Pipe_Retry_Count(RetryCount:DWord) : FT_Result; Begin Result := FT_SetResetPiperetryCount(FT_Handle, RetryCount); If Result <> FT_OK then FT_Error_Report('FT_SetResetPipeRetryCount',Result); End; Function Stop_USB_Device_InTask : FT_Result; Begin Result := FT_StopInTask(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_StopInTask',Result); End; Function Restart_USB_Device_InTask : FT_Result; Begin Result := FT_RestartInTask(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_RestartInTask',Result); End; Function Reset_USB_Port : FT_Result; Begin Result := FT_ResetPort(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_ResetPort',Result); End; Function Cycle_USB_Port : FT_Result; Begin Result := FT_CyclePort(FT_Handle); If Result <> FT_OK then FT_Error_Report('FT_CyclePort',Result); End; Function Create_USB_Device_List : FT_Result; Begin Result := FT_CreateDeviceInfoList(@FT_Device_Count); If Result <> FT_OK then FT_Error_Report('FT_CreateDeviceInfoList',Result); End; Function Get_USB_Device_List : FT_Result; Begin SetLength(FT_DeviceInfoList,FT_Device_Count); Result := FT_GetDeviceInfoList(FT_DeviceInfoList, @FT_Device_Count); If Result <> FT_OK then FT_Error_Report('FT_GetDeviceInfoList',Result); End; Function Get_USB_Driver_Version(DrVersion : TDWordPtr) : FT_Result; Begin Result := FT_GetDriverVersion(FT_Handle, DrVersion); If Result <> FT_OK then FT_Error_Report('FT_GetDriverVersion',Result); End; Function Get_USB_Library_Version(LbVersion : TDWordPtr) : FT_Result; Begin Result := FT_GetLibraryVersion(LbVersion); If Result <> FT_OK then FT_Error_Report('FT_GetLibraryVersion',Result); End; Function Get_USB_Device_List_Detail(Index:DWord) : FT_Result; Begin // Initialise structure USB_Device_Info_Node.Flags := 0; USB_Device_Info_Node.DeviceType := 0; USB_Device_Info_Node.ID := 0; USB_Device_Info_Node.LocID := 0; USB_Device_Info_Node.SerialNumber := ''; USB_Device_Info_Node.Description := ''; USB_Device_Info_Node.DeviceHandle := 0; Result := FT_GetDeviceInfoDetail(Index,@USB_Device_Info_Node.Flags,@USB_Device_Info_Node.DeviceType, @USB_Device_Info_Node.ID,@USB_Device_Info_Node.LocID,@USB_Device_Info_Node.SerialNumber, @USB_Device_Info_Node.Description,@USB_Device_Info_Node.DeviceHandle); If Result <> FT_OK then FT_Error_Report('FT_GetDeviceInfoListDetail',Result); End; function USB_FT_EE_Read : FT_Result; // Read BM/AM device EEPROM begin EEDataBuffer.Signature1 := 0; EEDataBuffer.Signature2 := $FFFFFFFF; EEDataBuffer.Version := 0; // 0 for AM/BM, 1 for C, 2 for R EEDataBuffer.VendorId :=0; EEDataBuffer.ProductId := 0; EEDataBuffer.Manufacturer := @Manufacturer; EEDataBuffer.ManufacturerId := @ManufacturerId; EEDataBuffer.Description := @Description; EEDataBuffer.SerialNumber := @SerialNumber; EEDataBuffer.MaxPower := 0; EEDataBuffer.PnP := 0; EEDataBuffer.SelfPowered := 0; EEDataBuffer.RemoteWakeup := 0; EEDataBuffer.Rev4 := 0; EEDataBuffer.IsoIn := 0; EEDataBuffer.IsoOut := 0; EEDataBuffer.PullDownEnable := 0; EEDataBuffer.SerNumEnable := 0; EEDataBuffer.USBVersionEnable := 0; EEDataBuffer.USBVersion := 0; // FT2232C Extensions EEDataBuffer.Rev5 := 0; EEDataBuffer.IsoInA := 0; EEDataBuffer.IsoInB := 0; EEDataBuffer.IsoOutA := 0; EEDataBuffer.IsoOutB := 0; EEDataBuffer.PullDownEnable5 := 0; EEDataBuffer.SerNumEnable5 := 0; EEDataBuffer.USBVersionEnable5 := 0; EEDataBuffer.USBVersion5 := 0; EEDataBuffer.AIsHighCurrent := 0; EEDataBuffer.BIsHighCurrent := 0; EEDataBuffer.IFAIsFifo := 0; EEDataBuffer.IFAIsFifoTar := 0; EEDataBuffer.IFAIsFastSer := 0; EEDataBuffer.AIsVCP := 0; EEDataBuffer.IFBIsFifo := 0; EEDataBuffer.IFBIsFifoTar := 0; EEDataBuffer.IFBIsFastSer := 0; EEDataBuffer.BIsVCP := 0; // FT232R extensions EEDataBuffer.UseExtOsc := 0; EEDataBuffer.HighDriveIOs := 0; EEDataBuffer.EndpointSize := 0; EEDataBuffer.PullDownEnableR := 0; EEDataBuffer.SerNumEnableR := 0; EEDataBuffer.InvertTXD := 0; EEDataBuffer.InvertRXD := 0; EEDataBuffer.InvertRTS := 0; EEDataBuffer.InvertCTS := 0; EEDataBuffer.InvertDTR := 0; EEDataBuffer.InvertDSR := 0; EEDataBuffer.InvertDCD := 0; EEDataBuffer.InvertRI := 0; EEDataBuffer.Cbus0 := 0; EEDataBuffer.Cbus1 := 0; EEDataBuffer.Cbus2 := 0; EEDataBuffer.Cbus3 := 0; EEDataBuffer.Cbus4 := 0; EEDataBuffer.RIsVCP := 0; Result := FT_EE_Read(FT_Handle,@EEDataBuffer); If Result <> FT_OK then FT_Error_Report('FT_EE_Read ',Result); end; function USB_FT_C_EE_Read : FT_Result; // Read FT2232C device EEPROM begin EEDataBuffer.Signature1 := 0; EEDataBuffer.Signature2 := $FFFFFFFF; EEDataBuffer.Version := 1; // 0 for AM/BM, 1 for C, 2 for R EEDataBuffer.VendorId :=0; EEDataBuffer.ProductId := 0; EEDataBuffer.Manufacturer := @Manufacturer; EEDataBuffer.ManufacturerId := @ManufacturerId; EEDataBuffer.Description := @Description; EEDataBuffer.SerialNumber := @SerialNumber; EEDataBuffer.MaxPower := 0; EEDataBuffer.PnP := 0; EEDataBuffer.SelfPowered := 0; EEDataBuffer.RemoteWakeup := 0; EEDataBuffer.Rev4 := 0; EEDataBuffer.IsoIn := 0; EEDataBuffer.IsoOut := 0; EEDataBuffer.PullDownEnable := 0; EEDataBuffer.SerNumEnable := 0; EEDataBuffer.USBVersionEnable := 0; EEDataBuffer.USBVersion := 0; // FT2232C Extensions EEDataBuffer.Rev5 := 0; EEDataBuffer.IsoInA := 0; EEDataBuffer.IsoInB := 0; EEDataBuffer.IsoOutA := 0; EEDataBuffer.IsoOutB := 0; EEDataBuffer.PullDownEnable5 := 0; EEDataBuffer.SerNumEnable5 := 0; EEDataBuffer.USBVersionEnable5 := 0; EEDataBuffer.USBVersion5 := 0; EEDataBuffer.AIsHighCurrent := 0; EEDataBuffer.BIsHighCurrent := 0; EEDataBuffer.IFAIsFifo := 0; EEDataBuffer.IFAIsFifoTar := 0; EEDataBuffer.IFAIsFastSer := 0; EEDataBuffer.AIsVCP := 0; EEDataBuffer.IFBIsFifo := 0; EEDataBuffer.IFBIsFifoTar := 0; EEDataBuffer.IFBIsFastSer := 0; EEDataBuffer.BIsVCP := 0; // FT232R extensions EEDataBuffer.UseExtOsc := 0; EEDataBuffer.HighDriveIOs := 0; EEDataBuffer.EndpointSize := 0; EEDataBuffer.PullDownEnableR := 0; EEDataBuffer.SerNumEnableR := 0; EEDataBuffer.InvertTXD := 0; EEDataBuffer.InvertRXD := 0; EEDataBuffer.InvertRTS := 0; EEDataBuffer.InvertCTS := 0; EEDataBuffer.InvertDTR := 0; EEDataBuffer.InvertDSR := 0; EEDataBuffer.InvertDCD := 0; EEDataBuffer.InvertRI := 0; EEDataBuffer.Cbus0 := 0; EEDataBuffer.Cbus1 := 0; EEDataBuffer.Cbus2 := 0; EEDataBuffer.Cbus3 := 0; EEDataBuffer.Cbus4 := 0; EEDataBuffer.RIsVCP := 0; Result := FT_EE_Read(FT_Handle,@EEDataBuffer); If Result <> FT_OK then FT_Error_Report('FT_EE_Read ',Result); end; function USB_FT_R_EE_Read : FT_Result; // Read FT232R device EEPROM begin EEDataBuffer.Signature1 := 0; EEDataBuffer.Signature2 := $FFFFFFFF; EEDataBuffer.Version := 2; // 0 for AM/BM, 1 for C, 2 for R EEDataBuffer.VendorId :=0; EEDataBuffer.ProductId := 0; EEDataBuffer.Manufacturer := @Manufacturer; EEDataBuffer.ManufacturerId := @ManufacturerId; EEDataBuffer.Description := @Description; EEDataBuffer.SerialNumber := @SerialNumber; EEDataBuffer.MaxPower := 0; EEDataBuffer.PnP := 0; EEDataBuffer.SelfPowered := 0; EEDataBuffer.RemoteWakeup := 0; EEDataBuffer.Rev4 := 0; EEDataBuffer.IsoIn := 0; EEDataBuffer.IsoOut := 0; EEDataBuffer.PullDownEnable := 0; EEDataBuffer.SerNumEnable := 0; EEDataBuffer.USBVersionEnable := 0; EEDataBuffer.USBVersion := 0; // FT2232C Extensions EEDataBuffer.Rev5 := 0; EEDataBuffer.IsoInA := 0; EEDataBuffer.IsoInB := 0; EEDataBuffer.IsoOutA := 0; EEDataBuffer.IsoOutB := 0; EEDataBuffer.PullDownEnable5 := 0; EEDataBuffer.SerNumEnable5 := 0; EEDataBuffer.USBVersionEnable5 := 0; EEDataBuffer.USBVersion5 := 0; EEDataBuffer.AIsHighCurrent := 0; EEDataBuffer.BIsHighCurrent := 0; EEDataBuffer.IFAIsFifo := 0; EEDataBuffer.IFAIsFifoTar := 0; EEDataBuffer.IFAIsFastSer := 0; EEDataBuffer.AIsVCP := 0; EEDataBuffer.IFBIsFifo := 0; EEDataBuffer.IFBIsFifoTar := 0; EEDataBuffer.IFBIsFastSer := 0; EEDataBuffer.BIsVCP := 0; // FT232R extensions EEDataBuffer.UseExtOsc := 0; EEDataBuffer.HighDriveIOs := 0; EEDataBuffer.EndpointSize := 0; EEDataBuffer.PullDownEnableR := 0; EEDataBuffer.SerNumEnableR := 0; EEDataBuffer.InvertTXD := 0; EEDataBuffer.InvertRXD := 0; EEDataBuffer.InvertRTS := 0; EEDataBuffer.InvertCTS := 0; EEDataBuffer.InvertDTR := 0; EEDataBuffer.InvertDSR := 0; EEDataBuffer.InvertDCD := 0; EEDataBuffer.InvertRI := 0; EEDataBuffer.Cbus0 := 0; EEDataBuffer.Cbus1 := 0; EEDataBuffer.Cbus2 := 0; EEDataBuffer.Cbus3 := 0; EEDataBuffer.Cbus4 := 0; EEDataBuffer.RIsVCP := 0; Result := FT_EE_Read(FT_Handle,@EEDataBuffer); If Result <> FT_OK then FT_Error_Report('FT_EE_Read ',Result); end; function USB_FT_EE_Program : FT_Result; begin Result := FT_EE_Program(FT_Handle, @EEDataBuffer); If Result <> FT_OK then FT_Error_Report('FT_EE_Read ',Result); end; function USB_FT_WriteEE(WordAddr:Dword; WordData:Word) : FT_Result; begin Result := FT_WriteEE(FT_Handle,WordAddr,WordData); end; function USB_FT_ReadEE(WordAddr:Dword) : FT_Result; begin Result := FT_ReadEE(FT_Handle,WordAddr,@WordRead); end; function USB_FT_EraseEE : FT_Result; begin Result := FT_EraseEE(FT_Handle); end; function USB_FT_EE_UARead : FT_Result; begin Result := FT_EE_UARead(FT_Handle,@UserData,64,@FT_UA_Size); If Result <> FT_OK then FT_Error_Report('FT_EE_UARead ',Result); end; function USB_FT_EE_UAWrite : FT_Result; begin Result := FT_EE_UAWrite(FT_Handle,@UserData,FT_UA_Size); If Result <> FT_OK then FT_Error_Report('FT_EE_UAWrite ',Result); end; function USB_FT_EE_UASize : FT_Result; begin Result := FT_EE_UASize(FT_Handle,@FT_UA_Size); If Result <> FT_OK then FT_Error_Report('FT_EE_UASize ',Result); end; Function Get_USB_Device_LatencyTimer : FT_Result; Begin Result := FT_GetLatencyTimer(FT_Handle,@FT_LatencyRd); If Result <> FT_OK then FT_Error_Report('FT_GetLatencyTimer ',Result); End; Function Set_USB_Device_LatencyTimer(Latency:Byte) : FT_Result; Begin Result := FT_SetLatencyTimer(FT_Handle, Latency); If Result <> FT_OK then FT_Error_Report('FT_SetLatencyTimer ',Result); End; Function Get_USB_Device_BitMode(var BitMode:Byte) : FT_Result; Begin Result := FT_GetBitMode(FT_Handle,@BitMode); If Result <> FT_OK then FT_Error_Report('FT_GetBitMode ',Result); End; Function Set_USB_Device_BitMode(Mask,Enable:Byte) : FT_Result ; Begin Result := FT_SetBitMode(FT_Handle,Mask,Enable); If Result <> FT_OK then FT_Error_Report('FT_SetBitMode ',Result); End; Function Set_USB_Parameters(InSize,OutSize:Dword) : FT_Result ; Begin Result := FT_SetUSBParameters(FT_Handle,InSize,OutSize); If Result <> FT_OK then FT_Error_Report('FT_SetUSBParameters ',Result); End; End.