diff options
author | Umberto Baldi <u.baldi@arduino.cc> | 2021-12-16 18:39:51 +0100 |
---|---|---|
committer | Umberto Baldi <u.baldi@arduino.cc> | 2021-12-16 18:39:51 +0100 |
commit | 2685b9b1426fc8344abe30fdb94254f7d0f770ef (patch) | |
tree | 037b8c27c7749b8894555dcb048eaa2163ea09b0 /drivers/FTDI USB Drivers/ftd2xx.h | |
parent | 6154b7a7c1fba34737562aa4c29cec7451a82989 (diff) |
initial import from https://github.com/arduino/Arduino/tree/master/build/windows/dist/drivers (moved also gemma stuff under `gemma/`)
Diffstat (limited to 'drivers/FTDI USB Drivers/ftd2xx.h')
-rw-r--r-- | drivers/FTDI USB Drivers/ftd2xx.h | 1667 |
1 files changed, 1667 insertions, 0 deletions
diff --git a/drivers/FTDI USB Drivers/ftd2xx.h b/drivers/FTDI USB Drivers/ftd2xx.h new file mode 100644 index 0000000..3225268 --- /dev/null +++ b/drivers/FTDI USB Drivers/ftd2xx.h @@ -0,0 +1,1667 @@ +/*++
+
+Copyright © 2001-2021 Future Technology Devices International Limited
+
+THIS SOFTWARE IS PROVIDED BY FUTURE TECHNOLOGY DEVICES INTERNATIONAL LIMITED "AS IS"
+AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
+OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
+FUTURE TECHNOLOGY DEVICES INTERNATIONAL LIMITED BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
+OF SUBSTITUTE GOODS OR SERVICES LOSS OF USE, DATA, OR PROFITS OR BUSINESS INTERRUPTION)
+HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR
+TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
+EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+
+FTDI DRIVERS MAY BE USED ONLY IN CONJUNCTION WITH PRODUCTS BASED ON FTDI PARTS.
+
+FTDI DRIVERS MAY BE DISTRIBUTED IN ANY FORM AS LONG AS LICENSE INFORMATION IS NOT MODIFIED.
+
+IF A CUSTOM VENDOR ID AND/OR PRODUCT ID OR DESCRIPTION STRING ARE USED, IT IS THE
+RESPONSIBILITY OF THE PRODUCT MANUFACTURER TO MAINTAIN ANY CHANGES AND SUBSEQUENT WHQL
+RE-CERTIFICATION AS A RESULT OF MAKING THESE CHANGES.
+
+
+Module Name:
+
+ftd2xx.h
+
+Abstract:
+
+Native USB device driver for FTDI FT232x, FT245x, FT2232x, FT4232x, FT2233H and FT4233H devices
+FTD2XX library definitions
+
+Environment:
+
+kernel & user mode
+
+
+--*/
+
+
+#ifndef FTD2XX_H
+#define FTD2XX_H
+
+#ifdef _WIN32
+// Compiling on Windows
+#include <windows.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)
+#elif defined(FTD2XX_STATIC)
+// Avoid decorations when linking statically to D2XX.
+#define FTD2XX_API
+// Static D2XX depends on these Windows libs:
+#pragma comment(lib, "setupapi.lib")
+#pragma comment(lib, "advapi32.lib")
+#pragma comment(lib, "user32.lib")
+#else
+#define FTD2XX_API __declspec(dllimport)
+#endif
+
+#else // _WIN32
+// Compiling on non-Windows platform.
+#include "WinTypes.h"
+// No decorations needed.
+#define FTD2XX_API
+
+#endif // _WIN32
+
+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
+
+#define FT_OPEN_MASK (FT_OPEN_BY_SERIAL_NUMBER | \
+ FT_OPEN_BY_DESCRIPTION | \
+ FT_OPEN_BY_LOCATION)
+
+//
+// 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
+
+//
+// Stop Bits
+//
+
+#define FT_STOP_BITS_1 (UCHAR) 0
+#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,
+ FT_DEVICE_232H,
+ FT_DEVICE_X_SERIES,
+ FT_DEVICE_4222H_0,
+ FT_DEVICE_4222H_1_2,
+ FT_DEVICE_4222H_3,
+ FT_DEVICE_4222_PROG,
+ FT_DEVICE_900,
+ FT_DEVICE_930,
+ FT_DEVICE_UMFTPD3A,
+ FT_DEVICE_2233HP,
+ FT_DEVICE_4233HP,
+ FT_DEVICE_2232HP,
+ FT_DEVICE_4232HP,
+ FT_DEVICE_233HP,
+ FT_DEVICE_232HP,
+ FT_DEVICE_2232HA,
+ FT_DEVICE_4232HA,
+ FT_DEVICE_232RN,
+};
+
+//
+// Bit Modes
+//
+
+#define FT_BITMODE_RESET 0x00
+#define FT_BITMODE_ASYNC_BITBANG 0x01
+#define FT_BITMODE_MPSSE 0x02
+#define FT_BITMODE_SYNC_BITBANG 0x04
+#define FT_BITMODE_MCU_HOST 0x08
+#define FT_BITMODE_FAST_SERIAL 0x10
+#define FT_BITMODE_CBUS_BITBANG 0x20
+#define FT_BITMODE_SYNC_FIFO 0x40
+
+//
+// FT232R CBUS Options EEPROM values
+//
+
+#define FT_232R_CBUS_TXDEN 0x00 // Tx Data Enable
+#define FT_232R_CBUS_PWRON 0x01 // Power On
+#define FT_232R_CBUS_RXLED 0x02 // Rx LED
+#define FT_232R_CBUS_TXLED 0x03 // Tx LED
+#define FT_232R_CBUS_TXRXLED 0x04 // Tx and Rx LED
+#define FT_232R_CBUS_SLEEP 0x05 // Sleep
+#define FT_232R_CBUS_CLK48 0x06 // 48MHz clock
+#define FT_232R_CBUS_CLK24 0x07 // 24MHz clock
+#define FT_232R_CBUS_CLK12 0x08 // 12MHz clock
+#define FT_232R_CBUS_CLK6 0x09 // 6MHz clock
+#define FT_232R_CBUS_IOMODE 0x0A // IO Mode for CBUS bit-bang
+#define FT_232R_CBUS_BITBANG_WR 0x0B // Bit-bang write strobe
+#define FT_232R_CBUS_BITBANG_RD 0x0C // Bit-bang read strobe
+
+//
+// FT232H CBUS Options EEPROM values
+//
+
+#define FT_232H_CBUS_TRISTATE 0x00 // Tristate
+#define FT_232H_CBUS_TXLED 0x01 // Tx LED
+#define FT_232H_CBUS_RXLED 0x02 // Rx LED
+#define FT_232H_CBUS_TXRXLED 0x03 // Tx and Rx LED
+#define FT_232H_CBUS_PWREN 0x04 // Power Enable
+#define FT_232H_CBUS_SLEEP 0x05 // Sleep
+#define FT_232H_CBUS_DRIVE_0 0x06 // Drive pin to logic 0
+#define FT_232H_CBUS_DRIVE_1 0x07 // Drive pin to logic 1
+#define FT_232H_CBUS_IOMODE 0x08 // IO Mode for CBUS bit-bang
+#define FT_232H_CBUS_TXDEN 0x09 // Tx Data Enable
+#define FT_232H_CBUS_CLK30 0x0A // 30MHz clock
+#define FT_232H_CBUS_CLK15 0x0B // 15MHz clock
+#define FT_232H_CBUS_CLK7_5 0x0C // 7.5MHz clock
+
+//
+// FT X Series CBUS Options EEPROM values
+//
+
+#define FT_X_SERIES_CBUS_TRISTATE 0x00 // Tristate
+#define FT_X_SERIES_CBUS_TXLED 0x01 // Tx LED
+#define FT_X_SERIES_CBUS_RXLED 0x02 // Rx LED
+#define FT_X_SERIES_CBUS_TXRXLED 0x03 // Tx and Rx LED
+#define FT_X_SERIES_CBUS_PWREN 0x04 // Power Enable
+#define FT_X_SERIES_CBUS_SLEEP 0x05 // Sleep
+#define FT_X_SERIES_CBUS_DRIVE_0 0x06 // Drive pin to logic 0
+#define FT_X_SERIES_CBUS_DRIVE_1 0x07 // Drive pin to logic 1
+#define FT_X_SERIES_CBUS_IOMODE 0x08 // IO Mode for CBUS bit-bang
+#define FT_X_SERIES_CBUS_TXDEN 0x09 // Tx Data Enable
+#define FT_X_SERIES_CBUS_CLK24 0x0A // 24MHz clock
+#define FT_X_SERIES_CBUS_CLK12 0x0B // 12MHz clock
+#define FT_X_SERIES_CBUS_CLK6 0x0C // 6MHz clock
+#define FT_X_SERIES_CBUS_BCD_CHARGER 0x0D // Battery charger detected
+#define FT_X_SERIES_CBUS_BCD_CHARGER_N 0x0E // Battery charger detected inverted
+#define FT_X_SERIES_CBUS_I2C_TXE 0x0F // I2C Tx empty
+#define FT_X_SERIES_CBUS_I2C_RXF 0x10 // I2C Rx full
+#define FT_X_SERIES_CBUS_VBUS_SENSE 0x11 // Detect VBUS
+#define FT_X_SERIES_CBUS_BITBANG_WR 0x12 // Bit-bang write strobe
+#define FT_X_SERIES_CBUS_BITBANG_RD 0x13 // Bit-bang read strobe
+#define FT_X_SERIES_CBUS_TIMESTAMP 0x14 // Toggle output when a USB SOF token is received
+#define FT_X_SERIES_CBUS_KEEP_AWAKE 0x15 //
+
+
+// Driver types
+#define FT_DRIVER_TYPE_D2XX 0
+#define FT_DRIVER_TYPE_VCP 1
+
+
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+
+#ifdef FTD2XX_STATIC
+ FTD2XX_API
+ FT_STATUS WINAPI FT_Initialise(
+ void
+ );
+
+ FTD2XX_API
+ void WINAPI FT_Finalise(
+ void
+ );
+#endif // FTD2XX_STATIC
+
+ 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_EE_Program, FT_EE_ProgramEx, FT_EE_Read
+ // and FT_EE_ReadEx functions
+ //
+ 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 = FT2232 extensions
+ // 2 = FT232R extensions
+ // 3 = FT2232H extensions
+ // 4 = FT4232H extensions
+ // 5 = FT232H 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 A pins have slow slew
+ UCHAR ASchmittInput; // non-zero if A pins are Schmitt input
+ UCHAR ADriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR BSlowSlew; // non-zero if B pins have slow slew
+ UCHAR BSchmittInput; // non-zero if B pins are Schmitt input
+ UCHAR BDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR CSlowSlew; // non-zero if C pins have slow slew
+ UCHAR CSchmittInput; // non-zero if C pins are Schmitt input
+ UCHAR CDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR DSlowSlew; // non-zero if D pins have slow slew
+ UCHAR DSchmittInput; // non-zero if D 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
+ //
+ // Rev 9 (FT232H) Extensions
+ //
+ UCHAR PullDownEnableH; // non-zero if pull down enabled
+ UCHAR SerNumEnableH; // non-zero if serial number to be used
+ UCHAR ACSlowSlewH; // non-zero if AC pins have slow slew
+ UCHAR ACSchmittInputH; // non-zero if AC pins are Schmitt input
+ UCHAR ACDriveCurrentH; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR ADSlowSlewH; // non-zero if AD pins have slow slew
+ UCHAR ADSchmittInputH; // non-zero if AD pins are Schmitt input
+ UCHAR ADDriveCurrentH; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR Cbus0H; // Cbus Mux control
+ UCHAR Cbus1H; // Cbus Mux control
+ UCHAR Cbus2H; // Cbus Mux control
+ UCHAR Cbus3H; // Cbus Mux control
+ UCHAR Cbus4H; // Cbus Mux control
+ UCHAR Cbus5H; // Cbus Mux control
+ UCHAR Cbus6H; // Cbus Mux control
+ UCHAR Cbus7H; // Cbus Mux control
+ UCHAR Cbus8H; // Cbus Mux control
+ UCHAR Cbus9H; // Cbus Mux control
+ UCHAR IsFifoH; // non-zero if interface is 245 FIFO
+ UCHAR IsFifoTarH; // non-zero if interface is 245 FIFO CPU target
+ UCHAR IsFastSerH; // non-zero if interface is Fast serial
+ UCHAR IsFT1248H; // non-zero if interface is FT1248
+ UCHAR FT1248CpolH; // FT1248 clock polarity - clock idle high (1) or clock idle low (0)
+ UCHAR FT1248LsbH; // FT1248 data is LSB (1) or MSB (0)
+ UCHAR FT1248FlowControlH; // FT1248 flow control enable
+ UCHAR IsVCPH; // non-zero if interface is to use VCP drivers
+ UCHAR PowerSaveEnableH; // non-zero if using ACBUS7 to save power for self-powered designs
+
+ } 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
+ );
+
+
+ typedef struct ft_eeprom_header {
+ FT_DEVICE deviceType; // FTxxxx device type to be programmed
+ // Device descriptor options
+ WORD VendorId; // 0x0403
+ WORD ProductId; // 0x6001
+ UCHAR SerNumEnable; // non-zero if serial number to be used
+ // Config descriptor options
+ WORD MaxPower; // 0 < MaxPower <= 500
+ UCHAR SelfPowered; // 0 = bus powered, 1 = self powered
+ UCHAR RemoteWakeup; // 0 = not capable, 1 = capable
+ // Hardware options
+ UCHAR PullDownEnable; // non-zero if pull down in suspend enabled
+ } FT_EEPROM_HEADER, *PFT_EEPROM_HEADER;
+
+
+ // FT232B EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ typedef struct ft_eeprom_232b {
+ // Common header
+ FT_EEPROM_HEADER common; // common elements for all device EEPROMs
+ } FT_EEPROM_232B, *PFT_EEPROM_232B;
+
+
+ // FT2232 EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ typedef struct ft_eeprom_2232 {
+ // Common header
+ FT_EEPROM_HEADER common; // common elements for all device EEPROMs
+ // Drive options
+ UCHAR AIsHighCurrent; // non-zero if interface is high current
+ UCHAR BIsHighCurrent; // non-zero if interface is high current
+ // Hardware options
+ UCHAR AIsFifo; // non-zero if interface is 245 FIFO
+ UCHAR AIsFifoTar; // non-zero if interface is 245 FIFO CPU target
+ UCHAR AIsFastSer; // non-zero if interface is Fast serial
+ UCHAR BIsFifo; // non-zero if interface is 245 FIFO
+ UCHAR BIsFifoTar; // non-zero if interface is 245 FIFO CPU target
+ UCHAR BIsFastSer; // non-zero if interface is Fast serial
+ // Driver option
+ UCHAR ADriverType; // non-zero if interface is to use VCP drivers
+ UCHAR BDriverType; // non-zero if interface is to use VCP drivers
+ } FT_EEPROM_2232, *PFT_EEPROM_2232;
+
+
+ // FT232R EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ typedef struct ft_eeprom_232r {
+ // Common header
+ FT_EEPROM_HEADER common; // common elements for all device EEPROMs
+ // Drive options
+ UCHAR IsHighCurrent; // non-zero if interface is high current
+ // Hardware options
+ UCHAR UseExtOsc; // Use External Oscillator
+ 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
+ // Driver option
+ UCHAR DriverType; // non-zero if using D2XX driver
+ } FT_EEPROM_232R, *PFT_EEPROM_232R;
+
+
+ // FT2232H EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ typedef struct ft_eeprom_2232h {
+ // Common header
+ FT_EEPROM_HEADER common; // common elements for all device EEPROMs
+ // Drive options
+ 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
+ // Hardware options
+ UCHAR AIsFifo; // non-zero if interface is 245 FIFO
+ UCHAR AIsFifoTar; // non-zero if interface is 245 FIFO CPU target
+ UCHAR AIsFastSer; // non-zero if interface is Fast serial
+ UCHAR BIsFifo; // non-zero if interface is 245 FIFO
+ UCHAR BIsFifoTar; // non-zero if interface is 245 FIFO CPU target
+ UCHAR BIsFastSer; // non-zero if interface is Fast serial
+ UCHAR PowerSaveEnable; // non-zero if using BCBUS7 to save power for self-powered designs
+ // Driver option
+ UCHAR ADriverType; // non-zero if interface is to use VCP drivers
+ UCHAR BDriverType; // non-zero if interface is to use VCP drivers
+ } FT_EEPROM_2232H, *PFT_EEPROM_2232H;
+
+
+ // FT4232H EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ typedef struct ft_eeprom_4232h {
+ // Common header
+ FT_EEPROM_HEADER common; // common elements for all device EEPROMs
+ // Drive options
+ UCHAR ASlowSlew; // non-zero if A pins have slow slew
+ UCHAR ASchmittInput; // non-zero if A pins are Schmitt input
+ UCHAR ADriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR BSlowSlew; // non-zero if B pins have slow slew
+ UCHAR BSchmittInput; // non-zero if B pins are Schmitt input
+ UCHAR BDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR CSlowSlew; // non-zero if C pins have slow slew
+ UCHAR CSchmittInput; // non-zero if C pins are Schmitt input
+ UCHAR CDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR DSlowSlew; // non-zero if D pins have slow slew
+ UCHAR DSchmittInput; // non-zero if D pins are Schmitt input
+ UCHAR DDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ // Hardware options
+ 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
+ // Driver option
+ UCHAR ADriverType; // non-zero if interface is to use VCP drivers
+ UCHAR BDriverType; // non-zero if interface is to use VCP drivers
+ UCHAR CDriverType; // non-zero if interface is to use VCP drivers
+ UCHAR DDriverType; // non-zero if interface is to use VCP drivers
+ } FT_EEPROM_4232H, *PFT_EEPROM_4232H;
+
+
+ // FT232H EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ typedef struct ft_eeprom_232h {
+ // Common header
+ FT_EEPROM_HEADER common; // common elements for all device EEPROMs
+ // Drive options
+ UCHAR ACSlowSlew; // non-zero if AC bus pins have slow slew
+ UCHAR ACSchmittInput; // non-zero if AC bus pins are Schmitt input
+ UCHAR ACDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR ADSlowSlew; // non-zero if AD bus pins have slow slew
+ UCHAR ADSchmittInput; // non-zero if AD bus pins are Schmitt input
+ UCHAR ADDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ // CBUS options
+ 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 Cbus5; // Cbus Mux control
+ UCHAR Cbus6; // Cbus Mux control
+ UCHAR Cbus7; // Cbus Mux control
+ UCHAR Cbus8; // Cbus Mux control
+ UCHAR Cbus9; // Cbus Mux control
+ // FT1248 options
+ UCHAR FT1248Cpol; // FT1248 clock polarity - clock idle high (1) or clock idle low (0)
+ UCHAR FT1248Lsb; // FT1248 data is LSB (1) or MSB (0)
+ UCHAR FT1248FlowControl; // FT1248 flow control enable
+ // Hardware options
+ UCHAR IsFifo; // non-zero if interface is 245 FIFO
+ UCHAR IsFifoTar; // non-zero if interface is 245 FIFO CPU target
+ UCHAR IsFastSer; // non-zero if interface is Fast serial
+ UCHAR IsFT1248; // non-zero if interface is FT1248
+ UCHAR PowerSaveEnable; //
+ // Driver option
+ UCHAR DriverType; // non-zero if interface is to use VCP drivers
+ } FT_EEPROM_232H, *PFT_EEPROM_232H;
+
+
+ // FT X Series EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ typedef struct ft_eeprom_x_series {
+ // Common header
+ FT_EEPROM_HEADER common; // common elements for all device EEPROMs
+ // Drive options
+ UCHAR ACSlowSlew; // non-zero if AC bus pins have slow slew
+ UCHAR ACSchmittInput; // non-zero if AC bus pins are Schmitt input
+ UCHAR ACDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR ADSlowSlew; // non-zero if AD bus pins have slow slew
+ UCHAR ADSchmittInput; // non-zero if AD bus pins are Schmitt input
+ UCHAR ADDriveCurrent; // valid values are 4mA, 8mA, 12mA, 16mA
+ // CBUS options
+ 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 Cbus5; // Cbus Mux control
+ UCHAR Cbus6; // Cbus Mux control
+ // UART signal options
+ 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
+ // Battery Charge Detect options
+ UCHAR BCDEnable; // Enable Battery Charger Detection
+ UCHAR BCDForceCbusPWREN; // asserts the power enable signal on CBUS when charging port detected
+ UCHAR BCDDisableSleep; // forces the device never to go into sleep mode
+ // I2C options
+ WORD I2CSlaveAddress; // I2C slave device address
+ DWORD I2CDeviceId; // I2C device ID
+ UCHAR I2CDisableSchmitt; // Disable I2C Schmitt trigger
+ // FT1248 options
+ UCHAR FT1248Cpol; // FT1248 clock polarity - clock idle high (1) or clock idle low (0)
+ UCHAR FT1248Lsb; // FT1248 data is LSB (1) or MSB (0)
+ UCHAR FT1248FlowControl; // FT1248 flow control enable
+ // Hardware options
+ UCHAR RS485EchoSuppress; //
+ UCHAR PowerSaveEnable; //
+ // Driver option
+ UCHAR DriverType; // non-zero if interface is to use VCP drivers
+ } FT_EEPROM_X_SERIES, *PFT_EEPROM_X_SERIES;
+
+
+ // FT4222H EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ typedef struct ft_eeprom_4222h {
+ // Common header
+ FT_EEPROM_HEADER common; // common elements for all device EEPROMs
+ CHAR Revision; // 'A', 'B', 'C', or 'D'.
+ UCHAR I2C_Slave_Address;
+ // Suspend
+ UCHAR SPISuspend; // 0 for "Disable SPI, tristate pins", 2 for "Keep SPI pin status", 3 for "Enable SPI pin control"
+ UCHAR SuspendOutPol; // 0 for negative, 1 for positive (not implemented on Rev A)
+ UCHAR EnableSuspendOut; // non-zero to enable (not implemented on Rev A)
+ // QSPI
+ UCHAR Clock_SlowSlew; // non-zero if clock pin has slow slew
+ UCHAR Clock_Drive; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR IO0_SlowSlew; // non-zero if IO0 pin has slow slew
+ UCHAR IO1_SlowSlew; // non-zero if IO1 pin has slow slew
+ UCHAR IO2_SlowSlew; // non-zero if IO2 pin has slow slew
+ UCHAR IO3_SlowSlew; // non-zero if IO3 pin has slow slew
+ UCHAR IO_Drive; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR SlaveSelect_PullUp; // non-zero to enable pull up
+ UCHAR SlaveSelect_PullDown; // non-zero to enable pull down
+ UCHAR SlaveSelect_Drive; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR SlaveSelect_SlowSlew; // non-zero if slave select pin has slow slew
+ UCHAR MISO_Suspend; // 2 for push-low, 3 for push high, 0 and 1 reserved
+ UCHAR SIMO_Suspend; // 2 for push-low, 3 for push high, 0 and 1 reserved
+ UCHAR IO2_IO3_Suspend; // 2 for push-low, 3 for push high, 0 and 1 reserved
+ UCHAR SlaveSelect_Suspend; // 0 for no-change (not implemented on Rev A), 2 for push-low, 3 for push high, 1 reserved
+ // GPIO
+ UCHAR GPIO0_Drive; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR GPIO1_Drive; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR GPIO2_Drive; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR GPIO3_Drive; // valid values are 4mA, 8mA, 12mA, 16mA
+ UCHAR GPIO0_SlowSlew; // non-zero if IO0 pin has slow slew
+ UCHAR GPIO1_SlowSlew; // non-zero if IO0 pin has slow slew
+ UCHAR GPIO2_SlowSlew; // non-zero if IO0 pin has slow slew
+ UCHAR GPIO3_SlowSlew; // non-zero if IO0 pin has slow slew
+ UCHAR GPIO0_PullDown; // non-zero to enable pull down
+ UCHAR GPIO1_PullDown; // non-zero to enable pull down
+ UCHAR GPIO2_PullDown; // non-zero to enable pull down
+ UCHAR GPIO3_PullDown; // non-zero to enable pull down
+ UCHAR GPIO0_PullUp; // non-zero to enable pull up
+ UCHAR GPIO1_PullUp; // non-zero to enable pull up
+ UCHAR GPIO2_PullUp; // non-zero to enable pull up
+ UCHAR GPIO3_PullUp; // non-zero to enable pull up
+ UCHAR GPIO0_OpenDrain; // non-zero to enable open drain
+ UCHAR GPIO1_OpenDrain; // non-zero to enable open drain
+ UCHAR GPIO2_OpenDrain; // non-zero to enable open drain
+ UCHAR GPIO3_OpenDrain; // non-zero to enable open drain
+ UCHAR GPIO0_Suspend; // 0 for no-change, 1 for input (not implemented on Rev A), 2 for push-low, 3 for push high
+ UCHAR GPIO1_Suspend; // 0 for no-change, 1 for input (not implemented on Rev A), 2 for push-low, 3 for push high
+ UCHAR GPIO2_Suspend; // 0 for no-change, 1 for input (not implemented on Rev A), 2 for push-low, 3 for push high
+ UCHAR GPIO3_Suspend; // 0 for no-change, 1 for input (not implemented on Rev A), 2 for push-low, 3 for push high
+ UCHAR FallingEdge; // non-zero to change GPIO on falling edge
+ // BCD
+ UCHAR BCD_Disable; // non-zero to disable BCD
+ UCHAR BCD_OutputActiveLow; // non-zero to set BCD output active low
+ UCHAR BCD_Drive; // valid values are 4mA, 8mA, 12mA, 16mA
+ } FT_EEPROM_4222H, *PFT_EEPROM_4222H;
+
+
+ // Power Delivery structures for use with FT_EEPROM_Read and FT_EEPROM_Program
+ // PDO Configuration structure, mA supported values 0 to 10230mA, mV supported values 0 to 51100mV
+ // This is part of the FT_EEPROM_PD structure.
+ typedef struct ft_eeprom_PD_PDO_mv_ma {
+ USHORT PDO1ma; // PDO1 mA
+ USHORT PDO1mv; // PDO1 mV
+ USHORT PDO2ma; // PDO2 mA
+ USHORT PDO2mv; // PDO2 mV
+ USHORT PDO3ma; // PDO3 mA
+ USHORT PDO3mv; // PDO3 mV
+ USHORT PDO4ma; // PDO4 mA
+ USHORT PDO4mv; // PDO4 mV
+ USHORT PDO5ma; // PDO5 mA (FTx233HP only)
+ USHORT PDO5mv; // PDO5 mV (FTx233HP only)
+ USHORT PDO6ma; // PDO6 mA (FTx233HP only)
+ USHORT PDO6mv; // PDO6 mV (FTx233HP only)
+ USHORT PDO7ma; // PDO7 mA (FTx233HP only)
+ USHORT PDO7mv; // PDO7 mV (FTx233HP only)
+ } FT_EEPROM_PD_PDO_mv_ma;
+
+ // PD EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ // This is appended to the end of the base device structure. e_g.
+ // struct {
+ // FT_EEPROM_xxx base;
+ // FT_EEPROM_PD pd;
+ // };
+ // Device GPIO values are:
+ // FTx233HP - 0 to 7, 15 for N/A
+ // FTx232HP - 0 to 3, 15 for N/A
+ typedef struct ft_eeprom_pd {
+ // Configuration
+ UCHAR srprs; // non-zero to enable Sink Request Power Role Swap
+ UCHAR sraprs; // non-zero to enable Sink Accept PR Swap
+ UCHAR srrprs; // non-zero to enable Source Request PR SWAP
+ UCHAR saprs; // non-zero to enable Source Accept PR SWAP
+ UCHAR vconns; // non-zero to enable vConn Swap
+ UCHAR passthru; // non-zero to enable Pass Through (FTx233HP only)
+ UCHAR extmcu; // non-zero to enable External MCU
+ UCHAR pd2en; // non-zero to enable PD2 (FTx233HP only)
+ UCHAR pd1autoclk; // non-zero to enable PD1 Auto Clock
+ UCHAR pd2autoclk; // non-zero to enable PD2 Auto Clock (FTx233HP only)
+ UCHAR useefuse; // non-zero to Use EFUSE
+ UCHAR extvconn; // non-zero to enable External vConn
+
+ // GPIO Configuration
+ UCHAR count; // GPIO Count, supported values are 0 to 7
+ UCHAR gpio1; // GPIO Number 1, supports device GPIO values
+ UCHAR gpio2; // GPIO Number 2, supports device GPIO values
+ UCHAR gpio3; // GPIO Number 3, supports device GPIO values
+ UCHAR gpio4; // GPIO Number 4, supports device GPIO values
+ UCHAR gpio5; // GPIO Number 5, supports device GPIO values (FTx233HP only)
+ UCHAR gpio6; // GPIO Number 6, supports device GPIO values (FTx233HP only)
+ UCHAR gpio7; // GPIO Number 7, supports device GPIO values (FTx233HP only)
+ UCHAR pd1lden; // PD1 Load Enable, supports device GPIO values
+ UCHAR pd2lden; // PD2 Load Enable, supports device GPIO values (FTx233HP only)
+ UCHAR dispin; // Discharge Pin, supports device GPIO values
+ UCHAR disenbm; // Discharge Enable BM, 0 for "Drive Hi", 1 for "Drive Low", 2 for "Input Mode", 3 for "Don't Care"
+ UCHAR disdisbm; // Discharge Disable BM, 0 for "Drive Hi", 1 for "Drive Low", 2 for "Input Mode", 3 for "Don't Care"
+ UCHAR ccselect; // CC Select Indicator, supports device GPIO values
+
+ // ISET Configuration
+ UCHAR iset1; // ISET1, supports device GPIO values
+ UCHAR iset2; // ISET2, supports device GPIO values
+ UCHAR iset3; // ISET3, supports device GPIO values
+ UCHAR extiset; // non-zero to enable EXTEND_ISET
+ UCHAR isetpd2; // non-zero to enable ISET_PD2
+ UCHAR iseten; // non-zero to set ISET_ENABLED
+
+ // BM Configuration, 0 for "Drive Hi", 1 for "Drive Low", 2 for "Input Mode", 3 for "Don't Care"
+ UCHAR PDO1_GPIO[7]; // PDO1 GPIO1 to GPIO7
+ UCHAR PDO2_GPIO[7]; // PDO2 GPIO1 to GPIO7
+ UCHAR PDO3_GPIO[7]; // PDO3 GPIO1 to GPIO7
+ UCHAR PDO4_GPIO[7]; // PDO4 GPIO1 to GPIO7
+ UCHAR PDO5_GPIO[7]; // PDO5 GPIO1 to GPIO7 (FTx233HP only)
+ UCHAR PDO6_GPIO[7]; // PDO6 GPIO1 to GPIO7 (FTx233HP only)
+ UCHAR PDO7_GPIO[7]; // PDO7 GPIO1 to GPIO7 (FTx233HP only)
+ UCHAR VSET0V_GPIO[7]; // PDO7 GPIO1 to GPIO7
+ UCHAR VSAFE5V_GPIO[7]; // PDO7 GPIO1 to GPIO7
+
+ FT_EEPROM_PD_PDO_mv_ma BM_PDO_Sink;
+ FT_EEPROM_PD_PDO_mv_ma BM_PDO_Source;
+ FT_EEPROM_PD_PDO_mv_ma BM_PDO_Sink_2; // (FTx233HP only)
+
+ // PD Timers
+ UCHAR srt; // Sender Response Timer
+ UCHAR hrt; // Hard Reset Timer
+ UCHAR sct; // Source Capability Timer
+ UCHAR dit; // Discover Identity Timer
+ USHORT srcrt; // Source Recover Timer
+ USHORT trt; // Transition Timer
+ USHORT sofft; // Source off timer
+ USHORT nrt; // No Response Timer
+ USHORT swct; // Sink Wait Capability Timer
+ USHORT snkrt; // Sink Request Timer
+ UCHAR dt; // Discharge Timer
+ UCHAR cnst; // Chunk not supported timer
+ USHORT it; // Idle Timer
+
+ // PD Control
+ UCHAR i2caddr; // I2C Address (hex)
+ UINT prou; // Power Reserved for OWN use
+ UINT trim1; // TRIM1
+ UINT trim2; // TRIM2
+ UCHAR extdc; // non-zero to enable ETERNAL_DC_POWER
+ } FT_EEPROM_PD, *PFT_EEPROM_PD;
+
+ // FT2233HP EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ // FT2232H with power delivery
+ typedef struct _ft_eeprom_2233hp
+ {
+ FT_EEPROM_2232H ft2232h;
+ FT_EEPROM_PD pd;
+ } FT_EEPROM_2233HP, *PFT_EEPROM_2233HP;
+
+ // FT4233HP EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ // FT4232H with power delivery
+ typedef struct _ft_eeprom_4233hp
+ {
+ FT_EEPROM_4232H ft4232h;
+ FT_EEPROM_PD pd;
+ } FT_EEPROM_4233HP, *PFT_EEPROM_4233HP;
+
+ // FT2232HP EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ // FT2232H with power delivery
+ typedef struct _ft_eeprom_2232hp
+ {
+ FT_EEPROM_2232H ft2232h;
+ FT_EEPROM_PD pd;
+ } FT_EEPROM_2232HP, *PFT_EEPROM_2232HP;
+
+ // FT4232HP EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ // FT4232H with power delivery
+ typedef struct _ft_eeprom_4232hp
+ {
+ FT_EEPROM_4232H ft4232h;
+ FT_EEPROM_PD pd;
+ } FT_EEPROM_4232HP, *PFT_EEPROM_4232HP;
+
+ // FT233HP EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ // FT233H with power delivery
+ typedef struct _ft_eeprom_233hp
+ {
+ FT_EEPROM_232H ft232h;
+ FT_EEPROM_PD pd;
+ } FT_EEPROM_233HP, *PFT_EEPROM_233HP;
+
+ // FT232HP EEPROM structure for use with FT_EEPROM_Read and FT_EEPROM_Program
+ // FT232H with power delivery
+ typedef struct _ft_eeprom_232hp
+ {
+ FT_EEPROM_232H ft232h;
+ FT_EEPROM_PD pd;
+ } FT_EEPROM_232HP, *PFT_EEPROM_232HP;
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_EEPROM_Read(
+ FT_HANDLE ftHandle,
+ void *eepromData,
+ DWORD eepromDataSize,
+ char *Manufacturer,
+ char *ManufacturerId,
+ char *Description,
+ char *SerialNumber
+ );
+
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_EEPROM_Program(
+ FT_HANDLE ftHandle,
+ void *eepromData,
+ DWORD eepromDataSize,
+ char *Manufacturer,
+ char *ManufacturerId,
+ char *Description,
+ char *SerialNumber
+ );
+
+
+ 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
+ );
+
+#ifndef _WIN32
+ // Extra functions for non-Windows platforms to compensate
+ // for lack of .INF file to specify Vendor and Product IDs.
+
+ FTD2XX_API
+ FT_STATUS FT_SetVIDPID(
+ DWORD dwVID,
+ DWORD dwPID
+ );
+
+ FTD2XX_API
+ FT_STATUS FT_GetVIDPID(
+ DWORD * pdwVID,
+ DWORD * pdwPID
+ );
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_GetDeviceLocId(
+ FT_HANDLE ftHandle,
+ LPDWORD lpdwLocId
+ );
+#endif // _WIN32
+
+ 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; /* FT_STOP_BITS_1 or FT_STOP_BITS_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
+ );
+
+
+ //
+ // FT232H additional EEPROM functions
+ //
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_EE_ReadConfig(
+ FT_HANDLE ftHandle,
+ UCHAR ucAddress,
+ PUCHAR pucValue
+ );
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_EE_WriteConfig(
+ FT_HANDLE ftHandle,
+ UCHAR ucAddress,
+ UCHAR ucValue
+ );
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_EE_ReadECC(
+ FT_HANDLE ftHandle,
+ UCHAR ucOption,
+ LPWORD lpwValue
+ );
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_GetQueueStatusEx(
+ FT_HANDLE ftHandle,
+ DWORD *dwRxBytes
+ );
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_ComPortIdle(
+ FT_HANDLE ftHandle
+ );
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_ComPortCancelIdle(
+ FT_HANDLE ftHandle
+ );
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_VendorCmdGet(
+ FT_HANDLE ftHandle,
+ UCHAR Request,
+ UCHAR *Buf,
+ USHORT Len
+ );
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_VendorCmdSet(
+ FT_HANDLE ftHandle,
+ UCHAR Request,
+ UCHAR *Buf,
+ USHORT Len
+ );
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_VendorCmdGetEx(
+ FT_HANDLE ftHandle,
+ USHORT wValue,
+ UCHAR *Buf,
+ USHORT Len
+ );
+
+ FTD2XX_API
+ FT_STATUS WINAPI FT_VendorCmdSetEx(
+ FT_HANDLE ftHandle,
+ USHORT wValue,
+ UCHAR *Buf,
+ USHORT Len
+ );
+
+#ifdef __cplusplus
+}
+#endif
+
+
+#endif /* FTD2XX_H */
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