public FT_STATUS WriteFT2232EEPROM(FT2232_EEPROM_STRUCTURE ee2232)
{
// Initialise ftStatus to something other than FT_OK
FT_STATUS ftStatus = FT_STATUS.FT_OTHER_ERROR;
FT_ERROR ftErrorCondition = FT_ERROR.FT_NO_ERROR;
// If the DLL hasn't been loaded, just return here
if (hFTD2XXDLL == IntPtr.Zero)
return ftStatus;
// Check for our required function pointers being set up
if (pFT_EE_Program != IntPtr.Zero)
{
tFT_EE_Program FT_EE_Program = (tFT_EE_Program)Marshal.GetDelegateForFunctionPointer(pFT_EE_Program, typeof(tFT_EE_Program));
if (ftHandle != IntPtr.Zero)
{
FT_DEVICE DeviceType = FT_DEVICE.FT_DEVICE_UNKNOWN;
// Check that it is an FT2232 that we are trying to write
GetDeviceType(ref DeviceType);
if (DeviceType != FT_DEVICE.FT_DEVICE_2232)
{
// If it is not, throw an exception
ftErrorCondition = FT_ERROR.FT_INCORRECT_DEVICE;
ErrorHandler(ftStatus, ftErrorCondition);
}
// Check for VID and PID of 0x0000
if ((ee2232.VendorID == 0x0000) | (ee2232.ProductID == 0x0000))
{
// Do not allow users to program the device with VID or PID of 0x0000
return FT_STATUS.FT_INVALID_PARAMETER;
}
FT_PROGRAM_DATA eedata = new FT_PROGRAM_DATA();
// Set up structure headers
eedata.Signature1 = 0x00000000;
eedata.Signature2 = 0xFFFFFFFF;
eedata.Version = 2;
// Allocate space from unmanaged heap
eedata.Manufacturer = Marshal.AllocHGlobal(32);
eedata.ManufacturerID = Marshal.AllocHGlobal(16);
eedata.Description = Marshal.AllocHGlobal(64);
eedata.SerialNumber = Marshal.AllocHGlobal(16);
// Check lengths of strings to make sure that they are within our limits
// If not, trim them to make them our maximum length
if (ee2232.Manufacturer.Length > 32)
ee2232.Manufacturer = ee2232.Manufacturer.Substring(0, 32);
if (ee2232.ManufacturerID.Length > 16)
ee2232.ManufacturerID = ee2232.ManufacturerID.Substring(0, 16);
if (ee2232.Description.Length > 64)
ee2232.Description = ee2232.Description.Substring(0, 64);
if (ee2232.SerialNumber.Length > 16)
ee2232.SerialNumber = ee2232.SerialNumber.Substring(0, 16);
// Set string values
eedata.Manufacturer = Marshal.StringToHGlobalAnsi(ee2232.Manufacturer);
eedata.ManufacturerID = Marshal.StringToHGlobalAnsi(ee2232.ManufacturerID);
eedata.Description = Marshal.StringToHGlobalAnsi(ee2232.Description);
eedata.SerialNumber = Marshal.StringToHGlobalAnsi(ee2232.SerialNumber);
// Map non-string elements to structure
// Standard elements
eedata.VendorID = ee2232.VendorID;
eedata.ProductID = ee2232.ProductID;
eedata.MaxPower = ee2232.MaxPower;
eedata.SelfPowered = Convert.ToUInt16(ee2232.SelfPowered);
eedata.RemoteWakeup = Convert.ToUInt16(ee2232.RemoteWakeup);
// 2232 specific fields
eedata.Rev5 = Convert.ToByte(true);
eedata.PullDownEnable5 = Convert.ToByte(ee2232.PullDownEnable);
eedata.SerNumEnable5 = Convert.ToByte(ee2232.SerNumEnable);
eedata.USBVersionEnable5 = Convert.ToByte(ee2232.USBVersionEnable);
eedata.USBVersion5 = ee2232.USBVersion;
eedata.AIsHighCurrent = Convert.ToByte(ee2232.AIsHighCurrent);
eedata.BIsHighCurrent = Convert.ToByte(ee2232.BIsHighCurrent);
eedata.IFAIsFifo = Convert.ToByte(ee2232.IFAIsFifo);
eedata.IFAIsFifoTar = Convert.ToByte(ee2232.IFAIsFifoTar);
eedata.IFAIsFastSer = Convert.ToByte(ee2232.IFAIsFastSer);
eedata.AIsVCP = Convert.ToByte(ee2232.AIsVCP);
eedata.IFBIsFifo = Convert.ToByte(ee2232.IFBIsFifo);
eedata.IFBIsFifoTar = Convert.ToByte(ee2232.IFBIsFifoTar);
eedata.IFBIsFastSer = Convert.ToByte(ee2232.IFBIsFastSer);
eedata.BIsVCP = Convert.ToByte(ee2232.BIsVCP);
// Call FT_EE_Program
ftStatus = FT_EE_Program(ftHandle, eedata);
// Free unmanaged buffers
Marshal.FreeHGlobal(eedata.Manufacturer);
Marshal.FreeHGlobal(eedata.ManufacturerID);
Marshal.FreeHGlobal(eedata.Description);
Marshal.FreeHGlobal(eedata.SerialNumber);
}
}
else
{
if (pFT_EE_Program == IntPtr.Zero)
{
LogB.Debug("FTD2XX: Failed to load function FT_EE_Program.");
}
}
return ftStatus;
}