if (eeprom == 0)
ftdi_error_return(-2, "Can't malloc struct ftdi_eeprom");
+ memset(eeprom, 0, sizeof(struct ftdi_eeprom));
ftdi->eeprom = eeprom;
/* All fine. Now allocate the readbuffer */
\param manufacturer String to use as Manufacturer
\param product String to use as Product description
\param serial String to use as Serial number description
-
+
\retval 0: all fine
\retval -1: No struct ftdi_context
\retval -2: No struct ftdi_eeprom
if (ftdi == NULL)
ftdi_error_return(-1, "No struct ftdi_context");
-
if (ftdi->eeprom == NULL)
ftdi_error_return(-2,"No struct ftdi_eeprom");
eeprom->usb_version = 0x0101;
else
eeprom->usb_version = 0x0200;
- eeprom->max_power = 50;
+ eeprom->max_power = 100;
if (eeprom->manufacturer)
free (eeprom->manufacturer);
if(ftdi->type == TYPE_R)
{
- eeprom->max_power = 45;
+ eeprom->max_power = 90;
eeprom->size = 0x80;
eeprom->cbus_function[0] = CBUS_TXLED;
eeprom->cbus_function[1] = CBUS_RXLED;
\param ftdi pointer to ftdi_context
- \retval >0: free eeprom size
+ \retval >=0: size of eeprom user area in bytes
\retval -1: eeprom size (128 bytes) exceeded by custom strings
\retval -2: Invalid eeprom pointer
\retval -3: Invalid cbus function setting
*/
int ftdi_eeprom_build(struct ftdi_context *ftdi)
{
- unsigned char i, j, k;
+ unsigned char i, j, eeprom_size_mask;
unsigned short checksum, value;
unsigned char manufacturer_size = 0, product_size = 0, serial_size = 0;
- int size_check;
+ int user_area_size;
struct ftdi_eeprom *eeprom;
unsigned char * output;
output = eeprom->buf;
if(eeprom->chip == -1)
- ftdi_error_return(-5,"No connected EEPROM or EEPROM Type unknown");
+ ftdi_error_return(-5,"No connected EEPROM or EEPROM type unknown");
if ((eeprom->chip == 0x56) || (eeprom->chip == 0x66))
eeprom->size = 0x100;
if (eeprom->serial != NULL)
serial_size = strlen(eeprom->serial);
- size_check = 0x80;
- switch(ftdi->type)
+ // eeprom size check
+ switch (ftdi->type)
{
- case TYPE_2232H:
- case TYPE_4232H:
- size_check -= 4;
- case TYPE_R:
- size_check -= 4;
- case TYPE_2232C:
- size_check -= 4;
- case TYPE_AM:
- case TYPE_BM:
- size_check -= 0x14*2;
+ case TYPE_AM:
+ case TYPE_BM:
+ user_area_size = 96; // base size for strings (total of 48 characters)
+ break;
+ case TYPE_2232C:
+ user_area_size = 90; // two extra config bytes and 4 bytes PnP stuff
+ break;
+ case TYPE_R:
+ user_area_size = 88; // four extra config bytes + 4 bytes PnP stuff
+ break;
+ case TYPE_2232H: // six extra config bytes + 4 bytes PnP stuff
+ case TYPE_4232H:
+ user_area_size = 86;
+ break;
}
+ user_area_size -= (manufacturer_size + product_size + serial_size) * 2;
- size_check -= manufacturer_size*2;
- size_check -= product_size*2;
- size_check -= serial_size*2;
-
- /* Space for the string type and pointer bytes */
- size_check -= -9;
-
- // eeprom size exceeded?
- if (size_check < 0)
- return (-1);
+ if (user_area_size < 0)
+ ftdi_error_return(-1,"eeprom size exceeded");
// empty eeprom
memset (ftdi->eeprom->buf, 0, FTDI_MAX_EEPROM_SIZE);
// Addr 06: Device release number (0400h for BM features)
output[0x06] = 0x00;
- switch (ftdi->type) {
+ switch (ftdi->type)
+ {
case TYPE_AM:
output[0x07] = 0x02;
break;
// Bit 7: always 1
// Bit 6: 1 if this device is self powered, 0 if bus powered
// Bit 5: 1 if this device uses remote wakeup
- // Bit 4: 1 if this device is battery powered
+ // Bit 4-0: reserved - 0
j = 0x80;
if (eeprom->self_powered == 1)
j |= 0x40;
i += 0x94;
}
/* Wrap around 0x80 for 128 byte EEPROMS (Internale and 93x46) */
- k = eeprom->size -1;
+ eeprom_size_mask = eeprom->size -1;
// Addr 0E: Offset of the manufacturer string + 0x80, calculated later
// Addr 0F: Length of manufacturer string
// Output manufacturer
output[0x0E] = i; // calculate offset
- output[i++ & k] = manufacturer_size*2 + 2;
- output[i++ & k] = 0x03; // type: string
+ output[i & eeprom_size_mask] = manufacturer_size*2 + 2, i++;
+ output[i & eeprom_size_mask] = 0x03, i++; // type: string
for (j = 0; j < manufacturer_size; j++)
{
- output[i & k] = eeprom->manufacturer[j], i++;
- output[i & k] = 0x00, i++;
+ output[i & eeprom_size_mask] = eeprom->manufacturer[j], i++;
+ output[i & eeprom_size_mask] = 0x00, i++;
}
output[0x0F] = manufacturer_size*2 + 2;
// Addr 10: Offset of the product string + 0x80, calculated later
// Addr 11: Length of product string
output[0x10] = i | 0x80; // calculate offset
- output[i & k] = product_size*2 + 2, i++;
- output[i & k] = 0x03, i++;
+ output[i & eeprom_size_mask] = product_size*2 + 2, i++;
+ output[i & eeprom_size_mask] = 0x03, i++;
for (j = 0; j < product_size; j++)
{
- output[i & k] = eeprom->product[j], i++;
- output[i & k] = 0x00, i++;
+ output[i & eeprom_size_mask] = eeprom->product[j], i++;
+ output[i & eeprom_size_mask] = 0x00, i++;
}
output[0x11] = product_size*2 + 2;
-
+
// Addr 12: Offset of the serial string + 0x80, calculated later
// Addr 13: Length of serial string
output[0x12] = i | 0x80; // calculate offset
- output[i & k] = serial_size*2 + 2, i++;
- output[i & k] = 0x03, i++;
+ output[i & eeprom_size_mask] = serial_size*2 + 2, i++;
+ output[i & eeprom_size_mask] = 0x03, i++;
for (j = 0; j < serial_size; j++)
{
- output[i & k] = eeprom->serial[j], i++;
- output[i & k] = 0x00, i++;
+ output[i & eeprom_size_mask] = eeprom->serial[j], i++;
+ output[i & eeprom_size_mask] = 0x00, i++;
+ }
+
+ // Legacy port name and PnP fields for FT2232 and newer chips
+ if (ftdi->type > TYPE_BM)
+ {
+ output[i & eeprom_size_mask] = 0x02; /* as seen when written with FTD2XX */
+ i++;
+ output[i & eeprom_size_mask] = 0x03; /* as seen when written with FTD2XX */
+ i++;
+ output[i & eeprom_size_mask] = eeprom->is_not_pnp; /* as seen when written with FTD2XX */
+ i++;
}
- output[i & k] = 0x02; /* as seen when written with FTD2XX */
- i++;
- output[i & k] = 0x03; /* as seen when written with FTD2XX */
- i++;
- output[i & k] = eeprom->is_not_pnp; /* as seen when written with FTD2XX */
- i++;
output[0x13] = serial_size*2 + 2;
- if(ftdi->type > TYPE_AM) /*use_serial not used in AM devices*/
+ if(ftdi->type > TYPE_AM) /* use_serial not used in AM devices */
{
if (eeprom->use_serial == USE_SERIAL_NUM )
output[0x0A] |= USE_SERIAL_NUM;
else
output[0x0A] &= ~USE_SERIAL_NUM;
}
- /* Fixme: ftd2xx seems to append 0x02, 0x03 and 0x01 for PnP = 0 or 0x00 else */
- // calculate checksum
/* Bytes and Bits specific to (some) types
Write linear, as this allows easier fixing*/
case TYPE_BM:
output[0x0C] = eeprom->usb_version & 0xff;
output[0x0D] = (eeprom->usb_version>>8) & 0xff;
- output[0x14] = eeprom->chip;
+ if (eeprom->use_usb_version == USE_USB_VERSION_BIT)
+ output[0x0A] |= USE_USB_VERSION_BIT;
+ else
+ output[0x0A] &= ~USE_USB_VERSION_BIT;
+
break;
case TYPE_2232C:
output[0x00] |= DRIVER_VCP;
else
output[0x00] &= ~DRIVER_VCP;
-
+
if ( eeprom->high_current_a == HIGH_CURRENT_DRIVE)
output[0x00] |= HIGH_CURRENT_DRIVE;
else
output[0x01] |= DRIVER_VCP;
else
output[0x01] &= ~DRIVER_VCP;
-
+
if ( eeprom->high_current_b == HIGH_CURRENT_DRIVE)
output[0x01] |= HIGH_CURRENT_DRIVE;
else
output[0x0A] |= 0x4;
else
output[0x0A] &= ~0x4;
+ if (eeprom->use_usb_version == USE_USB_VERSION_BIT)
+ output[0x0A] |= USE_USB_VERSION_BIT;
+ else
+ output[0x0A] &= ~USE_USB_VERSION_BIT;
+
output[0x0C] = eeprom->usb_version & 0xff;
output[0x0D] = (eeprom->usb_version>>8) & 0xff;
output[0x14] = eeprom->chip;
if(eeprom->high_current == HIGH_CURRENT_DRIVE_R)
output[0x00] |= HIGH_CURRENT_DRIVE_R;
output[0x01] = 0x40; /* Hard coded Endpoint Size*/
-
+
if (eeprom->suspend_pull_downs == 1)
output[0x0A] |= 0x4;
else
output[0x0B] = eeprom->invert;
output[0x0C] = eeprom->usb_version & 0xff;
output[0x0D] = (eeprom->usb_version>>8) & 0xff;
-
+
if(eeprom->cbus_function[0] > CBUS_BB)
output[0x14] = CBUS_TXLED;
else
output[0x14] = eeprom->cbus_function[0];
-
+
if(eeprom->cbus_function[1] > CBUS_BB)
output[0x14] |= CBUS_RXLED<<4;
else
output[0x14] |= eeprom->cbus_function[1]<<4;
-
+
if(eeprom->cbus_function[2] > CBUS_BB)
output[0x15] = CBUS_TXDEN;
else
output[0x15] = eeprom->cbus_function[2];
-
+
if(eeprom->cbus_function[3] > CBUS_BB)
output[0x15] |= CBUS_PWREN<<4;
else
output[0x15] |= eeprom->cbus_function[3]<<4;
-
+
if(eeprom->cbus_function[4] > CBUS_CLK6)
output[0x16] = CBUS_SLEEP;
else
output[0x00] |= DRIVER_VCP;
else
output[0x00] &= ~DRIVER_VCP;
-
+
output[0x01] = (eeprom->channel_b_type);
if ( eeprom->channel_b_driver == DRIVER_VCP)
output[0x01] |= DRIVER_VCP;
else
output[0x01] &= ~DRIVER_VCP;
- if(eeprom->suspend_dbus7 == SUSPEND_DBUS7)
- output[0x01] |= SUSPEND_DBUS7;
+ if(eeprom->suspend_dbus7 == SUSPEND_DBUS7_BIT)
+ output[0x01] |= SUSPEND_DBUS7_BIT;
else
- output[0x01] &= ~SUSPEND_DBUS7;
-
+ output[0x01] &= ~SUSPEND_DBUS7_BIT;
+
+ if (eeprom->suspend_pull_downs == 1)
+ output[0x0A] |= 0x4;
+ else
+ output[0x0A] &= ~0x4;
+
if(eeprom->group0_drive > DRIVE_16MA)
output[0x0c] |= DRIVE_16MA;
else
output[0x0c] |= IS_SCHMITT<<4;
if (eeprom->group1_slew == SLOW_SLEW)
output[0x0c] |= SLOW_SLEW<<4;
-
+
if(eeprom->group2_drive > DRIVE_16MA)
output[0x0d] |= DRIVE_16MA;
else
output[0x18] = eeprom->chip;
break;
+ case TYPE_4232H:
+ fprintf(stderr,"FIXME: Build FT4232H specific EEPROM settings\n");
}
// calculate checksum
output[eeprom->size-2] = checksum;
output[eeprom->size-1] = checksum >> 8;
- return size_check;
+ return user_area_size;
}
/**
// Bit 7: always 1
// Bit 6: 1 if this device is self powered, 0 if bus powered
// Bit 5: 1 if this device uses remote wakeup
- // Bit 4: 1 if this device is battery powered
eeprom->self_powered = buf[0x08] & 0x40;
- eeprom->remote_wakeup = buf[0x08] & 0x20;;
+ eeprom->remote_wakeup = buf[0x08] & 0x20;
// Addr 09: Max power consumption: max power = value * 2 mA
eeprom->max_power = buf[0x09];
// Bit 7: 0 - reserved
// Bit 6: 0 - reserved
// Bit 5: 0 - reserved
- // Bit 4: 1 - Change USB version
- // Not seen on FT2232(D)
+ // Bit 4: 1 - Change USB version on BM and 2232C
// Bit 3: 1 - Use the serial number string
// Bit 2: 1 - Enable suspend pull downs for lower power
// Bit 1: 1 - Out EndPoint is Isochronous
eeprom->out_is_isochronous = buf[0x0A]&0x02;
eeprom->suspend_pull_downs = buf[0x0A]&0x04;
eeprom->use_serial = buf[0x0A] & USE_SERIAL_NUM;
- if(buf[0x0A]&0x10)
- fprintf(stderr,
- "EEPROM byte[0x0a] Bit 4 unexpected set. If this happened with the EEPROM\n"
- "programmed by FTDI tools, please report to libftdi@developer.intra2net.com\n");
-
+ eeprom->use_usb_version = buf[0x0A] & USE_USB_VERSION_BIT;
// Addr 0C: USB version low byte when 0x0A
// Addr 0D: USB version high byte when 0x0A
eeprom->channel_b_driver = buf[0x01] & DRIVER_VCP;
if(ftdi->type == TYPE_2232H)
- eeprom->suspend_dbus7 = buf[0x01] & SUSPEND_DBUS7;
+ eeprom->suspend_dbus7 = buf[0x01] & SUSPEND_DBUS7_BIT;
eeprom->chip = buf[0x18];
eeprom->group0_drive = buf[0x0c] & DRIVE_16MA;
channel_mode[eeprom->channel_b_type],
(eeprom->channel_b_driver)?" VCP":"",
(eeprom->high_current_b)?" High Current IO":"");
+ if (((ftdi->type == TYPE_BM) || (ftdi->type == TYPE_2232C)) &&
+ eeprom->use_usb_version == USE_USB_VERSION_BIT)
+ fprintf(stdout,"Use explicit USB Version %04x\n",eeprom->usb_version);
+
if ((ftdi->type == TYPE_2232H) || (ftdi->type == TYPE_4232H))
{
fprintf(stdout,"%s has %d mA drive%s%s\n",
Chip is 93x46 if magic is read at word position 0x00, as wraparound happens around 0x40
Chip is 93x56 if magic is read at word position 0x40, as wraparound happens around 0x80
Chip is 93x66 if magic is only read at word position 0xc0*/
- if( ftdi_write_eeprom_location(ftdi, 0xc0, MAGIC))
+ if (libusb_control_transfer(ftdi->usb_dev, FTDI_DEVICE_OUT_REQTYPE,
+ SIO_WRITE_EEPROM_REQUEST, MAGIC, 0xc0,
+ NULL, 0, ftdi->usb_write_timeout) != 0)
ftdi_error_return(-3, "Writing magic failed");
if (ftdi_read_eeprom_location( ftdi, 0x00, &eeprom_value))
ftdi_error_return(-4, "Reading failed failed");