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board.c
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board.c
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#include "board.h"
#include "FlashCommand.h"
#include "project.h"
#include "usbdriver.h"
#include <stdlib.h>
#define SerialFlash_FALSE -1
#define SerialFlash_TRUE 1
#define min(a, b) (a > b ? b : a)
volatile bool g_bIsSF600[16] = {false};
volatile bool g_bIsSF700[16] = {false};
volatile bool g_bIsSF600PG2[16] = {false};
extern char g_board_type[8];
extern char g_FPGA_ver[8];
extern char g_FW_ver[10];
extern char g_HW_ver[8];
extern int g_firmversion;
extern unsigned int g_IO1Select;
extern unsigned int g_IO4Select;
extern unsigned int g_Vcc;
extern bool Is_NewUSBCommand(int Index);
// extern int is_SF100nBoardVersionGreaterThan_5_2_0(int Index);
// extern int is_SF600nBoardVersionGreaterThan_6_9_0(int Index);
bool ReadSF700AndSF600PG2SN(unsigned char* Data, int Index)
{
CNTRPIPE_RQ rq;
unsigned char vBuffer[6];
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = 0x71;
rq.Value = 0;
rq.Index = 0;
rq.Length = 6;
vBuffer[0]=0;
vBuffer[1]=0;
vBuffer[2]=0;
vBuffer[3]=2;
vBuffer[4]=0;
vBuffer[5]=0;
//must read twice
if (OutCtrlRequest(&rq, vBuffer, 6, Index) == SerialFlash_FALSE)
return false;
//first
unsigned char vBufferSN[512];
BulkPipeRead(vBufferSN, USB_TIMEOUT, Index);
if (OutCtrlRequest(&rq, vBuffer, 6, Index) == SerialFlash_FALSE)
return false;
//second
BulkPipeRead(vBufferSN, USB_TIMEOUT, Index);
memcpy(Data, vBufferSN, 16);
return true;
}
bool ReadOnBoardFlash(unsigned char* Data, bool ReadUID, int Index)
{
CNTRPIPE_RQ rq;
unsigned char vBuffer[16];
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = 0x05;
if (Is_NewUSBCommand(Index)) {
rq.Value = ReadUID;
rq.Index = 0;
} else {
rq.Value = 0x00;
rq.Index = ReadUID;
}
rq.Length = 16;
if (InCtrlRequest(&rq, vBuffer, 16, Index) == SerialFlash_FALSE) {
return false;
}
memcpy(Data, vBuffer, 16);
return true;
}
void QueryBoard(int Index)
{
// printf("QueryBoard\n");
return;
if (!Is_usbworking(Index)) {
printf("Do not find SFxx programmer!!\n");
return;
}
CNTRPIPE_RQ rq;
unsigned char vBuffer[32];
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = PROGINFO_REQUEST;
rq.Value = RFU;
rq.Index = 0x00;
rq.Length = (unsigned long)32;
memset(vBuffer, '\0', 32);
if (InCtrlRequest(&rq, vBuffer, 32, Index) == SerialFlash_FALSE) {
printf("send fail\n");
return;
}
memcpy(g_board_type, &vBuffer[0], 8);
}
unsigned int GetFPGAVersion(int Index)
{
if ((strstr(g_board_type, "SF600PG2") == NULL)&& (strstr(g_board_type, "SF600") == NULL) && (strstr(g_board_type, "SF700") == NULL))
return -1;
CNTRPIPE_RQ rq;
unsigned int uiFPGAver = 0;
unsigned char vDataPack[2];
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = 0x1C;
rq.Value = RFU;
rq.Index = 0;
rq.Length = 2;
if (InCtrlRequest(&rq, vDataPack, 2, Index) == SerialFlash_FALSE) {
return -1;
}
uiFPGAver = ((unsigned int)vDataPack[1] << 8 | vDataPack[0]);
return uiFPGAver;
}
bool SetIO(unsigned char ioState, int Index)
{
CNTRPIPE_RQ rq;
unsigned char vDataPack; // 1 bytes, in fact no needs
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = SET_IO;
if (Is_NewUSBCommand(Index)) {
rq.Value = (ioState & 0x0F) | 0x70;
rq.Index = 0;
} else {
rq.Value = ioState;
rq.Index = 0x07;
}
rq.Length = 0;
if (OutCtrlRequest(&rq, &vDataPack, 0, Index) == SerialFlash_FALSE) {
return false;
}
return true;
}
bool SetTargetFlash(unsigned char StartupMode, int Index)
{
CNTRPIPE_RQ rq;
unsigned char vInstruction;
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = SET_TARGET_FLASH;
rq.Value = StartupMode;
rq.Index = 0;
rq.Length = 0;
if (OutCtrlRequest(&rq, &vInstruction, 0, Index) == SerialFlash_FALSE) {
return false;
}
return true;
}
bool SetLEDProgBoard(size_t Color, int Index)
{
//printf("\n===>board.c ---- SetLEDProgBoard(Color=%ld,SetLEDProgBoard=%d)\n",Color,Index);
if (!Is_usbworking(Index)) {
return false;
}
CNTRPIPE_RQ rq;
unsigned char vBuffer[16];
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = SET_IO;
if (Is_NewUSBCommand(Index)) {
rq.Value = Color | (g_IO1Select << 1);
rq.Value = (rq.Value & 0xFFF7) | (g_IO4Select << 3);
//rq.Value = (Color & 0xFFF7) | (g_IO1Select << 1) | (g_IO4Select << 3);
rq.Index = 0;
} else {
rq.Value = 0x09;
rq.Index = Color >> 8; // LED 0:ON 1:OFF Bit0:Green Bit1:Orange Bit2:Red
}
rq.Length = 0;
if (OutCtrlRequest(&rq, vBuffer, 0, Index) == SerialFlash_FALSE) {
return false;
}
return true;
}
bool SetGreenLEDOn(bool boOn, int Index)
{
return SetLEDProgBoard(boOn ? 0x0609 : 0x0709, Index);
}
bool SetOrangeLEDOn(bool boOn, int Index)
{
return SetLEDProgBoard(boOn ? 0x0509 : 0x0709, Index);
}
bool SetRedLEDOn(bool boOn, int Index)
{
return SetLEDProgBoard(boOn ? 0x0309 : 0x0709, Index);
}
bool SetLEDOnOff(size_t Color, int Index)
{
bool result = true;
switch (Color) {
case SITE_ERROR:
result &= SetRedLEDOn(true, Index);
break;
case SITE_BUSY:
result &= SetOrangeLEDOn(true, Index);
break;
case SITE_OK:
result &= SetGreenLEDOn(true, Index);
break;
case SITE_NORMAL:
result &= SetLEDProgBoard(0x0709, Index); // Turn off LED
break;
}
return result;
}
bool SetCS(size_t value, int Index)
{
if (!Is_usbworking(Index)) {
return false;
}
CNTRPIPE_RQ rq;
unsigned char vBuffer;
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = SET_CS;
rq.Value = value; // 12MHz
rq.Index = RFU;
rq.Length = 0;
if (OutCtrlRequest(&rq, &vBuffer, 0, Index) == SerialFlash_FALSE) {
return false;
}
return true;
}
bool SetIOModeToSF600(size_t value, int Index)
{
if (!Is_usbworking(Index)) {
return false;
}
CNTRPIPE_RQ rq;
unsigned char vBuffer;
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = SET_IOMODE;
rq.Value = value;
rq.Index = RFU;
rq.Length = 0;
if (OutCtrlRequest(&rq, &vBuffer, 0, Index) == SerialFlash_FALSE) {
return false;
}
return true;
}
bool BlinkProgBoard(bool boIsV5, int Index)
{
if (!Is_usbworking(Index)) {
return false;
}
SetGreenLEDOn(true, Index);
Sleep(500);
SetGreenLEDOn(false, Index);
return true;
}
bool LeaveSF600Standalone(bool Enable, int Index)
{
if (!Is_usbworking(Index)) {
return false;
}
CNTRPIPE_RQ rq;
unsigned char vBuffer;
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = SET_SA;
rq.Value = Enable;
rq.Index = RFU;
rq.Length = 0;
if (OutCtrlRequest(&rq, &vBuffer, 0, Index) == SerialFlash_FALSE) {
return false;
}
Sleep(100);
return true;
}
bool SetSPIClockValue(unsigned short v, int Index)
{
if (!Is_usbworking(Index))
return false;
// send request
CNTRPIPE_RQ rq;
unsigned char vBuffer;
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = SET_SPICLK;
rq.Value = v;
rq.Index = RFU;
rq.Length = 0;
if (OutCtrlRequest(&rq, &vBuffer, 0, Index) == SerialFlash_FALSE)
return false;
return true;
}
bool SetIOMOdeValue(int Index)
{
if (strstr(g_board_type, "SF100"))
return true;
if (!Is_usbworking(Index))
return false;
// send request
CNTRPIPE_RQ rq;
unsigned char vBuffer;
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = SET_IOMODE;
rq.Value = 0;//single IO
rq.Index = RFU;
rq.Length = 0;
if (OutCtrlRequest(&rq, &vBuffer, 0, Index) == SerialFlash_FALSE)
return false;
Sleep(200);
return true;
}
unsigned int ReadUID(int Index)
{
if (!Is_usbworking(Index)) {
return false;
}
unsigned int dwUID = 0;
unsigned char vUID[16];
if (is_SF700_Or_SF600PG2(Index)) {
if (ReadSF700AndSF600PG2SN(vUID, Index) == false)
return false;
dwUID = (unsigned int)vUID[2] << 16 | (unsigned int)vUID[1] << 8 | vUID[0];
return dwUID;
}
if ((g_bIsSF600[Index] == true) ) {
if (ReadOnBoardFlash(vUID, false, Index) == false)
return false;
if (g_bIsSF600[Index] == true)
dwUID = (unsigned int)vUID[0] << 16 | (unsigned int)vUID[1] << 8 | vUID[2];
else
dwUID = (unsigned int)vUID[2] << 16 | (unsigned int)vUID[1] << 8 | vUID[0];
return dwUID;
}
CNTRPIPE_RQ rq;
unsigned char vBuffer[3];
// read
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = 0x7;
rq.Value = 0;
rq.Index = 0xEF00;
rq.Length = 3;
if (InCtrlRequest(&rq, vBuffer, 3, Index) == SerialFlash_FALSE) {
return false;
}
dwUID = (unsigned int)vBuffer[0] << 16 | (unsigned int)vBuffer[1] << 8 | vBuffer[2];
return dwUID;
}
bool SetSPIClockDefault(int Index)
{
if (!Is_usbworking(Index))
return false;
// send request
CNTRPIPE_RQ rq;
unsigned char vBuffer;
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = SET_SPICLK;
rq.Value = 0x02; // 12MHz
rq.Index = 0;
rq.Length = 0;
if (OutCtrlRequest(&rq, &vBuffer, 0, Index) == SerialFlash_FALSE) {
printf("Set SPI clock error\n");
return false;
}
return true;
}
bool SetVpp4IAP(bool bOn, int Index)
{
if (!Is_usbworking(Index))
return false;
// send request
CNTRPIPE_RQ rq;
unsigned char vBuffer;
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = bOn ? 0x0 : 0x01;
rq.Value = 0;
rq.Index = 0;
rq.Length = 0x01;
if (OutCtrlRequest(&rq, &vBuffer, 1, Index) == SerialFlash_FALSE) {
return false;
}
Sleep(200);
return true;
}
bool UnlockRASS(int Index)
{
if (!Is_usbworking(Index))
return false;
// send request
CNTRPIPE_RQ rq;
unsigned char vBuffer;
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = 0x03;
rq.Value = 0;
rq.Index = 0;
rq.Length = 0x01;
if (OutCtrlRequest(&rq, &vBuffer, 1, Index) == SerialFlash_FALSE) {
return false;
}
return true;
}
unsigned char ReadManufacturerID(int Index)
{
if (!Is_usbworking(Index))
return false;
if ((g_bIsSF600[Index] == true) || is_SF700_Or_SF600PG2(Index) == true) {
unsigned char vUID[16];
if (ReadOnBoardFlash(vUID, false, Index) == false)
return false;
return vUID[3];
}
CNTRPIPE_RQ rq;
unsigned char vBuffer;
// read
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = 0x7;
rq.Value = 0;
rq.Index = 0xEF03;
rq.Length = 1;
if (InCtrlRequest(&rq, &vBuffer, 1, Index) == SerialFlash_FALSE) {
return false;
}
return vBuffer;
}
bool EraseST7Sectors(bool bSect1, int Index)
{
if (!Is_usbworking(Index))
return false;
// send request
CNTRPIPE_RQ rq;
unsigned char vBuffer;
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = bSect1 ? 0x04 : 0x05;
rq.Value = 0;
rq.Index = 0;
rq.Length = 0x01;
if (OutCtrlRequest(&rq, &vBuffer, 1, Index) == SerialFlash_FALSE) {
return false;
}
return true;
}
bool ProgramSectors(const char* sFilePath, bool bSect1, int Index)
{
const unsigned int iSect1StartAddr = 0xE000;
const unsigned int iSect2StartAddr = 0x8000;
const unsigned int iSect1Size = 0x1000;
const unsigned int iSect2Size = 0x6000;
unsigned char* pBuffer = NULL;
unsigned char* pTmp = NULL;
FW_INFO fw_info;
FILE* pFile;
size_t lSize;
unsigned char Data;
unsigned int iStartAddr = bSect1 ? iSect1StartAddr : iSect2StartAddr;
unsigned int Size, tmp;
unsigned int uiIndex = 0;
// prog sectors
CNTRPIPE_RQ rq;
pFile = fopen(sFilePath, "rb");
if (pFile == NULL) {
printf("Can not open %s \n", sFilePath);
return false;
}
fseek(pFile, 0, SEEK_SET);
lSize = fread((unsigned char*)&fw_info, 1, sizeof(FW_INFO), pFile);
if (lSize != sizeof(FW_INFO))
printf("Possible read length error %s\n", sFilePath);
if (bSect1 == true) {
Size = iSect1Size;
uiIndex = fw_info.FirstIndex;
} else {
Size = iSect2Size;
uiIndex = fw_info.SecondIndex;
}
pBuffer = (unsigned char*)malloc(Size);
memset(pBuffer, 0xFF, Size);
fseek(pFile, uiIndex, SEEK_SET);
lSize = fread(pBuffer, 1, Size, pFile);
if (lSize != Size)
printf("Possible read length error %s\n", sFilePath);
fclose(pFile);
pTmp = pBuffer;
while (Size) {
tmp = min(Size, 0x100);
/// receive page
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = 0x1;
rq.Value = 0;
rq.Index = 0;
rq.Length = 0x100; /// plage size for ST7 Iap prog
if (OutCtrlRequest(&rq, pTmp, tmp, Index) == SerialFlash_FALSE) {
free(pBuffer);
return false;
}
/// program page
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = 0x8;
rq.Value = 0;
rq.Index = iStartAddr & 0xFFFF; ///< ConvLongToInt(lngST7address Mod &H10000)
rq.Length = 0x1;
iStartAddr += 0x100;
if (OutCtrlRequest(&rq, &Data, 1, Index) == SerialFlash_FALSE) {
free(pBuffer);
return false;
}
Size -= tmp;
pTmp += tmp;
}
free(pBuffer);
return true;
}
bool UpdateChkSum(int Index)
{
if (!Is_usbworking(Index))
return false;
CNTRPIPE_RQ rq;
unsigned char vBuffer[2];
// send to calculate checksum
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = 0x9;
rq.Value = 0;
rq.Index = 0;
rq.Length = 2;
if (OutCtrlRequest(&rq, vBuffer, 2, Index) == SerialFlash_FALSE) {
return false;
}
return true;
}
bool WriteUID(unsigned int dwUID, int Index)
{
if (!Is_usbworking(Index))
return false;
if ((g_bIsSF600[Index] == true) || is_SF700_Or_SF600PG2(Index) == true)
return true;
CNTRPIPE_RQ rq;
unsigned char Data;
// read
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = 0x6;
rq.Value = (unsigned char)(dwUID >> 16);
rq.Index = 0xEF00;
rq.Length = 1;
if (InCtrlRequest(&rq, &Data, 1, Index) == SerialFlash_FALSE) {
return false;
}
rq.Index = 0xEF01;
rq.Value = (unsigned char)(dwUID >> 8);
if (InCtrlRequest(&rq, &Data, 1, Index) == SerialFlash_FALSE) {
return false;
}
rq.Index = 0xEF02;
rq.Value = (unsigned char)(dwUID);
if (!InCtrlRequest(&rq, &Data, 1, Index)) {
return false;
}
return true;
}
bool WriteManufacturerID(unsigned char ManuID, int Index)
{
if (!Is_usbworking(Index))
return false;
if ((g_bIsSF600[Index] == true) || is_SF700_Or_SF600PG2(Index) == true)
return true;
CNTRPIPE_RQ rq;
unsigned char Data;
// read
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = 0x6;
rq.Value = ManuID;
rq.Index = 0xEF03;
rq.Length = 1;
if (InCtrlRequest(&rq, &Data, 1, Index) == SerialFlash_FALSE) {
return false;
}
return true;
}
bool ReadMemOnST7(unsigned int iAddr, int Index)
{
if (!Is_usbworking(Index))
return false;
CNTRPIPE_RQ rq;
unsigned char vBuffer[2];
// read
rq.Function = URB_FUNCTION_VENDOR_OTHER;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = 0x7;
rq.Value = 0;
rq.Index = iAddr & 0xFFFF;
rq.Length = 2;
if (OutCtrlRequest(&rq, vBuffer, 2, Index) == SerialFlash_FALSE) {
return false;
}
return true;
}
bool UpdateSF600Firmware(const char* sFolder, int Index)
{
bool boResult = true;
unsigned char vUID[16];
unsigned int dwUID;
if (ReadOnBoardFlash(vUID, false, Index) == false)
return false;
dwUID = (unsigned int)vUID[0] << 16 | (unsigned int)vUID[1] << 8 | vUID[2];
boResult &= UpdateSF600Flash(sFolder, Index);
Sleep(200);
boResult &= UpdateSF600Flash_FPGA(sFolder, Index);
Sleep(1000);
WriteSF600UID(dwUID, vUID[3], Index);
return boResult;
}
bool WriteSF600UID(unsigned int dwUID, unsigned char ManuID, int Index)
{
CNTRPIPE_RQ rq;
unsigned char vBuffer[16];
// first control packet
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = WRITE_EEPROM;
rq.Value = 0;
rq.Index = 0;
rq.Length = 16;
vBuffer[0] = (unsigned char)(dwUID >> 16);
vBuffer[1] = (unsigned char)(dwUID >> 8);
vBuffer[2] = (unsigned char)(dwUID);
vBuffer[3] = ManuID;
if (!OutCtrlRequest(&rq, vBuffer, 16, Index))
return false;
return true;
}
bool CheckSDCard(int Index)
{
CNTRPIPE_RQ rq;
unsigned char vBuffer;
// first control packet
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = CHECK_SD_CARD;
rq.Value = 0;
rq.Index = 0;
rq.Length = 1;
if (!OutCtrlRequest(&rq, &vBuffer, 1, Index))
return false;
if (vBuffer == 0)
return false;
return true;
}
bool GetFirmwareVer(int Index)
{
CNTRPIPE_RQ rq;
unsigned char vBuffer[32];
unsigned int BufferSize =32;
if((g_bIsSF600[Index] == false) && (is_SF700_Or_SF600PG2(Index) == false))
BufferSize = 16;
// first control packet
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_IN;
rq.Request = PROGINFO_REQUEST;
rq.Value = 0;
rq.Index = 0;
rq.Length = BufferSize;
if (!OutCtrlRequest(&rq, vBuffer, BufferSize, Index))
return false;
if (!Is_usbworking(Index)) {
printf("Do not find SFxx programmer!!\n");
return false;
}
memcpy(g_board_type, &vBuffer[0], 8);
if (strstr(g_board_type, "SF600PG2") != NULL)
{
memcpy(g_FW_ver, &vBuffer[12], 9);
memcpy(g_HW_ver, &vBuffer[25], 5);
}
else
{
memcpy(g_FW_ver, &vBuffer[10], 7);
if (strstr(g_board_type, "SF600") != NULL)
memcpy(g_HW_ver, &vBuffer[20], 4);
if (strstr(g_board_type, "SF700") != NULL)
memcpy(g_HW_ver, &vBuffer[21], 4);
}
return true;
}
bool EncrypFirmware(unsigned char* vBuffer, unsigned int Size, int Index)
{
unsigned char vUID[16];
unsigned int i = 0;
if (ReadOnBoardFlash(vUID, false, Index) == false)
return false;
for (i = 0; i < 16; i++)
vBuffer[i] = vBuffer[i] ^ vUID[i];
for (; i < Size; i++)
vBuffer[i] = vBuffer[i] ^ vBuffer[i - 16];
return true;
}
bool UpdateSF600Flash(const char* sFilePath, int Index)
{
CNTRPIPE_RQ rq;
unsigned char* pBuffer;
int pagenum = 0;
unsigned int dwsize = 0;
FW_INFO fw_info;
FILE* pFile;
size_t lSize;
int i = 0;
pFile = fopen(sFilePath, "rb");
if (pFile == NULL) {
printf("Can not open %s \n", sFilePath);
return false;
}
fseek(pFile, 0, SEEK_SET);
lSize = fread((unsigned char*)&fw_info, 1, sizeof(FW_INFO), pFile);
if (lSize != sizeof(FW_INFO))
printf("Possible read length error %s\n", sFilePath);
pBuffer = (unsigned char*)malloc(fw_info.FirstSize);
fseek(pFile, fw_info.FirstIndex, SEEK_SET);
lSize = fread(pBuffer, 1, fw_info.FirstSize, pFile);
if (lSize != fw_info.FirstSize)
printf("Possible read length error %s\n", sFilePath);
fclose(pFile);
EncrypFirmware(pBuffer, fw_info.FirstSize, Index);
if (Is_NewUSBCommand(Index)) { // for win8.1
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = 0x1A;
rq.Value = 0;
rq.Index = 0;
rq.Length = 6;
unsigned char Package[6];
Package[0] = pBuffer[0];
Package[1] = pBuffer[1];
Package[2] = (fw_info.FirstSize & 0xff);
Package[3] = ((fw_info.FirstSize >> 8) & 0xff);
Package[4] = ((fw_info.FirstSize >> 16) & 0xff);
Package[5] = ((fw_info.FirstSize >> 24) & 0xff);
if (!OutCtrlRequest(&rq, Package, 6, Index)) {
free(pBuffer);
return false;
}
} else {
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = 0x1A;
rq.Value = (unsigned short)(fw_info.FirstSize & 0xffff);
rq.Index = (unsigned short)((fw_info.FirstSize >> 16) & 0xffff);
rq.Length = 0;
if (!OutCtrlRequest(&rq, pBuffer, 0, Index)) {
free(pBuffer);
return false;
}
}
pagenum = (fw_info.FirstSize >> 9) + ((fw_info.FirstSize % (1 << 9)) ? 1 : 0);
dwsize = fw_info.FirstSize;
for (i = 0; i < pagenum; i++) {
BulkPipeWrite((pBuffer + (i << 9)), min(512, dwsize), USB_TIMEOUT, Index);
dwsize -= 512;
}
free(pBuffer);
return true;
}
bool UpdateSF600Flash_FPGA(const char* sFilePath, int Index)
{
CNTRPIPE_RQ rq;
unsigned char* pBuffer;
int pagenum = 0;
unsigned int dwsize = 0;
FW_INFO fw_info;
FILE* pFile;
size_t lSize;
int i = 0;
pFile = fopen(sFilePath, "rb");
if (pFile == NULL) {
printf("Can not open %s \n", sFilePath);
return false;
}
fseek(pFile, 0, SEEK_SET);
lSize = fread((unsigned char*)&fw_info, 1, sizeof(FW_INFO), pFile);
if (lSize != sizeof(FW_INFO))
printf("Possible read length error %s\n", sFilePath);
pBuffer = (unsigned char*)malloc(fw_info.SecondSize);
fseek(pFile, fw_info.SecondIndex, SEEK_SET);
lSize = fread(pBuffer, 1, fw_info.SecondSize, pFile);
if (lSize != fw_info.SecondSize)
printf("Possible read length error %s\n", sFilePath);
fclose(pFile);
if (EncrypFirmware(pBuffer, fw_info.SecondSize, Index) == false)
return false;
if (Is_NewUSBCommand(Index)) { // for win8.1
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = 0x1B;
rq.Value = 0; // static_cast<unsigned short>(vBuffer.size() & 0xffff) ;
rq.Index = 0; // static_cast<unsigned short>((vBuffer.size() >> 16) & 0xffff) ;
rq.Length = 4;
unsigned char Package[4];
Package[0] = (fw_info.SecondSize & 0xff);
Package[1] = ((fw_info.SecondSize >> 8) & 0xff);
Package[2] = ((fw_info.SecondSize >> 16) & 0xff);
Package[3] = ((fw_info.SecondSize >> 24) & 0xff);
if (!OutCtrlRequest(&rq, Package, 4, Index)) {
free(pBuffer);
return false;
}
} else {
rq.Function = URB_FUNCTION_VENDOR_ENDPOINT;
rq.Direction = VENDOR_DIRECTION_OUT;
rq.Request = 0x1B;
rq.Value = (unsigned short)(fw_info.SecondSize & 0xffff);
rq.Index = (unsigned short)((fw_info.SecondSize >> 16) & 0xffff);
rq.Length = 0;
if (!OutCtrlRequest(&rq, pBuffer, 0, Index)) {
free(pBuffer);
return false;
}
}
pagenum = (fw_info.SecondSize >> 9) + ((fw_info.SecondSize % (1 << 9)) ? 1 : 0);
dwsize = fw_info.SecondSize;
for (i = 0; i < pagenum; i++) {
BulkPipeWrite(pBuffer + (i << 9), min(512, dwsize), USB_TIMEOUT, Index);
dwsize -= 512;
}