static int optimus_read_keyfile_2_mem(const char* filePath, u8* buf, unsigned* keyValLen)
{
int rc = 0;
unsigned keySz = 0;
if(DEV_FILE_FMT_VFAT == _optKeyInfo.fileFmt)
{
long hFile = -1;
unsigned readSz = 0;
#if 1//FIXME: remove this mmcinfo
/*rc = run_command("mmcinfo 0", 0);*/
rc = optimus_sdc_burn_switch_to_extmmc();
if(rc){
DWN_ERR("Fail in mmcinfo\n");
return __LINE__;
}
#endif//
keySz = (unsigned)do_fat_get_fileSz(filePath);//can support both sdc and udisk
if(!keySz){
DWN_ERR("size is 0 of file [%s]\n", filePath);
return __LINE__;
}
hFile = do_fat_fopen(filePath);
if(hFile < 0){
DWN_ERR("Fail to open file[%s]\n", filePath);
return __LINE__;
}
readSz = do_fat_fread(hFile, buf, keySz);
if(readSz != keySz){
DWN_ERR("Want read %d bytes, but %d\n", keySz, readSz);
return __LINE__;
}
do_fat_fclose(hFile);
}
*keyValLen = keySz;
return rc;
}
//1, Read the whole file content to buffer
//2, parse file content to lines
//3, parse each valid line
static int parse_ini_file(const char* filePath, u8* iniBuf, const unsigned bufSz)
{
const int MaxLines = 1024;//
const int MaxWordsALine = 32;
char* lines[MaxLines];
char* wordsALine[MaxWordsALine];
int ret = 0;
unsigned fileSz = 0;
unsigned lineNum = 0;
int nwords = 0;
int currentSetIndex = -1;
int hFile = -1;
unsigned readLen = 0;
unsigned i = 0;
unsigned lineIndex = 0;
fileSz = (unsigned)do_fat_get_fileSz(filePath);
if(!fileSz){
err("File %s not exist in sdcard??\n", filePath);
return __LINE__;
}
if(fileSz >= bufSz){
err("file size 0x%x illegal, buf size is 0x%x\n", fileSz, bufSz);
return __LINE__;
}
DWN_MSG("ini sz 0x%xB\n", fileSz);
hFile = do_fat_fopen(filePath);
if(hFile < 0){
err("Fail to open file %s\n", filePath);
return __LINE__;
}
readLen = do_fat_fread(hFile, iniBuf, fileSz);
if(readLen != fileSz){
err("failed to load cfg file, want size 0x%x, but 0x%x\n", fileSz, readLen);
do_fat_fclose(hFile);
return __LINE__;
}
iniBuf[fileSz] = 0;
do_fat_fclose(hFile);
dbg("\\r is 0x%x\t, \\n is 0x%x\n", '\r', '\n');
char* curLine = (char*)iniBuf;
char* pTemp = curLine;
//step1:first loop to seprate buffer to lines
for (i = 0; i < fileSz ; i++, ++pTemp)
{
char c = *pTemp;
int isFileEnd = i + 1 >= fileSz;
if(MaxLines <= lineNum){
err("total line number %d too many, at most %d lines!\n", lineNum, MaxLines);
break;
}
if(isFileEnd)
{
lines[lineNum++] = curLine;
break;//End to read file if file ended
}
if('\r' != c && '\n' != c) {
continue;
}
*pTemp = 0;///
dbg("%3d: %s\n", lineNum, curLine);
if('\r' == c)//for DOS \r\n mode
{
if('\n' == pTemp[1])
{
lines[lineNum++] = curLine;
++pTemp;
curLine = pTemp + 1;
++i;//skip '\n' which follows '\r'
}
else
{
err("Syntax error at line %d, DOS end \\r\\n, but \\r%x\n", lineNum + 1, pTemp[1]);
return __LINE__;
}
}
else if('\n' == c)//for UNIX '\n' mode
{
lines[lineNum++] = curLine;
curLine = pTemp + 1;
}
}
//step 2: abandon comment or space lines
for (lineIndex = 0; lineIndex < lineNum ; lineIndex++)
{
int isSpaceLine = 1;
char c = 0;
curLine = lines[lineIndex];
while(c = *curLine++, c)
{
//escape space and tab
if (is_space_char(c))
{
continue;
}
isSpaceLine = 0;//no space line
//test if frist char is comment delimeter
if(';' == c)
{
lines[lineIndex] = NULL;//invalid comment lines
}
}
//if all character is space or tab, also invlalid it
if (isSpaceLine)
{
lines[lineIndex] = NULL;
}
}
dbg("\nvalid lines:\n");
for (lineIndex = 0; lineIndex < lineNum ; lineIndex++)
{
int lineType = INI_LINE_TYPE_ERR;
const char* iniKey = NULL;
const char* iniVal = NULL;
const char* iniSet = NULL;
curLine = lines[lineIndex];
if(!curLine)continue;
if(!line_is_valid(curLine)) //only comment lines can contain non-ASCII letters
{
err("line %d contain invalid chars\n", lineIndex + 1);
ret = __LINE__;
break;
}
dbg("%3d: %s\n",lineIndex, curLine);
nwords = line_2_words(curLine, wordsALine, MaxWordsALine);
if(nwords <= 0){
ret = __LINE__;
break;
}
if(nwords > 3){
err("line %d error: ini support at most 3 words, but %d\n", lineIndex + 1, nwords);
ret = __LINE__;
break;
}
switch (nwords)
{
case 3:
{
if (!strcmp("=", wordsALine[1]))//k/v pair
{
lineType = INI_LINE_TYPE_KE_VALUE;
iniKey = wordsALine[0]; iniVal = wordsALine[2];
break;
}
else if(!strcmp("[" , wordsALine[0]) && !strcmp("]" , wordsALine[2]))//set line
{
lineType = INI_LINE_TYPE_SET;
iniSet = wordsALine[1];
break;
}
else
{
lineType = INI_LINE_TYPE_ERR;
err("Ini syntax error when parse line %d\n", lineIndex + 1);
ret = __LINE__; break;
}
}
break;
case 2:
{
if('[' == wordsALine[0][0])//set like "[set ]" or "[ set]"
{
if(!strcmp("]", wordsALine[1]))
{
lineType = INI_LINE_TYPE_SET;
iniSet = wordsALine[0] + 1;
break;
}
else if (']' == wordsALine[1][strlen(wordsALine[1]) - 1] && !strcmp("[", wordsALine[0]))
{
lineType = INI_LINE_TYPE_SET;
iniSet = wordsALine[1];
wordsALine[1][strlen(wordsALine[1]) - 1] = 0;
break;
}
}
else if(!strcmp("=", wordsALine[1]))//k/v pair like "key = "
{
lineType = INI_LINE_TYPE_KE_VALUE;
iniKey = wordsALine[0];
break;
}
else if('=' == wordsALine[1][0])//k/v pair like "key =v" or "key= v"
{
lineType = INI_LINE_TYPE_KE_VALUE;
iniKey = wordsALine[0];
iniVal = wordsALine[1] + 1;
break;
}
else if ('=' == wordsALine[0][strlen(wordsALine[0]) - 1])//k/v pair like "key= v"
{
wordsALine[0][strlen(wordsALine[0]) - 1] = 0;
lineType = INI_LINE_TYPE_KE_VALUE;
iniKey = wordsALine[0];
iniVal = wordsALine[1];
}
}
break;
case 1:
{
char* word = wordsALine[0];
char firstChar = word[0];
char lastChar = word[strlen(word) - 1];
if('[' == firstChar && ']' == lastChar)
{
lineType = INI_LINE_TYPE_SET;
iniSet = word + 1;
word[strlen(word) - 1] = 0;
break;
}
else
{
char c = 0;
iniKey = word;
while(c = *word++, c)
{
if ('=' == c)//TODO: not assert only delimeter in a line yet
{
lineType = INI_LINE_TYPE_KE_VALUE;
*--word = 0;
iniVal = ++word;
iniVal = *iniVal ? iniVal : NULL;
break;
}
}
}
}
break;
default:
break;
}
if (INI_LINE_TYPE_SET == lineType)
{
const char* setname = NULL;
dbg("set line, set is %s\n", iniSet);
currentSetIndex = -1;//set index to invalid
for (i = 0; i < TOTAL_SET_NUM; i++)
{
setname = _iniSets[i];
if (!strcmp(setname, iniSet))break;//set is useful for sdc burn
}
//set is useful
if(i < TOTAL_SET_NUM)
{
if(!strcmp(setname, SET_BURN_PARTS))
{
if(g_sdcBurnPara.setsBitMap.burnParts){
ret = __LINE__; goto _set_duplicated;
}
g_sdcBurnPara.setsBitMap.burnParts = 1;
}
if(!strcmp(setname, SET_BURN_PARA_EX))
{
if(g_sdcBurnPara.setsBitMap.burnEx){
ret = __LINE__; goto _set_duplicated;
}
g_sdcBurnPara.setsBitMap.burnEx = 1;
}
if(!strcmp(setname, SET_CUSTOM_PARA))
{
if(g_sdcBurnPara.setsBitMap.custom){
ret = __LINE__; goto _set_duplicated;
}
g_sdcBurnPara.setsBitMap.custom = 1;
}
currentSetIndex = i;//set set index to valid
}
}
if(INI_LINE_TYPE_KE_VALUE == lineType)
{
dbg("k/v line, key (%s), val (%s)\n", iniKey, iniVal);
if (currentSetIndex >= 0 && currentSetIndex < TOTAL_SET_NUM)//set is valid
{
const char* setName = _iniSets[currentSetIndex];
if (!strcmp(setName, SET_BURN_PARTS))
{
ret = parse_burn_parts(iniKey, iniVal);
if(ret){
ret = __LINE__; goto _line_err;
}
}
if (!strcmp(setName, SET_BURN_PARA_EX))
{
ret = parse_set_burnEx(iniKey, iniVal);
if(ret){
ret = __LINE__; goto _line_err;
}
}
if (!strcmp(setName, SET_CUSTOM_PARA))
{
ret = parse_set_custom_para(iniKey, iniVal);
if(ret){
ret = __LINE__; goto _line_err;
}
}
}
}
}
return ret;
_line_err:
err("Fail to parse line %d\n", lineIndex + 1);
return ret;
_set_duplicated:
err("line %d err:set is duplicated!!\n", lineIndex + 1);
return ret;
}
