// === PROTOTYPES ===\r
// --- Driver Core\r
int FAT_Install(char **Arguments);\r
-tVFS_Node *FAT_InitDevice(char *device, char **options);\r
+tVFS_Node *FAT_InitDevice(const char *device, const char **options);\r
void FAT_Unmount(tVFS_Node *Node);\r
// --- Helpers\r
int FAT_int_GetAddress(tVFS_Node *Node, Uint64 Offset, Uint64 *Addr, Uint32 *Cluster);\r
}\r
\r
/**\r
- * \fn tVFS_Node *FAT_InitDevice(char *Device, char **Options)\r
* \brief Reads the boot sector of a disk and prepares the structures for it\r
*/\r
-tVFS_Node *FAT_InitDevice(char *Device, char **Options)\r
+tVFS_Node *FAT_InitDevice(const char *Device, const char **Options)\r
{\r
fat_bootsect *bs;\r
int i;\r
// Bit 6 indicates the start of an entry\r
if(lfnInfo->id & 0x40) memset(lfn, 0, 256);\r
\r
- a = (lfnInfo->id & 0x3F) * 13;\r
+ a = ((lfnInfo->id & 0x3F) - 1) * 13;\r
+ //Log_Debug("FAT", "ID = 0x%02x, a = %i", lfnInfo->id, a);\r
\r
// Sanity Check (FAT implementations should not allow >255 character names)\r
if(a > 255) return VFS_SKIP;\r
lfn[a+ 9] = lfnInfo->name2[4]; lfn[a+10] = lfnInfo->name2[5];\r
lfn[a+11] = lfnInfo->name3[0]; lfn[a+12] = lfnInfo->name3[1];\r
LOG("lfn = '%s'", lfn);\r
+ //Log_Debug("FAT", "lfn = '%s'", lfn);\r
LEAVE('p', VFS_SKIP);\r
return VFS_SKIP;\r
}\r
\r
#if USE_LFN\r
lfn = FAT_int_GetLFN(Node, ID);\r
+ //Log_Debug("FAT", "lfn = %p'%s'", lfn, lfn);\r
ret = FAT_int_CreateName(&fileinfo[a], lfn);\r
#else\r
ret = FAT_int_CreateName(&fileinfo[a], NULL);\r