* FAT12/16/32 Driver Version (Incl LFN)\r
*/\r
#define DEBUG 0\r
+#define VERBOSE 1\r
+\r
+#define CACHE_FAT 1 //!< Caches the FAT in memory\r
+#define USE_LFN 1 //!< Enables the use of Long File Names\r
+\r
#include <common.h>\r
#include <modules.h>\r
#include <vfs.h>\r
#include "fs_fat.h"\r
\r
-#define VERBOSE 1\r
-\r
-#define CACHE_FAT 1 //!< Caches the FAT in memory\r
-#define USE_LFN 1 //!< Enables the use of Long File Names\r
\r
// === TYPES ===\r
#if USE_LFN\r
MODULE_DEFINE(0, 0x51 /*v0.80*/, FAT32, FAT_Install, NULL, NULL);\r
tFAT_VolInfo gFAT_Disks[8];\r
int giFAT_PartCount = 0;\r
-#if CACHE_FAT\r
-Uint32 *fat_cache[8];\r
-#endif\r
#if USE_LFN\r
t_lfncache *fat_lfncache;\r
#endif\r
#if CACHE_FAT\r
{\r
Uint32 Ofs;\r
- fat_cache[ giFAT_PartCount ] = (Uint32*)malloc(sizeof(Uint32)*CountofClusters);\r
- if(fat_cache[giFAT_PartCount] == NULL) {\r
+ diskInfo->FATCache = (Uint32*)malloc(sizeof(Uint32)*CountofClusters);\r
+ if(diskInfo->FATCache == NULL) {\r
Warning("FAT_InitDisk - Heap Exhausted\n");\r
return NULL;\r
}\r
Ofs += 3*512;\r
}\r
val = *((int*)(buf+j*3));\r
- fat_cache[giFAT_PartCount][i*2] = val & 0xFFF;\r
- fat_cache[giFAT_PartCount][i*2+1] = (val>>12) & 0xFFF;\r
+ diskInfo->FATCache[i*2] = val & 0xFFF;\r
+ diskInfo->FATCache[i*2+1] = (val>>12) & 0xFFF;\r
}\r
}\r
if(diskInfo->type == FAT16) {\r
VFS_ReadAt(diskInfo->fileHandle, Ofs, 512, buf);\r
Ofs += 512;\r
}\r
- fat_cache[giFAT_PartCount][i] = buf[i&255];\r
+ diskInfo->FATCache[i] = buf[i&255];\r
}\r
}\r
if(diskInfo->type == FAT32) {\r
VFS_ReadAt(diskInfo->fileHandle, Ofs, 512, buf);\r
Ofs += 512;\r
}\r
- fat_cache[giFAT_PartCount][i] = buf[i&127];\r
+ diskInfo->FATCache[i] = buf[i&127];\r
}\r
}\r
LOG("FAT Fully Cached");\r
#endif /*CACHE_FAT*/\r
\r
//Initalise inode cache for FAT\r
- gFAT_Disks[giFAT_PartCount].inodeHandle = Inode_GetHandle();\r
- LOG("Inode Cache handle is %i", gFAT_Disks[giFAT_PartCount].inodeHandle);\r
+ diskInfo->inodeHandle = Inode_GetHandle();\r
+ LOG("Inode Cache handle is %i", diskInfo->inodeHandle);\r
\r
// == VFS Interface\r
- node = &gFAT_Disks[giFAT_PartCount].rootNode;\r
+ node = &diskInfo->rootNode;\r
node->Inode = diskInfo->rootOffset;\r
node->Size = bs->files_in_root; // Unknown - To be set on readdir\r
node->ImplInt = giFAT_PartCount;\r
}\r
\r
/**\r
- * \fn static Uint32 FAT_int_GetFatValue(int handle, Uint32 cluster)\r
+ * \fn static Uint32 FAT_int_GetFatValue(tFAT_VolInfo *Disk, Uint32 cluster)\r
* \brief Fetches a value from the FAT\r
*/\r
-static Uint32 FAT_int_GetFatValue(int handle, Uint32 cluster)\r
+static Uint32 FAT_int_GetFatValue(tFAT_VolInfo *Disk, Uint32 cluster)\r
{\r
- Uint32 val;\r
+ Uint32 val = 0;\r
+ #if !CACHE_FAT\r
+ Uint32 ofs = Disk->bootsect.resvSectCount*512;\r
+ #endif\r
ENTER("iHandle xCluster", handle, cluster);\r
#if CACHE_FAT\r
- val = fat_cache[handle][cluster];\r
+ val = Disk->FATCache[cluster];\r
#else\r
- if(gFAT_Disks[handle].type == FAT12) {\r
- VFS_ReadAt(gFAT_Disks[handle].fileHandle, 512+(cluster&~1)*3, 3, &val);\r
+ if(Disk->type == FAT12) {\r
+ VFS_ReadAt(Disk->fileHandle, ofs+(cluster>>1)*3, 3, &val);\r
val = (cluster&1 ? val&0xFFF : val>>12);\r
- } else if(gFAT_Disks[handle].type == FAT16) {\r
- VFS_ReadAt(gFAT_Disks[handle].fileHandle, 512+cluster*2, 2, &val);\r
+ } else if(Disk->type == FAT16) {\r
+ VFS_ReadAt(Disk->fileHandle, ofs+cluster*2, 2, &val);\r
} else {\r
- VFS_ReadAt(gFAT_Disks[handle].fileHandle, 512+cluster*4, 4, &val);\r
+ VFS_ReadAt(Disk->fileHandle, ofs+cluster*4, 4, &val);\r
}\r
#endif /*CACHE_FAT*/\r
LEAVE('x', val);\r
// Sanity Check offset\r
if(offset > node->Size) {\r
//LOG("Reading past EOF (%i > %i)", offset, node->Size);\r
+ LEAVE('i', 0);\r
return 0;\r
}\r
// Clamp Size\r
\r
//Skip previous clusters\r
for(i=preSkip;i--;) {\r
- cluster = FAT_int_GetFatValue(handle, cluster);\r
+ cluster = FAT_int_GetFatValue(disk, cluster);\r
if(cluster == eocMarker) {\r
Warning("FAT_Read - Offset is past end of cluster chain mark");\r
}\r
return length;\r
}\r
\r
- cluster = FAT_int_GetFatValue(handle, cluster);\r
+ cluster = FAT_int_GetFatValue(disk, cluster);\r
\r
#if DEBUG\r
LOG("pos=%i\n", pos);\r
FAT_int_ReadCluster(handle, cluster, bpc, tmpBuf);\r
memcpy((void*)(buffer+pos), tmpBuf, bpc);\r
pos += bpc;\r
- cluster = FAT_int_GetFatValue(handle, cluster);\r
+ cluster = FAT_int_GetFatValue(disk, cluster);\r
if(cluster == eocMarker) {\r
Warning("FAT_Read - Read past End of Cluster Chain");\r
free(tmpBuf);\r
{\r
//Skip previous clusters\r
for(a=preSkip;a--;) {\r
- cluster = FAT_int_GetFatValue(dirNode->ImplInt, cluster);\r
+ cluster = FAT_int_GetFatValue(disk, cluster);\r
}\r
}\r
\r
// Check for end of cluster chain\r
if((disk->type == FAT12 && cluster == EOC_FAT12)\r
|| (disk->type == FAT16 && cluster == EOC_FAT16)\r
- || (disk->type == FAT32 && cluster == EOC_FAT32))\r
+ || (disk->type == FAT32 && cluster == EOC_FAT32)) {\r
+ LEAVE('n');\r
return NULL;\r
+ }\r
\r
// Bounds Checking (Used to spot heap overflows)\r
if(cluster > disk->clusterCount + 2)\r
{\r
if( dirCluster == disk->rootOffset && disk->type != FAT32 )\r
continue;\r
- dirCluster = FAT_int_GetFatValue(node->ImplInt, dirCluster);\r
+ dirCluster = FAT_int_GetFatValue(disk, dirCluster);\r
diskOffset = (disk->firstDataSect+(dirCluster-2)*disk->bootsect.spc)*512;\r
}\r
}\r