* \todo Implement changing of the parent directory when a file is written to\r
* \todo Implement file creation / deletion\r
*/\r
-#define DEBUG 0\r
+#define DEBUG 1\r
#define VERBOSE 1\r
\r
-#define CACHE_FAT 0 //!< Caches the FAT in memory\r
-#define USE_LFN 1 //!< Enables the use of Long File Names\r
-#define SUPPORT_WRITE 0 //!< Enables write support\r
-\r
#include <acess.h>\r
#include <modules.h>\r
-#include <vfs.h>\r
-#include "fs_fat.h"\r
-\r
-#define FAT_FLAG_DIRTY 0x10000\r
-#define FAT_FLAG_DELETE 0x20000\r
-\r
-// === TYPES ===\r
-#if USE_LFN\r
-/**\r
- * \brief Long-Filename cache entry\r
- */\r
-typedef struct sFAT_LFNCacheEnt\r
-{\r
- int ID;\r
- // TODO: Handle UTF16 names correctly\r
- char Data[256];\r
-} tFAT_LFNCacheEnt;\r
-/**\r
- * \brief Long-Filename cache\r
- */\r
-typedef struct sFAT_LFNCache\r
-{\r
- int NumEntries;\r
- tFAT_LFNCacheEnt Entries[];\r
-} tFAT_LFNCache;\r
-#endif\r
+#include "common.h"\r
\r
// === PROTOTYPES ===\r
// --- Driver Core\r
void FAT_Unmount(tVFS_Node *Node);\r
// --- Helpers\r
int FAT_int_GetAddress(tVFS_Node *Node, Uint64 Offset, Uint64 *Addr, Uint32 *Cluster);\r
-Uint32 FAT_int_GetFatValue(tFAT_VolInfo *Disk, Uint32 Cluster);\r
-#if SUPPORT_WRITE\r
-Uint32 FAT_int_AllocateCluster(tFAT_VolInfo *Disk, Uint32 Previous);\r
-Uint32 FAT_int_FreeCluster(tFAT_VolInfo *Disk, Uint32 Cluster);\r
-#endif\r
-void FAT_int_ReadCluster(tFAT_VolInfo *Disk, Uint32 Cluster, int Length, void *Buffer);\r
// --- File IO\r
size_t FAT_Read(tVFS_Node *Node, off_t Offset, size_t Length, void *Buffer);\r
#if SUPPORT_WRITE\r
-void FAT_int_WriteCluster(tFAT_VolInfo *Disk, Uint32 Cluster, void *Buffer);\r
-size_t FAT_Write(tVFS_Node *Node, off_t Offset, size_t Length, void *Buffer);\r
-#endif\r
-// --- Directory IO\r
-char *FAT_ReadDir(tVFS_Node *Node, int ID);\r
-tVFS_Node *FAT_FindDir(tVFS_Node *Node, const char *Name);\r
-tVFS_Node *FAT_GetNodeFromINode(tVFS_Node *Root, Uint64 Inode);\r
-#if SUPPORT_WRITE\r
- int FAT_Mknod(tVFS_Node *Node, const char *Name, Uint Flags);\r
- int FAT_Relink(tVFS_Node *node, const char *OldName, const char *NewName);\r
+size_t FAT_Write(tVFS_Node *Node, off_t Offset, size_t Length, const void *Buffer);\r
#endif\r
void FAT_CloseFile(tVFS_Node *node);\r
\r
+\r
// === Options ===\r
int giFAT_MaxCachedClusters = 1024*512/4;\r
\r
// === SEMI-GLOBALS ===\r
-MODULE_DEFINE(0, (0<<8)|50 /*v0.50*/, VFAT, FAT_Install, NULL, NULL);\r
+MODULE_DEFINE(0, VER2(0,80) /*v0.80*/, VFAT, FAT_Install, NULL, NULL);\r
tFAT_VolInfo gFAT_Disks[8];\r
int giFAT_PartCount = 0;\r
tVFS_Driver gFAT_FSInfo = {"fat", 0, FAT_InitDevice, FAT_Unmount, FAT_GetNodeFromINode, NULL};\r
.FindDir = FAT_FindDir,\r
#if SUPPORT_WRITE\r
.MkNod = FAT_Mknod,\r
- .Relink = FAT_Relink,\r
+ .Link = FAT_Link,\r
+ .Unlink = FAT_Unlink,\r
#endif\r
.Close = FAT_CloseFile\r
};\r
Uint32 FATSz, RootDirSectors, TotSec;\r
tVFS_Node *node = NULL;\r
tFAT_VolInfo *diskInfo = &gFAT_Disks[giFAT_PartCount];\r
+\r
+ memset(diskInfo, 0, sizeof(*diskInfo));\r
\r
// Temporary Pointer\r
bs = &diskInfo->bootsect;\r
\r
if(bs->bps == 0 || bs->spc == 0) {\r
Log_Notice("FAT", "Error in FAT Boot Sector (zero BPS/SPC)");\r
+ VFS_Close(diskInfo->fileHandle);\r
return NULL;\r
}\r
\r
\r
diskInfo->ClusterCount = (TotSec - (bs->resvSectCount + (bs->fatCount * FATSz) + RootDirSectors)) / bs->spc;\r
\r
- if(diskInfo->ClusterCount < 4085)\r
+ if(diskInfo->ClusterCount < FAT16_MIN_SECTORS)\r
diskInfo->type = FAT12;\r
- else if(diskInfo->ClusterCount < 65525)\r
+ else if(diskInfo->ClusterCount < FAT32_MIN_CLUSTERS)\r
diskInfo->type = FAT16;\r
else\r
diskInfo->type = FAT32;\r
diskInfo->FATCache = (Uint32*)malloc(sizeof(Uint32)*diskInfo->ClusterCount);\r
if(diskInfo->FATCache == NULL) {\r
Log_Warning("FAT", "Heap Exhausted");\r
+ VFS_Cose(diskInfo->fileHandle);\r
return NULL;\r
}\r
Ofs = bs->resvSectCount*512;\r
\r
diskInfo->BytesPerCluster = bs->spc * bs->bps;\r
\r
- // Initalise inode cache for filesystem\r
- diskInfo->inodeHandle = Inode_GetHandle();\r
- LOG("Inode Cache handle is %i", diskInfo->inodeHandle);\r
- \r
// == VFS Interface\r
node = &diskInfo->rootNode;\r
//node->Size = bs->files_in_root;\r
// Close Disk Handle\r
VFS_Close( disk->fileHandle );\r
// Clear Node Cache\r
- Inode_ClearCache(disk->inodeHandle);\r
+ FAT_int_ClearNodeCache(disk);\r
// Mark as unused\r
disk->fileHandle = -2;\r
return;\r
*/\r
int FAT_int_GetAddress(tVFS_Node *Node, Uint64 Offset, Uint64 *Addr, Uint32 *Cluster)\r
{\r
- Uint32 cluster;\r
+ Uint32 cluster, base_cluster;\r
Uint64 addr;\r
int skip;\r
tFAT_VolInfo *disk = Node->ImplPtr;\r
\r
ENTER("pNode XOffset", Node, Offset);\r
\r
- cluster = Node->Inode & 0xFFFFFFF; // Cluster ID\r
- LOG("cluster = 0x%07x", cluster);\r
+ cluster = base_cluster = Node->Inode & 0xFFFFFFF; // Cluster ID\r
+// LOG("base cluster = 0x%07x", cluster);\r
\r
// Do Cluster Skip\r
// - Pre FAT32 had a reserved area for the root.\r
if(Cluster) *Cluster = cluster;\r
}\r
else {\r
+ // TODO: Bounds checking on root\r
+// LOG("Root cluster count %i", disk->bootsect.files_in_root*32/disk->BytesPerCluster);\r
// Increment by clusters in offset\r
cluster += Offset / disk->BytesPerCluster;\r
}\r
\r
- LOG("cluster = %08x", cluster);\r
+// LOG("cluster = 0x%07x", cluster);\r
\r
// Bounds Checking (Used to spot corruption)\r
if(cluster > disk->ClusterCount + 2)\r
\r
// Compute Offsets\r
// - Pre FAT32 cluster base (in sectors)\r
- if( cluster == disk->rootOffset && disk->type != FAT32 ) {\r
+ if( base_cluster == disk->rootOffset && disk->type != FAT32 ) {\r
addr = disk->bootsect.resvSectCount * disk->bootsect.bps;\r
addr += cluster * disk->BytesPerCluster;\r
}\r
return 0;\r
}\r
\r
-/*\r
- * ====================\r
- * FAT Manipulation\r
- * ====================\r
- */\r
-/**\r
- * \fn Uint32 FAT_int_GetFatValue(tFAT_VolInfo *Disk, Uint32 cluster)\r
- * \brief Fetches a value from the FAT\r
- */\r
-Uint32 FAT_int_GetFatValue(tFAT_VolInfo *Disk, Uint32 cluster)\r
-{\r
- Uint32 val = 0;\r
- Uint32 ofs;\r
- ENTER("pDisk xCluster", Disk, cluster);\r
- Mutex_Acquire( &Disk->lFAT );\r
- #if CACHE_FAT\r
- if( Disk->ClusterCount <= giFAT_MaxCachedClusters )\r
- {\r
- val = Disk->FATCache[cluster];\r
- if(Disk->type == FAT12 && val == EOC_FAT12) val = -1;\r
- if(Disk->type == FAT16 && val == EOC_FAT16) val = -1;\r
- if(Disk->type == FAT32 && val == EOC_FAT32) val = -1;\r
- }\r
- else\r
- {\r
- #endif\r
- ofs = Disk->bootsect.resvSectCount*512;\r
- if(Disk->type == FAT12) {\r
- VFS_ReadAt(Disk->fileHandle, ofs+(cluster/2)*3, 3, &val);\r
- val = (cluster & 1 ? val>>12 : val & 0xFFF);\r
- if(val == EOC_FAT12) val = -1;\r
- } else if(Disk->type == FAT16) {\r
- VFS_ReadAt(Disk->fileHandle, ofs+cluster*2, 2, &val);\r
- if(val == EOC_FAT16) val = -1;\r
- } else {\r
- VFS_ReadAt(Disk->fileHandle, ofs+cluster*4, 4, &val);\r
- if(val == EOC_FAT32) val = -1;\r
- }\r
- #if CACHE_FAT\r
- }\r
- #endif /*CACHE_FAT*/\r
- Mutex_Release( &Disk->lFAT );\r
- LEAVE('x', val);\r
- return val;\r
-}\r
-\r
-#if SUPPORT_WRITE\r
-/**\r
- * \brief Allocate a new cluster\r
- */\r
-Uint32 FAT_int_AllocateCluster(tFAT_VolInfo *Disk, Uint32 Previous)\r
-{\r
- Uint32 ret = Previous;\r
- #if CACHE_FAT\r
- if( Disk->ClusterCount <= giFAT_MaxCachedClusters )\r
- {\r
- Uint32 eoc;\r
- \r
- LOCK(Disk->lFAT);\r
- for(ret = Previous; ret < Disk->ClusterCount; ret++)\r
- {\r
- if(Disk->FATCache[ret] == 0)\r
- goto append;\r
- }\r
- for(ret = 0; ret < Previous; ret++)\r
- {\r
- if(Disk->FATCache[ret] == 0)\r
- goto append;\r
- }\r
- \r
- RELEASE(Disk->lFAT);\r
- return 0;\r
- \r
- append:\r
- switch(Disk->type)\r
- {\r
- case FAT12: eoc = EOC_FAT12; break;\r
- case FAT16: eoc = EOC_FAT16; break;\r
- case FAT32: eoc = EOC_FAT32; break;\r
- default: return 0;\r
- }\r
- \r
- Disk->FATCache[ret] = eoc;\r
- Disk->FATCache[Previous] = ret;\r
- \r
- RELEASE(Disk->lFAT);\r
- return ret;\r
- }\r
- else\r
- {\r
- #endif\r
- Uint32 val;\r
- Uint32 ofs = Disk->bootsect.resvSectCount*512;\r
- Log_Warning("FAT", "TODO: Implement cluster allocation with non cached FAT");\r
- return 0;\r
- \r
- switch(Disk->type)\r
- {\r
- case FAT12:\r
- VFS_ReadAt(Disk->fileHandle, ofs+(Previous>>1)*3, 3, &val);\r
- if( Previous & 1 ) {\r
- val &= 0xFFF000;\r
- val |= ret;\r
- }\r
- else {\r
- val &= 0xFFF;\r
- val |= ret<<12;\r
- }\r
- VFS_WriteAt(Disk->fileHandle, ofs+(Previous>>1)*3, 3, &val);\r
- \r
- VFS_ReadAt(Disk->fileHandle, ofs+(ret>>1)*3, 3, &val);\r
- if( Cluster & 1 ) {\r
- val &= 0xFFF000;\r
- val |= eoc;\r
- }\r
- else {\r
- val &= 0x000FFF;\r
- val |= eoc<<12;\r
- }\r
- VFS_WriteAt(Disk->fileHandle, ofs+(ret>>1)*3, 3, &val);\r
- break;\r
- case FAT16:\r
- VFS_ReadAt(Disk->fileHandle, ofs+Previous*2, 2, &ret);\r
- VFS_WriteAt(Disk->fileHandle, ofs+ret*2, 2, &eoc);\r
- break;\r
- case FAT32:\r
- VFS_ReadAt(Disk->fileHandle, ofs+Previous*4, 4, &ret);\r
- VFS_WriteAt(Disk->fileHandle, ofs+ret*4, 4, &eoc);\r
- break;\r
- }\r
- return ret;\r
- #if CACHE_FAT\r
- }\r
- #endif\r
-}\r
-\r
-/**\r
- * \brief Free's a cluster\r
- * \return The original contents of the cluster\r
- */\r
-Uint32 FAT_int_FreeCluster(tFAT_VolInfo *Disk, Uint32 Cluster)\r
-{\r
- Uint32 ret;\r
- #if CACHE_FAT\r
- if( Disk->ClusterCount <= giFAT_MaxCachedClusters )\r
- {\r
- LOCK(Disk->lFAT);\r
- \r
- ret = Disk->FATCache[Cluster];\r
- Disk->FATCache[Cluster] = 0;\r
- \r
- RELEASE(Disk->lFAT);\r
- }\r
- else\r
- {\r
- #endif\r
- Uint32 val;\r
- Uint32 ofs = Disk->bootsect.resvSectCount*512;\r
- LOCK(Disk->lFAT);\r
- switch(Disk->type)\r
- {\r
- case FAT12:\r
- VFS_ReadAt(Disk->fileHandle, ofs+(Cluster>>1)*3, 3, &val);\r
- if( Cluster & 1 ) {\r
- ret = val & 0xFFF0000;\r
- val &= 0xFFF;\r
- }\r
- else {\r
- ret = val & 0xFFF;\r
- val &= 0xFFF000;\r
- }\r
- VFS_WriteAt(Disk->fileHandle, ofs+(Previous>>1)*3, 3, &val);\r
- break;\r
- case FAT16:\r
- VFS_ReadAt(Disk->fileHandle, ofs+Previous*2, 2, &ret);\r
- val = 0;\r
- VFS_WriteAt(Disk->fileHandle, ofs+Cluster*2, 2, &val);\r
- break;\r
- case FAT32:\r
- VFS_ReadAt(Disk->fileHandle, ofs+Previous*4, 4, &ret);\r
- val = 0;\r
- VFS_WriteAt(Disk->fileHandle, ofs+Cluster*2, 2, &val);\r
- break;\r
- }\r
- RELEASE(Disk->lFAT);\r
- #if CACHE_FAT\r
- }\r
- #endif\r
- if(Disk->type == FAT12 && ret == EOC_FAT12) ret = -1;\r
- if(Disk->type == FAT16 && ret == EOC_FAT16) ret = -1;\r
- if(Disk->type == FAT32 && ret == EOC_FAT32) ret = -1;\r
- return ret;\r
-}\r
-#endif\r
-\r
-/*\r
- * ====================\r
- * Cluster IO\r
- * ====================\r
- */\r
-/**\r
- * \brief Read a cluster\r
- * \param Disk Disk (Volume) to read from\r
- * \param Length Length to read\r
- * \param Buffer Destination for read data\r
- */\r
-void FAT_int_ReadCluster(tFAT_VolInfo *Disk, Uint32 Cluster, int Length, void *Buffer)\r
-{\r
- ENTER("pDisk xCluster iLength pBuffer", Disk, Cluster, Length, Buffer);\r
- VFS_ReadAt(\r
- Disk->fileHandle,\r
- (Disk->firstDataSect + (Cluster-2)*Disk->bootsect.spc )\r
- * Disk->bootsect.bps,\r
- Length,\r
- Buffer\r
- );\r
- LEAVE('-');\r
-}\r
-\r
/* ====================\r
* File IO\r
* ====================\r
}\r
\r
#if SUPPORT_WRITE\r
-/**\r
- * \brief Write a cluster to disk\r
- */\r
-void FAT_int_WriteCluster(tFAT_VolInfo *Disk, Uint32 Cluster, void *Buffer)\r
-{\r
- ENTER("pDisk xCluster pBuffer", Disk, Cluster, Buffer);\r
- VFS_ReadAt(\r
- Disk->fileHandle,\r
- (Disk->firstDataSect + (Cluster-2)*Disk->bootsect.spc )\r
- * Disk->bootsect.bps,\r
- Disk->BytesPerCluster,\r
- Buffer\r
- );\r
- LEAVE('-');\r
-}\r
-\r
/**\r
* \brief Write to a file\r
* \param Node File Node\r
* \param Length Size of data to write\r
* \param Buffer Data source\r
*/\r
-size_t FAT_Write(tVFS_Node *Node, off_t Offset, size_t Length, void *Buffer)\r
+size_t FAT_Write(tVFS_Node *Node, off_t Offset, size_t Length, const void *Buffer)\r
{\r
tFAT_VolInfo *disk = Node->ImplPtr;\r
char tmpBuf[disk->BytesPerCluster];\r
int remLength = Length;\r
Uint32 cluster, tmpCluster;\r
int bNewCluster = 0;\r
+ off_t original_offset = Offset;\r
\r
if(Offset > Node->Size) return 0;\r
\r
+ ENTER("pNode Xoffset xlength pbuffer", Node, Offset, Length, Buffer);\r
+ \r
// Seek Clusters\r
cluster = Node->Inode & 0xFFFFFFFF;\r
while( Offset > disk->BytesPerCluster )\r
cluster = FAT_int_GetFatValue( disk, cluster );\r
if(cluster == -1) {\r
Log_Warning("FAT", "EOC Unexpectedly Reached");\r
+ LEAVE('i', 0);\r
return 0;\r
}\r
Offset -= disk->BytesPerCluster;\r
if( Offset == disk->BytesPerCluster )\r
{\r
Uint32 tmp = FAT_int_AllocateCluster(disk, cluster);\r
- if(!tmp) return 0;\r
+ if(!tmp) {\r
+ LEAVE('i', 0);\r
+ return 0;\r
+ }\r
cluster = tmp;\r
Offset -= disk->BytesPerCluster;\r
}\r
{\r
char tmpBuf[disk->BytesPerCluster];\r
\r
+ LOG("Read-Modify-Write single");\r
+ \r
// Read-Modify-Write\r
FAT_int_ReadCluster( disk, cluster, disk->BytesPerCluster, tmpBuf );\r
memcpy( tmpBuf + Offset, Buffer, Length );\r
FAT_int_WriteCluster( disk, cluster, tmpBuf );\r
- \r
- return Length;\r
+ goto return_full;\r
}\r
\r
// Clean up changes within a cluster\r
if( Offset )\r
{ \r
+ LOG("Read-Modify-Write first");\r
+\r
// Read-Modify-Write\r
FAT_int_ReadCluster( disk, cluster, disk->BytesPerCluster, tmpBuf );\r
memcpy( tmpBuf + Offset, Buffer, disk->BytesPerCluster - Offset );\r
tmpCluster = FAT_int_GetFatValue(disk, cluster);\r
if(tmpCluster == -1) {\r
tmpCluster = FAT_int_AllocateCluster(disk, cluster);\r
- if( tmpCluster == 0 ) {\r
- return Length - remLength;\r
- }\r
+ if( tmpCluster == 0 )\r
+ goto ret_incomplete;\r
}\r
cluster = tmpCluster;\r
}\r
{\r
FAT_int_WriteCluster( disk, cluster, Buffer );\r
Buffer += disk->BytesPerCluster;\r
+ remLength -= disk->BytesPerCluster;\r
\r
// Get next cluster (allocating if needed)\r
tmpCluster = FAT_int_GetFatValue(disk, cluster);\r
if(tmpCluster == -1) {\r
bNewCluster = 1;\r
tmpCluster = FAT_int_AllocateCluster(disk, cluster);\r
- if( tmpCluster == 0 ) {\r
- return Length - remLength;\r
- }\r
+ if( tmpCluster == 0 )\r
+ goto ret_incomplete;\r
}\r
cluster = tmpCluster;\r
}\r
\r
// Finish off\r
- tmpBuf = malloc( disk->BytesPerCluster );\r
- if( bNewCluster )\r
- memset(tmpBuf, 0, disk->BytesPerCluster);\r
- else\r
- FAT_int_ReadCluster( disk, cluster, disk->BytesPerCluster, tmpBuf );\r
- memcpy( tmpBuf, Buffer, remLength );\r
- FAT_int_WriteCluster( disk, cluster, tmpBuf );\r
- free( tmpBuf );\r
- \r
- return Length;\r
-}\r
-#endif\r
-\r
-/* ====================\r
- * File Names & Nodes\r
- * ====================\r
- */\r
-/**\r
- * \brief Converts a FAT directory entry name into a proper filename\r
- * \param dest Destination array (must be at least 13 bytes in size)\r
- * \param src 8.3 filename (concatenated, e.g 'FILE1 TXT')\r
- */\r
-void FAT_int_ProperFilename(char *dest, const char *src)\r
-{\r
- int inpos, outpos;\r
- \r
- // Name\r
- outpos = 0;\r
- for( inpos = 0; inpos < 8; inpos++ ) {\r
- if(src[inpos] == ' ') break;\r
- dest[outpos++] = src[inpos];\r
- }\r
- inpos = 8;\r
- // Check for empty extensions\r
- if(src[8] != ' ')\r
- {\r
- dest[outpos++] = '.';\r
- for( ; inpos < 11; inpos++) {\r
- if(src[inpos] == ' ') break;\r
- dest[outpos++] = src[inpos];\r
- }\r
- }\r
- dest[outpos++] = '\0';\r
- \r
- //LOG("dest='%s'", dest);\r
-}\r
-\r
-/**\r
- * \fn char *FAT_int_CreateName(fat_filetable *ft, char *LongFileName)\r
- * \brief Converts either a LFN or a 8.3 Name into a proper name\r
- * \param ft Pointer to the file's entry in the parent directory\r
- * \param LongFileName Long file name pointer\r
- * \return Filename as a heap string\r
- */\r
-char *FAT_int_CreateName(fat_filetable *ft, char *LongFileName)\r
-{\r
- char *ret;\r
- ENTER("pft sLongFileName", ft, LongFileName);\r
- //Log_Debug("FAT", "FAT_int_CreateName(ft=%p, LongFileName=%p'%s')", ft, LongFileName);\r
- #if USE_LFN\r
- if(LongFileName && LongFileName[0] != '\0')\r
- { \r
- ret = strdup(LongFileName);\r
- }\r
- else\r
- {\r
- #endif\r
- ret = (char*) malloc(13);\r
- if( !ret ) {\r
- Log_Warning("FAT", "FAT_int_CreateName: malloc(13) failed");\r
- return NULL;\r
- }\r
- FAT_int_ProperFilename(ret, ft->name);\r
- #if USE_LFN\r
- }\r
- #endif\r
- LEAVE('s', ret);\r
- return ret;\r
-}\r
-\r
-/**\r
- * \brief Creates a tVFS_Node structure for a given file entry\r
- * \param Parent Parent directory VFS node\r
- * \param Entry File table entry for the new node\r
- * \param Pos Position in the parent of the new node\r
- */\r
-tVFS_Node *FAT_int_CreateNode(tVFS_Node *Parent, fat_filetable *Entry, int Pos)\r
-{\r
- tVFS_Node node;\r
- tVFS_Node *ret;\r
- tFAT_VolInfo *disk = Parent->ImplPtr;\r
- \r
- ENTER("pParent pFT", Parent, Entry);\r
- LOG("disk = %p", disk);\r
- \r
- memset(&node, 0, sizeof(tVFS_Node));\r
- \r
- // Set Other Data\r
- // 0-27: Cluster, 32-59: Parent Cluster\r
- node.Inode = Entry->cluster | (Entry->clusterHi<<16) | (Parent->Inode << 32);\r
- LOG("node.Inode = %llx", node.Inode);\r
- // Position in parent directory\r
- node.ImplInt = Pos & 0xFFFF;\r
- // Disk Pointer\r
- node.ImplPtr = disk;\r
- node.Size = Entry->size;\r
- LOG("Entry->size = %i", Entry->size);\r
- // root:root\r
- node.UID = 0; node.GID = 0;\r
- node.NumACLs = 1;\r
- \r
- node.Flags = 0;\r
- if(Entry->attrib & ATTR_DIRECTORY) node.Flags |= VFS_FFLAG_DIRECTORY;\r
- if(Entry->attrib & ATTR_READONLY) {\r
- node.Flags |= VFS_FFLAG_READONLY;\r
- node.ACLs = &gVFS_ACL_EveryoneRX; // R-XR-XR-X\r
- }\r
- else {\r
- node.ACLs = &gVFS_ACL_EveryoneRWX; // RWXRWXRWX\r
- }\r
- \r
- // Create timestamps\r
- node.ATime = timestamp(0,0,0,\r
- ((Entry->adate&0x1F) - 1), // Days\r
- ((Entry->adate&0x1E0) - 1), // Months\r
- 1980+((Entry->adate&0xFF00)>>8) // Years\r
- );\r
- \r
- node.CTime = Entry->ctimems * 10; // Miliseconds\r
- node.CTime += timestamp(\r
- ((Entry->ctime&0x1F)<<1), // Seconds\r
- ((Entry->ctime&0x3F0)>>5), // Minutes\r
- ((Entry->ctime&0xF800)>>11), // Hours\r
- ((Entry->cdate&0x1F)-1), // Days\r
- ((Entry->cdate&0x1E0)-1), // Months\r
- 1980+((Entry->cdate&0xFF00)>>8) // Years\r
- );\r
- \r
- node.MTime = timestamp(\r
- ((Entry->mtime&0x1F)<<1), // Seconds\r
- ((Entry->mtime&0x3F0)>>5), // Minutes\r
- ((Entry->mtime&0xF800)>>11), // Hours\r
- ((Entry->mdate&0x1F)-1), // Days\r
- ((Entry->mdate&0x1E0)-1), // Months\r
- 1980+((Entry->mdate&0xFF00)>>8) // Years\r
- );\r
- \r
- // Set pointers\r
- if(node.Flags & VFS_FFLAG_DIRECTORY) {\r
- //Log_Debug("FAT", "Directory %08x has size 0x%x", node.Inode, node.Size);\r
- node.Type = &gFAT_DirType; \r
- node.Size = -1;\r
- }\r
- else {\r
- node.Type = &gFAT_FileType;\r
- }\r
- \r
- ret = Inode_CacheNode(disk->inodeHandle, &node);\r
- LEAVE('p', ret);\r
- return ret;\r
-}\r
-\r
-/* \r
- * ====================\r
- * Directory IO\r
- * ====================\r
- */\r
-\r
-/**\r
- * \brief Reads a sector from the disk\r
- * \param Node Directory node to read\r
- * \param Sector Sector number in the directory to read\r
- * \param Buffer Destination buffer for the read data\r
- */\r
-int FAT_int_ReadDirSector(tVFS_Node *Node, int Sector, fat_filetable *Buffer)\r
-{\r
- Uint64 addr;\r
- tFAT_VolInfo *disk = Node->ImplPtr;\r
- \r
- ENTER("pNode iSector pEntry", Node, Sector, Buffer);\r
- \r
- // Parse address\r
- if(FAT_int_GetAddress(Node, Sector * 512, &addr, NULL))\r
- {\r
- LEAVE('i', 1);\r
- return 1;\r
- }\r
- \r
- LOG("addr = 0x%llx", addr);\r
- // Read Sector\r
- if(VFS_ReadAt(disk->fileHandle, addr, 512, Buffer) != 512)\r
- {\r
- LEAVE('i', 1);\r
- return 1;\r
- }\r
- \r
- LEAVE('i', 0);\r
- return 0;\r
-}\r
-\r
-#if SUPPORT_WRITE\r
-/**\r
- * \brief Writes an entry to the disk\r
- * \todo Support expanding a directory\r
- * \param Node Directory node\r
- * \param ID ID of entry to update\r
- * \param Entry Entry data\r
- * \return Zero on success, non-zero on error\r
- */\r
-int FAT_int_WriteDirEntry(tVFS_Node *Node, int ID, fat_filetable *Entry)\r
-{\r
- Uint64 addr = 0;\r
- int tmp;\r
- Uint32 cluster = 0;\r
- tFAT_VolInfo *disk = Node->ImplPtr;\r
- \r
- ENTER("pNode iID pEntry", Node, ID, Entry);\r
- \r
- tmp = FAT_int_GetAddress(Node, ID * sizeof(fat_filetable), &addr, &cluster);\r
- if( tmp )\r
- {\r
- //TODO: Allocate a cluster\r
- cluster = FAT_int_AllocateCluster(Node->ImplPtr, cluster);\r
- if(cluster == -1) {\r
- Log_Warning("FAT", "Unable to allocate an other cluster for %p", Node);\r
- LEAVE('i', 1);\r
- return 1;\r
- }\r
- FAT_int_GetAddress(Node, ID * sizeof(fat_filetable), &addr, &cluster);\r
- }\r
- \r
-\r
- LOG("addr = 0x%llx", addr);\r
- \r
- // Read Sector\r
- VFS_WriteAt(disk->fileHandle, addr, sizeof(fat_filetable), Entry); // Read Dir Data\r
- \r
- LEAVE('i', 0);\r
- return 0;\r
-}\r
-#endif\r
-\r
-#if USE_LFN \r
-/**\r
- * \fn char *FAT_int_GetLFN(tVFS_Node *node)\r
- * \brief Return pointer to LFN cache entry\r
- * \param Node Directory node\r
- * \param ID ID of the short name\r
- * \return Pointer to the LFN cache entry\r
- */\r
-char *FAT_int_GetLFN(tVFS_Node *Node, int ID)\r
-{\r
- tFAT_LFNCache *cache;\r
- int i, firstFree;\r
- \r
- Mutex_Acquire( &Node->Lock );\r
- \r
- // TODO: Thread Safety (Lock things)\r
- cache = Node->Data;\r
- \r
- // Create a cache if it isn't there\r
- if(!cache) {\r
- cache = Node->Data = malloc( sizeof(tFAT_LFNCache) + sizeof(tFAT_LFNCacheEnt) );\r
- cache->NumEntries = 1;\r
- cache->Entries[0].ID = ID;\r
- cache->Entries[0].Data[0] = '\0';\r
- Mutex_Release( &Node->Lock );\r
- //Log_Debug("FAT", "Return = %p (new)", cache->Entries[0].Data);\r
- return cache->Entries[0].Data;\r
- }\r
- \r
- // Scan for this entry\r
- firstFree = -1;\r
- for( i = 0; i < cache->NumEntries; i++ )\r
- {\r
- if( cache->Entries[i].ID == ID ) {\r
- Mutex_Release( &Node->Lock );\r
- //Log_Debug("FAT", "Return = %p (match)", cache->Entries[i].Data);\r
- return cache->Entries[i].Data;\r
- }\r
- if( cache->Entries[i].ID == -1 && firstFree == -1 )\r
- firstFree = i;\r
- }\r
- \r
- if(firstFree == -1) {\r
- // Use `i` for temp length\r
- i = sizeof(tFAT_LFNCache) + (cache->NumEntries+1)*sizeof(tFAT_LFNCacheEnt);\r
- Node->Data = realloc( Node->Data, i );\r
- if( !Node->Data ) {\r
- Log_Error("FAT", "realloc() fail, unable to allocate %i for LFN cache", i);\r
- Mutex_Release( &Node->Lock );\r
- return NULL;\r
- }\r
- //Log_Debug("FAT", "Realloc (%i)\n", i);\r
- cache = Node->Data;\r
- i = cache->NumEntries;\r
- cache->NumEntries ++;\r
- }\r
- else {\r
- i = firstFree;\r
- }\r
- \r
- // Create new entry\r
- cache->Entries[ i ].ID = ID;\r
- cache->Entries[ i ].Data[0] = '\0';\r
- \r
- Mutex_Release( &Node->Lock );\r
- //Log_Debug("FAT", "Return = %p (firstFree, i = %i)", cache->Entries[i].Data, i);\r
- return cache->Entries[ i ].Data;\r
-}\r
-\r
-/**\r
- * \fn void FAT_int_DelLFN(tVFS_Node *node)\r
- * \brief Delete a LFN cache entry\r
- * \param Node Directory node\r
- * \param ID File Entry ID\r
- */\r
-void FAT_int_DelLFN(tVFS_Node *Node, int ID)\r
-{\r
- tFAT_LFNCache *cache = Node->Data;\r
- int i;\r
- \r
- // Fast return\r
- if(!cache) return;\r
- \r
- // Scan for a current entry\r
- for( i = 0; i < cache->NumEntries; i++ )\r
- {\r
- if( cache->Entries[i].ID == ID )\r
- cache->Entries[i].ID = -1;\r
- }\r
- return ;\r
-}\r
-#endif\r
-\r
-/**\r
- * \fn char *FAT_ReadDir(tVFS_Node *Node, int ID)\r
- * \param Node Node structure of directory\r
- * \param ID Directory position\r
- * \return Filename as a heap string, NULL or VFS_SKIP\r
- */\r
-char *FAT_ReadDir(tVFS_Node *Node, int ID)\r
-{\r
- fat_filetable fileinfo[16]; // sizeof(fat_filetable)=32, so 16 per sector\r
- int a = 0;\r
- char *ret;\r
- #if USE_LFN\r
- char *lfn = NULL;\r
- #endif\r
- \r
- ENTER("pNode iID", Node, ID);\r
- \r
- if(FAT_int_ReadDirSector(Node, ID/16, fileinfo))\r
- {\r
- LOG("End of chain, end of dir");\r
- LEAVE('n');\r
- return NULL;\r
- }\r
- \r
- // Offset in sector\r
- a = ID % 16;\r
-\r
- LOG("fileinfo[%i].name[0] = 0x%x", a, (Uint8)fileinfo[a].name[0]);\r
- \r
- // Check if this is the last entry\r
- if( fileinfo[a].name[0] == '\0' ) {\r
- Node->Size = ID;\r
- LOG("End of list");\r
- LEAVE('n');\r
- return NULL; // break\r
- }\r
- \r
- // Check for empty entry\r
- if( (Uint8)fileinfo[a].name[0] == 0xE5 ) {\r
- LOG("Empty Entry");\r
- #if 0 // Stop on empty entry?\r
- LEAVE('n');\r
- return NULL; // Stop\r
- #else\r
- LEAVE('p', VFS_SKIP);\r
- return VFS_SKIP; // Skip\r
- #endif\r
- }\r
- \r
- #if USE_LFN\r
- // Get Long File Name Cache\r
- if(fileinfo[a].attrib == ATTR_LFN)\r
- {\r
- fat_longfilename *lfnInfo;\r
- \r
- lfnInfo = (fat_longfilename *) &fileinfo[a];\r
- \r
- // Get cache for corresponding file\r
- // > ID + Index gets the corresponding short node\r
- lfn = FAT_int_GetLFN( Node, ID + (lfnInfo->id & 0x3F) );\r
- \r
- // Bit 6 indicates the start of an entry\r
- if(lfnInfo->id & 0x40) memset(lfn, 0, 256);\r
- \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
- \r
- // Append new bytes\r
- lfn[a+ 0] = lfnInfo->name1[0]; lfn[a+ 1] = lfnInfo->name1[1];\r
- lfn[a+ 2] = lfnInfo->name1[2]; lfn[a+ 3] = lfnInfo->name1[3];\r
- lfn[a+ 4] = lfnInfo->name1[4]; \r
- lfn[a+ 5] = lfnInfo->name2[0]; lfn[a+ 6] = lfnInfo->name2[1];\r
- lfn[a+ 7] = lfnInfo->name2[2]; lfn[a+ 8] = lfnInfo->name2[3];\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
- #endif\r
- \r
- // Check if it is a volume entry\r
- if(fileinfo[a].attrib & 0x08) {\r
- LEAVE('p', VFS_SKIP);\r
- return VFS_SKIP;\r
- }\r
- // Ignore .\r
- if(fileinfo[a].name[0] == '.' && fileinfo[a].name[1] == ' ') {\r
- LEAVE('p', VFS_SKIP);\r
- return VFS_SKIP;\r
- }\r
- // and ..\r
- if(fileinfo[a].name[0] == '.' && fileinfo[a].name[1] == '.' && fileinfo[a].name[2] == ' ') {\r
- LEAVE('p', VFS_SKIP);\r
- return VFS_SKIP;\r
- }\r
- \r
- LOG("name='%c%c%c%c%c%c%c%c.%c%c%c'",\r
- fileinfo[a].name[0], fileinfo[a].name[1], fileinfo[a].name[2], fileinfo[a].name[3],\r
- fileinfo[a].name[4], fileinfo[a].name[5], fileinfo[a].name[6], fileinfo[a].name[7],\r
- fileinfo[a].name[8], fileinfo[a].name[9], fileinfo[a].name[10] );\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
- #endif\r
- \r
- LEAVE('s', ret);\r
- return ret;\r
-}\r
-\r
-/**\r
- * \fn tVFS_Node *FAT_FindDir(tVFS_Node *node, char *name)\r
- * \brief Finds an entry in the current directory\r
- */\r
-tVFS_Node *FAT_FindDir(tVFS_Node *Node, const char *Name)\r
-{\r
- fat_filetable fileinfo[16];\r
- char tmpName[13];\r
- #if USE_LFN\r
- fat_longfilename *lfnInfo;\r
- char lfn[256];\r
- int lfnPos=255, lfnId = -1;\r
- #endif\r
- int i;\r
- tVFS_Node *tmpNode;\r
- tFAT_VolInfo *disk = Node->ImplPtr;\r
- Uint32 cluster;\r
- \r
- ENTER("pNode sname", Node, Name); \r
-\r
- // Fast Returns\r
- if(!Name || Name[0] == '\0') {\r
- LEAVE('n');\r
- return NULL;\r
- }\r
- \r
- for( i = 0; ; i++ )\r
+ if( remLength )\r
{\r
- if((i & 0xF) == 0) {\r
- if(FAT_int_ReadDirSector(Node, i/16, fileinfo))\r
- {\r
- LEAVE('n');\r
- return NULL;\r
- }\r
- }\r
- \r
- //Check if the files are free\r
- if(fileinfo[i&0xF].name[0] == '\0') break; // End of List marker\r
- if(fileinfo[i&0xF].name[0] == '\xE5') continue; // Free entry\r
- \r
- \r
- #if USE_LFN\r
- // Long File Name Entry\r
- if(fileinfo[i & 0xF].attrib == ATTR_LFN)\r
- {\r
- lfnInfo = (fat_longfilename *) &fileinfo[i&0xF];\r
- if(lfnInfo->id & 0x40) {\r
- memset(lfn, 0, 256);\r
- lfnPos = (lfnInfo->id & 0x3F) * 13 - 1;\r
- }\r
- // Sanity check the position so we don't overflow\r
- if( lfnPos < 12 )\r
- continue ;\r
- lfn[lfnPos--] = lfnInfo->name3[1]; lfn[lfnPos--] = lfnInfo->name3[0];\r
- lfn[lfnPos--] = lfnInfo->name2[5]; lfn[lfnPos--] = lfnInfo->name2[4];\r
- lfn[lfnPos--] = lfnInfo->name2[3]; lfn[lfnPos--] = lfnInfo->name2[2];\r
- lfn[lfnPos--] = lfnInfo->name2[1]; lfn[lfnPos--] = lfnInfo->name2[0];\r
- lfn[lfnPos--] = lfnInfo->name1[4]; lfn[lfnPos--] = lfnInfo->name1[3];\r
- lfn[lfnPos--] = lfnInfo->name1[2]; lfn[lfnPos--] = lfnInfo->name1[1];\r
- lfn[lfnPos--] = lfnInfo->name1[0];\r
- if((lfnInfo->id&0x3F) == 1)\r
- {\r
- lfnId = i+1;\r
- }\r
- }\r
+ if( bNewCluster )\r
+ memset(tmpBuf, 0, disk->BytesPerCluster);\r
else\r
- {\r
- // Remove LFN if it does not apply\r
- if(lfnId != i) lfn[0] = '\0';\r
- #else\r
- if(fileinfo[i&0xF].attrib == ATTR_LFN) continue;\r
- #endif\r
- // Get Real Filename\r
- FAT_int_ProperFilename(tmpName, fileinfo[i&0xF].name);\r
- LOG("tmpName = '%s'", tmpName);\r
- \r
- // Only the long name is case sensitive, 8.3 is not\r
- #if USE_LFN\r
- if(strucmp(tmpName, Name) == 0 || strcmp(lfn, Name) == 0)\r
- #else\r
- if(strucmp(tmpName, Name) == 0)\r
- #endif\r
- {\r
- cluster = fileinfo[i&0xF].cluster | (fileinfo[i&0xF].clusterHi << 16);\r
- tmpNode = Inode_GetCache(disk->inodeHandle, cluster);\r
- if(tmpNode == NULL) // Node is not cached\r
- {\r
- tmpNode = FAT_int_CreateNode(Node, &fileinfo[i&0xF], i);\r
- }\r
- LEAVE('p', tmpNode);\r
- return tmpNode;\r
- }\r
- #if USE_LFN\r
- }\r
- #endif\r
+ FAT_int_ReadCluster( disk, cluster, disk->BytesPerCluster, tmpBuf );\r
+ memcpy( tmpBuf, Buffer, remLength );\r
+ FAT_int_WriteCluster( disk, cluster, tmpBuf );\r
}\r
- \r
- LEAVE('n');\r
- return NULL;\r
-}\r
-\r
-tVFS_Node *FAT_GetNodeFromINode(tVFS_Node *Root, Uint64 Inode)\r
-{\r
- tFAT_VolInfo *disk = Root->ImplPtr;\r
- int ents_per_sector = 512 / sizeof(fat_filetable); \r
- fat_filetable fileinfo[ents_per_sector];\r
- int sector = 0, i;\r
- tVFS_Node stub_node;\r
-\r
- ENTER("pRoot XInode", Root, Inode);\r
-\r
- stub_node.ImplPtr = disk;\r
- stub_node.Size = -1;\r
- stub_node.Inode = Inode >> 32;\r
-\r
- for( i = 0; ; i ++ )\r
- {\r
- if( i == 0 || i == ents_per_sector )\r
- {\r
- if(FAT_int_ReadDirSector(&stub_node, sector, fileinfo))\r
- {\r
- LOG("ReadDirSector failed");\r
- LEAVE('n');\r
- return NULL;\r
- }\r
- i = 0;\r
- sector ++;\r
- }\r
- \r
- // Check for free/end of list\r
- if(fileinfo[i].name[0] == '\0') break; // End of List marker\r
- if(fileinfo[i].name[0] == '\xE5') continue; // Free entry\r
- \r
- if(fileinfo[i].attrib == ATTR_LFN) continue;\r
-\r
- LOG("fileinfo[i].cluster = %x %04x", fileinfo[i].clusterHi, fileinfo[i].cluster);\r
- #if DEBUG\r
- {\r
- char tmpName[13];\r
- FAT_int_ProperFilename(tmpName, fileinfo[i].name);\r
- LOG("tmpName = '%s'", tmpName);\r
- }\r
- #endif\r
- \r
- \r
- if(fileinfo[i].cluster != (Inode & 0xFFFF)) continue;\r
- if(fileinfo[i].clusterHi != ((Inode >> 16) & 0xFFFF)) continue;\r
\r
- LEAVE_RET('p', FAT_int_CreateNode(&stub_node, &fileinfo[i], sector*ents_per_sector+i));\r
+return_full:\r
+ if( original_offset + Length > Node->Size ) {\r
+ Node->Size = original_offset + Length;\r
+ LOG("Updated size to %x", Node->Size);\r
+ Node->ImplInt |= FAT_FLAG_DIRTY;\r
}\r
- LOG("sector = %i, i = %i", sector, i);\r
- LEAVE('n');\r
- return NULL;\r
-}\r
\r
-#if SUPPORT_WRITE\r
-/**\r
- * \fn int FAT_Mknod(tVFS_Node *Node, char *Name, Uint Flags)\r
- * \brief Create a new node\r
- */\r
-int FAT_Mknod(tVFS_Node *Node, char *Name, Uint Flags)\r
-{\r
- return 0;\r
-}\r
-\r
-/**\r
- * \fn int FAT_Relink(tVFS_Node *Node, char *OldName, char *NewName)\r
- * \brief Rename / Delete a file\r
- */\r
-int FAT_Relink(tVFS_Node *Node, char *OldName, char *NewName)\r
-{\r
- tVFS_Node *child;\r
- fat_filetable ft = {0};\r
- int ret;\r
- \r
- child = FAT_FindDir(Node, OldName);\r
- if(!child) return ENOTFOUND;\r
- \r
- // Delete?\r
- if( NewName == NULL )\r
- {\r
- child->ImplInt |= FAT_FLAG_DELETE; // Mark for deletion on close\r
- \r
- // Delete from the directory\r
- ft.name[0] = '\xE9';\r
- FAT_int_WriteDirEntry(Node, child->ImplInt & 0xFFFF, &ft);\r
- \r
- // Return success\r
- ret = EOK;\r
- }\r
- // Rename\r
- else\r
- {\r
- Log_Warning("FAT", "Renaming no yet supported %p ('%s' => '%s')",\r
- Node, OldName, NewName);\r
- ret = ENOTIMPL;\r
- }\r
- \r
- // Close child\r
- child->Close( child );\r
- return ret;\r
+ LEAVE('i', Length);\r
+ return Length;\r
+ret_incomplete:\r
+ LOG("Write incomplete");\r
+ Length -= remLength;\r
+ if( original_offset + Length > Node->Size ) {\r
+ Node->Size = original_offset + Length; \r
+ Node->ImplInt |= FAT_FLAG_DIRTY;\r
+ }\r
+ LEAVE('i', Length);\r
+ return Length;\r
}\r
#endif\r
\r
{\r
tFAT_VolInfo *disk = Node->ImplPtr;\r
if(Node == NULL) return ;\r
- \r
+\r
+ ENTER("pNode", Node); \r
+\r
#if SUPPORT_WRITE\r
// Update the node if it's dirty (don't bother if it's marked for\r
// deletion)\r
if( (Node->ImplInt & FAT_FLAG_DIRTY) && !(Node->ImplInt & FAT_FLAG_DELETE) )\r
{\r
- tFAT_VolInfo buf[16];\r
- tFAT_VolInfo *ft = &buf[ (Node->ImplInt & 0xFFFF) % 16 ];\r
- \r
- FAT_int_ReadDirSector(Node, (Node->ImplInt & 0xFFFF)/16, buf);\r
- ft->size = Node->Size;\r
+ fat_filetable ft;\r
+ tVFS_Node *dirnode;\r
+\r
+ dirnode = FAT_int_CreateIncompleteDirNode(disk, Node->Inode >> 32);\r
+ if( !dirnode ) {\r
+ Log_Error("FAT", "Can't get node for directory cluster #0x%x", Node->Inode>>32);\r
+ LEAVE('-');\r
+ return ;\r
+ }\r
+\r
+ int id = FAT_int_GetEntryByCluster(dirnode, Node->Inode & 0xFFFFFFFF, &ft);\r
+ ft.size = Node->Size;\r
// TODO: update adate, mtime, mdate\r
- FAT_int_WriteDirEntry(Node, Node->ImplInt & 0xFFFF, ft);\r
+ FAT_int_WriteDirEntry(dirnode, id, &ft);\r
+ \r
+ dirnode->Type->Close(dirnode);\r
\r
Node->ImplInt &= ~FAT_FLAG_DIRTY;\r
}\r
#endif\r
+\r
+ Uint32 cluster = Node->Inode;\r
+ Uint32 implint = Node->ImplInt;\r
\r
- // TODO: Make this more thread safe somehow, probably by moving the\r
- // Inode_UncacheNode higher up and saving the cluster value somewhere\r
- if( Node->ReferenceCount == 1 )\r
- { \r
- #if SUPPORT_WRITE\r
+ #if SUPPORT_WRITE\r
+ if( FAT_int_DerefNode(Node) == 1 )\r
+ {\r
+ LOG("implint = %x", implint);\r
// Delete File\r
- if( Node->ImplInt & FAT_FLAG_DELETE ) {\r
+ if( implint & FAT_FLAG_DELETE ) {\r
+ Log_Debug("FAT", "Deallocating chain stating at 0x%07x", cluster);\r
// Since the node is marked, we only need to remove it's data\r
- Uint32 cluster = Node->Inode & 0xFFFFFFFF;\r
while( cluster != -1 )\r
- cluster = FAT_int_FreeCluster(Node->ImplPtr, cluster);\r
+ cluster = FAT_int_FreeCluster(disk, cluster);\r
}\r
- #endif\r
}\r
- \r
- Inode_UncacheNode(disk->inodeHandle, Node->Inode);\r
- return ;\r
+ #endif\r
+ LEAVE('-');\r
}\r