static void FillNewEntry(struct DirectoryEntry* entry, CLUSTER firstcluster,
unsigned long filesize, unsigned short index)
{
struct tm* tmp;
time_t now;
char filename[8], extension[3];
/* file name and extension */
MakeUpFileName(index, filename, extension);
memcpy(entry->filename, filename, 8);
memcpy(entry->extension, extension, 3);
/* attribute */
entry->attribute = 0;
/* first cluster */
SetFirstCluster(firstcluster, entry);
/* file size */
entry->filesize = filesize;
/* NT reserved field */
entry->NTReserved = 0;
/* Mili second stamp */
entry->MilisecondStamp = 0;
/* Last access date */
memset(&entry->LastAccessDate, 0, sizeof(struct PackedDate));
/* Time last modified */
memset(&entry->timestamp, 0, sizeof(struct PackedTime));
/* Date last modified */
memset(&entry->datestamp, 0, sizeof(struct PackedDate));
/* Get the current date and time and store it in the last write
time and date. */
time(&now);
tmp = localtime(&now);
entry->LastWriteTime.second = tmp->tm_sec / 2;
if (entry->LastWriteTime.second == 30) /* DJGPP help says range is [0..60] */
entry->LastWriteTime.second--;
entry->LastWriteTime.minute = tmp->tm_min;
entry->LastWriteTime.hours = tmp->tm_hour;
entry->LastWriteDate.day = tmp->tm_mday;
entry->LastWriteDate.month = tmp->tm_mon + 1;
if (tmp->tm_year < 80)
entry->LastWriteDate.year = 0;
else
entry->LastWriteDate.year = (tmp->tm_year+1900)-1980;
}
static BOOL RelocateFirstCluster(RDWRHandle handle,
struct DirectoryPosition* pos,
struct DirectoryEntry* entry,
CLUSTER destination)
{
int labelsize;
CLUSTER fatpos=0, freecluster, label;
BOOL IsInFAT = FALSE;
SECTOR srcsector, destsector;
unsigned long sectorspercluster;
CLUSTER clustervalue;
BOOL DOTSprocessed=FALSE;
struct FSInfoStruct FSInfo;
CLUSTER source;
/* Do some preliminary calculations. */
source = GetFirstCluster(entry);
srcsector = ConvertToDataSector(handle, source);
if (!srcsector)
RETURN_FTEERROR(FALSE);
destsector = ConvertToDataSector(handle, destination);
if (!destsector)
RETURN_FTEERROR(FALSE);
sectorspercluster = GetSectorsPerCluster(handle);
if (!sectorspercluster)
RETURN_FTEERROR(FALSE);
/* Get the value that is stored at the source position in the FAT */
if (!ReadFatLabel(handle, source, &clustervalue))
RETURN_FTEERROR(FALSE);
/* We know the first cluster is refered to in the directory entry given */
/*
This is the first cluster of some file. See if it is a directory
and if it is, adjust the '.' entry of this directory and all
of the '..' entries of all the (direct) subdirectories to point
to the new cluster.
*/
if (entry->attribute & FA_DIREC)
{
if (!AdaptCurrentAndPreviousDirs(handle, source, destination))
{
RETURN_FTEERROR(FALSE);
}
DOTSprocessed = TRUE;
}
/* Copy all sectors in this cluster to the new position */
if (!CopySectors(handle, srcsector, destsector, sectorspercluster))
{
RETURN_FTEERROR(FALSE);
}
/* Write the entry in the FAT */
if (!WriteFatLabel(handle, destination, clustervalue))
{
RETURN_FTEERROR(FALSE);
}
SetFirstCluster(destination, entry);
if (!WriteDirectory(handle, pos, entry))
{
RETURN_FTEERROR(FALSE);
}
// if (!GetNthCluster(handle, source, &label))
// return FALSE;
if (!WriteFatLabel(handle, source, FAT_FREE_LABEL))
{
RETURN_FTEERROR(FALSE);
}
/* Adjust FSInfo on FAT32 */
labelsize = GetFatLabelSize(handle);
if (labelsize == FAT32)
{
if (!GetFreeClusterSearchStart(handle, &freecluster))
RETURN_FTEERROR(FALSE);
if (source < freecluster) /* source cluster became available */
{
if (!ReadFSInfo(handle, &FSInfo))
RETURN_FTEERROR(FALSE);
WriteFreeClusterStart(&FSInfo, source);
if (!WriteFSInfo(handle, &FSInfo))
RETURN_FTEERROR(FALSE);
}
if ((freecluster == destination) && /* We are relocating to the first */
(destination < source)) /* free cluster */
{
CLUSTER dummy;
if (!FindFirstFreeSpace(handle, &dummy, &dummy))
RETURN_FTEERROR(FALSE);
}
}
return TRUE;
}
static BOOL LFNRemover(RDWRHandle handle, struct DirectoryPosition* pos,
void** structure)
{
struct RemovePipe* pipe = *((struct RemovePipe**) structure);
struct DirectoryEntry entry;
if (!GetDirectory(handle, pos, &entry))
return FAIL;
/* Check the range in which we have to delete the long file name entries */
if (!pipe->hasstarted) /* Outside the interval */
{ /* Check wether the starting position was found. */
if (memcmp(pos, pipe->begin, sizeof(struct DirectoryPosition)) == 0)
pipe->hasstarted = TRUE;
}
if (!IsLFNEntry(&entry))
return TRUE;
if (pipe->hasstarted) /* Inside the interval, first create a dummy
file name entry. */
{
struct tm* tmp;
time_t now;
/* file name and extension, 0xe5 indicates file removed. */
memcpy(entry.filename, "å" "LFNRMVD", 8);
memset(entry.extension, ' ', 3);
/* attribute */
entry.attribute = 0;
/* first cluster */
SetFirstCluster(2, &entry);
/* file size */
entry.filesize = 0;
/* NT reserved field */
entry.NTReserved = 0;
/* Mili second stamp */
entry.MilisecondStamp = 0;
/* Last access date */
memset(&entry.LastAccessDate, 0, sizeof(struct PackedDate));
/* Time last modified */
memset(&entry.timestamp, 0, sizeof(struct PackedTime));
/* Date last modified */
memset(&entry.datestamp, 0, sizeof(struct PackedDate));
/* Get the current date and time and store it in the last write
time and date. */
time(&now);
tmp = localtime(&now);
entry.LastWriteTime.second = tmp->tm_sec / 2;
if (entry.LastWriteTime.second == 30) /* DJGPP help says range is [0..60] */
entry.LastWriteTime.second--;
entry.LastWriteTime.minute = tmp->tm_min;
entry.LastWriteTime.hours = tmp->tm_hour;
entry.LastWriteDate.day = tmp->tm_mday;
entry.LastWriteDate.month = tmp->tm_mon + 1;
if (tmp->tm_year < 80)
entry.LastWriteDate.year = 0;
else
entry.LastWriteDate.year = (tmp->tm_year+1900)-1980;
if (!WriteDirectory(handle, pos, &entry))
return FAIL;
/* Check wether the ending position was found. */
if ((pipe->end != NULL) &&
(memcmp(pos, pipe->end, sizeof(struct DirectoryPosition)) == 0))
{
return FALSE;
}
}
return TRUE;
}
/* This function returns FALSE if the destination is not free. */
BOOL RelocateCluster(RDWRHandle handle, CLUSTER source, CLUSTER destination)
{
int labelsize, value;
CLUSTER fatpos=0, freecluster, dircluster, label;
struct DirectoryPosition dirpos;
struct DirectoryEntry entry;
BOOL IsInFAT = FALSE;
SECTOR srcsector, destsector;
unsigned long sectorspercluster;
CLUSTER clustervalue;
BOOL found, DOTSprocessed=FALSE;
struct FSInfoStruct FSInfo;
if (!FatReferedMap)
{
if (!CreateFatReferedMap(handle))
return FALSE;
}
/* See wether the destination is actually free. */
if (!GetNthCluster(handle, destination, &label))
RETURN_FTEERROR(FALSE);
if (!FAT_FREE(label))
RETURN_FTEERROR(FALSE);
/* Do some preliminary calculations. */
srcsector = ConvertToDataSector(handle, source);
if (!srcsector)
RETURN_FTEERROR(FALSE);
destsector = ConvertToDataSector(handle, destination);
if (!destsector)
RETURN_FTEERROR(FALSE);
sectorspercluster = GetSectorsPerCluster(handle);
if (!sectorspercluster)
RETURN_FTEERROR(FALSE);
/* Get the value that is stored at the source position in the FAT */
if (!ReadFatLabel(handle, source, &clustervalue))
RETURN_FTEERROR(FALSE);
/* See where the cluster is refered */
if (!GetVFSBitfieldBit(FatReferedMap, source, &value))
return FALSE;
if (value)
{//CLUSTER fatpos1;
if (!FindClusterInFAT(handle, source, &fatpos))
RETURN_FTEERROR(FALSE);
/*
if (!FindClusterInFAT1(handle, source, &fatpos1))
RETURN_FTEERROR(FALSE);
if (fatpos != fatpos1)
printf("hola");
*/
}
if (!fatpos)
{
if (!FindClusterInDirectories(handle, source, &dirpos, &found))
RETURN_FTEERROR(FALSE);
if (!found)
{
/* Note: on FAT32 this cluster may be pointing to the root directory.
We do not support relocating the root cluster at this time.
*/
RETURN_FTEERROR(FALSE); /* Non valid cluster! */
}
else
{
/*
This is the first cluster of some file. See if it is a directory
and if it is, adjust the '.' entry of this directory and all
of the '..' entries of all the (direct) subdirectories to point
to the new cluster.
*/
if (!GetDirectory(handle, &dirpos, &entry))
RETURN_FTEERROR(FALSE);
if (entry.attribute & FA_DIREC)
{
dircluster = GetFirstCluster(&entry);
if (!AdaptCurrentAndPreviousDirs(handle, dircluster, destination))
{
RETURN_FTEERROR(FALSE);
}
DOTSprocessed = TRUE;
}
}
}
else
{
IsInFAT = TRUE;
}
/* Copy all sectors in this cluster to the new position */
if (!CopySectors(handle, srcsector, destsector, sectorspercluster))
{
if (DOTSprocessed)
AdaptCurrentAndPreviousDirs(handle, dircluster, source);
RETURN_FTEERROR(FALSE);
}
/* Write the entry in the FAT */
if (!WriteFatReference(handle, destination, clustervalue))
{
if (DOTSprocessed)
AdaptCurrentAndPreviousDirs(handle, dircluster, source);
RETURN_FTEERROR(FALSE);
}
if (!WriteFatLabel(handle, destination, clustervalue))
{
if (DOTSprocessed)
AdaptCurrentAndPreviousDirs(handle, dircluster, source);
RETURN_FTEERROR(FALSE);
}
/* Adjust the pointer to the relocated cluster */
if (IsInFAT)
{
if (!WriteFatReference(handle, fatpos, destination))
{
RETURN_FTEERROR(FALSE);
}
if (!WriteFatLabel(handle, fatpos, destination))
{
RETURN_FTEERROR(FALSE);
}
if (!ClearVFSBitfieldBit(FatReferedMap, source))
return FALSE;
if (!SetVFSBitfieldBit(FatReferedMap, destination))
return FALSE;
//if (!IndicateFatClusterMoved(fatpos, source, destination))
// return FALSE;
}
else
{
CLUSTER label;
if (!GetDirectory(handle, &dirpos, &entry))
{
if (DOTSprocessed)
AdaptCurrentAndPreviousDirs(handle, dircluster, source);
RETURN_FTEERROR(FALSE);
}
SetFirstCluster(destination, &entry);
if (!WriteDirectory(handle, &dirpos, &entry))
{
if (DOTSprocessed)
AdaptCurrentAndPreviousDirs(handle, dircluster, source);
RETURN_FTEERROR(FALSE);
}
if (!IndicateDirEntryMoved(source, destination))
return FALSE;
if (!GetNthCluster(handle, source, &label))
return FALSE;
//if (!IndicateFatClusterMoved(label, source, destination))
// return FALSE;
}
if (!WriteFatReference(handle, source, FAT_FREE_LABEL))
{
if (DOTSprocessed)
AdaptCurrentAndPreviousDirs(handle, dircluster, source);
RETURN_FTEERROR(FALSE);
}
if (!WriteFatLabel(handle, source, FAT_FREE_LABEL))
{
if (DOTSprocessed)
AdaptCurrentAndPreviousDirs(handle, dircluster, source);
RETURN_FTEERROR(FALSE);
}
if (!IndicateDirClusterMoved(handle, source, destination))
RETURN_FTEERROR(FALSE);
/* Adjust FSInfo on FAT32 */
labelsize = GetFatLabelSize(handle);
if (labelsize == FAT32)
{
if (!GetFreeClusterSearchStart(handle, &freecluster))
RETURN_FTEERROR(FALSE);
if (source < freecluster) /* source cluster became available */
{
if (!ReadFSInfo(handle, &FSInfo))
RETURN_FTEERROR(FALSE);
WriteFreeClusterStart(&FSInfo, source);
if (!WriteFSInfo(handle, &FSInfo))
RETURN_FTEERROR(FALSE);
}
if ((freecluster == destination) && /* We are relocating to the first */
(destination < source)) /* free cluster */
{
CLUSTER dummy;
if (!FindFirstFreeSpace(handle, &dummy, &dummy))
RETURN_FTEERROR(FALSE);
}
}
return TRUE;
}
/*
Beware of circular references:
fatpos1 = cluster2
cluster1 = clustervalue2
A -> B -> C
D -> A -> B
D -> A -> B -> C => D -> B -> A -> C
A: C
A: A /
B: B A
D: B
cluster1 = fatpos2
clustervalue1 = cluster2
A -> B -> C
B -> C -> D
A -> B -> C -> D => A -> C -> B -> D
C: C B
A: C
B: D
B: B /
*/
BOOL SwapClusters (RDWRHandle handle, CLUSTER clust1, CLUSTER clust2)
{
BOOL found, IsInFAT1 = FALSE, IsInFAT2 = FALSE, error = FALSE;
CLUSTER freeclust, clustervalue1, fatpos1, fatpos2;
CLUSTER clustervalue2, dircluster1, dircluster2;
unsigned char sectorspercluster;
SECTOR startsector;
struct DirectoryPosition dirpos1, dirpos2;
struct DirectoryEntry entry;
unsigned long neededmem;
void *MemCluster;
BOOL DOTSProcessed1, DOTSProcessed2;
SECTOR srcsector, destsector;
/* First check wether we shouldn't be using RelocateCluster instead. */
if (!ReadFatLabel (handle, clust1, &clustervalue1))
return FALSE;
if (!ReadFatLabel (handle, clust2, &clustervalue2))
return FALSE;
if (FAT_FREE (clustervalue1) && (FAT_FREE (clustervalue2)))
{
return TRUE;
}
if (FAT_FREE (clustervalue1))
{
return RelocateCluster (handle, clust2, clust1);
}
if (FAT_FREE (clustervalue2))
{
return RelocateCluster (handle, clust1, clust2);
}
/* See if we have enough memory to load the data for one cluster
into memory. */
sectorspercluster = GetSectorsPerCluster (handle);
if (!sectorspercluster)
return FALSE;
neededmem = sectorspercluster * BYTESPERSECTOR;
MemCluster = malloc (neededmem);
if (MemCluster)
{
/* First prepare the first cluster. */
/* See where the cluster is refered */
/* In FAT? */
if (!FindClusterInFAT (handle, clust1, &fatpos1))
{
free (MemCluster);
return FALSE;
}
/* No, then look if this is the first cluster of a file. */
if (!fatpos1)
{
if (!FindClusterInDirectories (handle, clust1, &dirpos1, &found))
{
free (MemCluster);
return FALSE;
}
if (!found)
{
free (MemCluster);
return FALSE; /* Non valid cluster! */
}
else
{
/*
Special case: if this is the first cluster of a directory
then adjust all the . and .. pointers to
reflect the new position on the volume.
*/
if (!GetDirectory (handle, &dirpos1, &entry))
{
free (MemCluster);
return FALSE;
}
if (entry.attribute & FA_DIREC)
{
dircluster1 = GetFirstCluster (&entry);
if (!AdaptCurrentAndPreviousDirs(handle, dircluster1, clust2))
{
AdaptCurrentAndPreviousDirs (handle, dircluster1,
clust1);
free (MemCluster);
return FALSE;
}
DOTSProcessed1 = TRUE;
}
}
}
else
{
IsInFAT1 = TRUE;
}
/* Then prepare the second cluster. */
/* See where the cluster is refered */
/* In FAT? */
if (!FindClusterInFAT (handle, clust2, &fatpos2))
{
if (DOTSProcessed1)
AdaptCurrentAndPreviousDirs (handle, dircluster1, clust1);
free (MemCluster);
return FALSE;
}
/* No, then look if this is the first cluster of a file. */
if (!fatpos2)
{
if (!FindClusterInDirectories (handle, clust2, &dirpos2, &found))
{
if (DOTSProcessed1)
AdaptCurrentAndPreviousDirs (handle, dircluster1, clust1);
free (MemCluster);
return FALSE;
}
if (!found)
{
if (DOTSProcessed1)
AdaptCurrentAndPreviousDirs (handle, dircluster1, clust1);
free (MemCluster);
return FALSE; /* Non valid cluster! */
}
else
{
/*
Special case: if this is the first cluster of a directory
then adjust all the . and .. pointers to
reflect the new position on the volume.
*/
if (!GetDirectory (handle, &dirpos2, &entry))
{
if (DOTSProcessed1)
AdaptCurrentAndPreviousDirs (handle, dircluster1,
clust1);
free (MemCluster);
return FALSE;
}
if (entry.attribute & FA_DIREC)
{
dircluster2 = GetFirstCluster (&entry);
if (!AdaptCurrentAndPreviousDirs(handle, dircluster2, clust1))
{
AdaptCurrentAndPreviousDirs (handle, dircluster2, clust2);
AdaptCurrentAndPreviousDirs (handle, dircluster1, clust1);
free (MemCluster);
return FALSE;
}
DOTSProcessed2 = TRUE;
}
}
}
else
{
IsInFAT2 = TRUE;
}
startsector = ConvertToDataSector (handle, clust1);
if (!startsector)
{
if (DOTSProcessed1)
AdaptCurrentAndPreviousDirs (handle, dircluster1, clust1);
if (DOTSProcessed2)
AdaptCurrentAndPreviousDirs (handle, dircluster2, clust2);
free (MemCluster);
return FALSE;
}
/* Then copy the data of the second cluster to the new position */
/* Copy all sectors in this cluster to the new position */
srcsector = ConvertToDataSector (handle, clust2);
if (!srcsector)
{
if (DOTSProcessed1)
AdaptCurrentAndPreviousDirs (handle, dircluster1, clust1);
if (DOTSProcessed2)
AdaptCurrentAndPreviousDirs (handle, dircluster2, clust2);
free (MemCluster);
return FALSE;
}
destsector = ConvertToDataSector (handle, clust1);
if (!startsector)
{
if (DOTSProcessed1)
AdaptCurrentAndPreviousDirs (handle, dircluster1, clust1);
if (DOTSProcessed2)
AdaptCurrentAndPreviousDirs (handle, dircluster2, clust2);
free (MemCluster);
return FALSE;
}
/* AS OF THIS POINT WE WILL NOT BE ABLE TO BACKTRACK,
THEREFORE WE KEEP ON GOING EVEN IF THERE WERE ERRORS. */
/* Change the pointers of the first cluster that has to be moved
to the second cluster. */
/* Write the entry in the FAT */
if (clust2 == clustervalue1) /* Beware of circular references */
{
if (!WriteFatLabel (handle, clust2, clust1))
error = TRUE;
}
else
{
if (!WriteFatLabel (handle, clust2, clustervalue1))
error = TRUE;
}
/* Adjust the pointer to the relocated cluster */
if (IsInFAT1) /* the previous one in the file */
{
if (fatpos1 != clust2) /* Beware of circular references */
{
if (!WriteFatLabel (handle, fatpos1, clust2))
error = TRUE;
}
}
else /* or the directory entry to the file */
{
if (!GetDirectory (handle, &dirpos1, &entry))
error = TRUE;
if (GetFirstCluster (&entry) != clust2)
{
SetFirstCluster (clust2, &entry);
if (!WriteDirectory (handle, &dirpos1, &entry))
error = TRUE;
}
}
/* Change the pointers of the second cluster that has to be moved
to the first cluster. */
/* Write the entry in the FAT */
if (clust1 == clustervalue2) /* Beware of circular references */
{
if (!WriteFatLabel (handle, clust1, clustervalue1))
error = TRUE;
}
else
{
if (!WriteFatLabel (handle, clust1, clustervalue2))
error = TRUE;
}
/* Adjust the pointer to the relocated cluster */
if (IsInFAT2) /* the previous one in the file */
{
if (fatpos2 != clust1) /* Beware of circular references */
{
if (!WriteFatLabel (handle, fatpos2, clust1))
error = TRUE;
}
}
else /* or the directory entry to the file */
{
if (!GetDirectory (handle, &dirpos2, &entry))
error = TRUE;
if (GetFirstCluster (&entry) != clust1) /* Beware of circular references */
{
SetFirstCluster (clust1, &entry);
if (!WriteDirectory (handle, &dirpos2, &entry))
error = TRUE;
}
