void print_cluster(FILE *f, struct BPB_t *bpb, struct dir_t *dir)
{
const uint32_t cluster_size = bpb->BytsPerSec * bpb->SecPerClus;
for(uint16_t c = dir->FstClusLO; c < 0xFFF8; c = get_next_cluster(f, bpb, c)) {
char buf[cluster_size];
//FAT16 spec says that you have to subtract 2 from the cluster number to get the actual data
//so weird. but whatevs....
read_bytes(f, BPB_Data_addr(bpb) + (c - 2) * cluster_size, buf, sizeof(buf));
printf("%.*s", (int)(sizeof(buf)), buf);
}
}
shared_ptr<FileBuffer> Fat::get_file_buff(string filename)
{
if (m_filemap.find(filename) == m_filemap.end())
{
string err;
err = "Can't find file ";
err += filename;
set_last_err_string(err);
return NULL;
}
shared_ptr<FileBuffer> pbuff = get_file_buffer(m_filename);
shared_ptr<FileBuffer> p(new FileBuffer);
size_t filesize = m_filemap[filename].file_size;
p->resize(filesize);
int cur = m_filemap[filename].start_cluster;
size_t off;
for (off = 0; off < filesize; off += m_cluster)
{
size_t sz;
sz = filesize - off;
if (sz > m_cluster)
sz = m_cluster;
if (cur == 0xFFFF)
{
set_last_err_string("Early finished at fat");
return NULL;
}
void *pcluster = get_data_buff(pbuff, cur);
memcpy(p->data() + off, pcluster, sz);
cur = get_next_cluster(pbuff, cur);
}
return p;
}
unsigned int exfat_remove_used_space(disk_t *disk, const partition_t *partition, alloc_data_t *list_search_space)
{
struct exfat_super_block *exfat_header;
unsigned int cluster_shift;
/* Load boot sector */
exfat_header=(struct exfat_super_block *)MALLOC(0x200);
if(disk->pread(disk, exfat_header, 0x200, partition->part_offset) != 0x200)
{
log_error("Can't read exFAT boot sector.\n");
free(exfat_header);
return 0;
}
cluster_shift=exfat_header->block_per_clus_bits + exfat_header->blocksize_bits;
/* Load bitmap information */
{
const struct exfat_alloc_bitmap_entry *bitmap;
const uint64_t start=partition->part_offset +
exfat_cluster_to_offset(exfat_header, le32(exfat_header->rootdir_clusnr));
unsigned char *buffer_rootdir=(unsigned char *)MALLOC(1<<cluster_shift);
unsigned char *buffer;
unsigned int i;
unsigned int cluster_bitmap;
const uint64_t start_exfat1=(uint64_t)le32(exfat_header->fat_blocknr) << exfat_header->blocksize_bits;
uint64_t start_free=0;
uint64_t end_free=0;
if(disk->pread(disk, buffer_rootdir, 1 << cluster_shift, start) != (1<<cluster_shift))
{
log_error("exFAT: Can't root directory cluster.\n");
free(buffer_rootdir);
free(exfat_header);
return 0;
}
bitmap=exfat_get_bitmap(buffer_rootdir, 1<<cluster_shift);
if(bitmap==NULL)
{
log_error("exFAT: Can't find bitmap.\n");
free(buffer_rootdir);
free(exfat_header);
return 0;
}
cluster_bitmap=le32(bitmap->first_cluster);
log_trace("exfat_remove_used_space\n");
buffer=(unsigned char *)MALLOC(1<<cluster_shift);
for(i=2; i<le32(exfat_header->total_clusters)+2; i++)
{
const unsigned int offset_o=(i-2)%(8<<cluster_shift);
if(offset_o==0)
{
exfat_read_cluster(disk, partition, exfat_header, buffer, cluster_bitmap);
cluster_bitmap=get_next_cluster(disk, partition, UP_FAT32, start_exfat1, cluster_bitmap);
}
if(((buffer[offset_o/8]>>(offset_o%8))&1) != 0)
{
/* Not free */
if(end_free+1==partition->part_offset + exfat_cluster_to_offset(exfat_header, i))
end_free+=(1<<cluster_shift);
else
{
if(start_free != end_free)
del_search_space(list_search_space, start_free, end_free);
start_free=partition->part_offset + exfat_cluster_to_offset(exfat_header, i);
end_free=start_free + (1<<cluster_shift) - 1;
}
}
}
free(buffer);
if(start_free != end_free)
del_search_space(list_search_space, start_free, end_free);
free(buffer_rootdir);
free(exfat_header);
}
return (1<<cluster_shift);
}
int fat_readdir(struct dirent *d)
{
int retVal=0;
do {
// Advance to next entry
dir_sector_offset+=32;
if (dir_sector_offset==512) {
dir_sector_offset=0;
dir_sector++;
dir_sector_in_cluster++;
if (dir_sector_in_cluster==sectors_per_cluster) {
// Follow to next cluster
int next_cluster=get_next_cluster(dir_cluster);
if (next_cluster<0xFFFFFF0) {
dir_cluster=next_cluster;
dir_sector_in_cluster=0;
dir_sector=first_cluster_sector+(next_cluster-first_cluster)*sectors_per_cluster;
} else {
// End of directory reached
dir_sector=-1;
retVal=-1;
break;
}
}
if (dir_sector!=-1) retVal=read_sector(partition_start+dir_sector,dir_sector_buffer,0);
if (retVal) dir_sector=-1;
}
if (dir_sector==-1) { retVal=-1; break; }
if (!d) { retVal=-1; break; }
// printf("Found dirent %d %d %d\n",dir_sector,dir_sector_offset,dir_sector_in_cluster);
// XXX - Support FAT32 long names!
// Put cluster number in d_ino
d->d_ino=
(dir_sector_buffer[dir_sector_offset+0x1A]<<0)|
(dir_sector_buffer[dir_sector_offset+0x1B]<<8)|
(dir_sector_buffer[dir_sector_offset+0x14]<<16)|
(dir_sector_buffer[dir_sector_offset+0x15]<<24);
int namelen=0;
if (dir_sector_buffer[dir_sector_offset]) {
for(int i=0;i<8;i++)
if (dir_sector_buffer[dir_sector_offset+i])
d->d_name[namelen++]=dir_sector_buffer[dir_sector_offset+i];
while(namelen&&d->d_name[namelen-1]==' ') namelen--;
}
if (dir_sector_buffer[dir_sector_offset+8]&&dir_sector_buffer[dir_sector_offset+8]!=' ') {
d->d_name[namelen++]='.';
for(int i=0;i<3;i++)
if (dir_sector_buffer[dir_sector_offset+8+i])
d->d_name[namelen++]=dir_sector_buffer[dir_sector_offset+8+i];
while(namelen&&d->d_name[namelen-1]==' ') namelen--;
}
d->d_name[namelen]=0;
// if (d->d_name[0]) dump_bytes(0,"dirent raw",&dir_sector_buffer[dir_sector_offset],32);
d->d_off= // XXX As a hack we put the size here
(dir_sector_buffer[dir_sector_offset+0x1C]<<0)|
(dir_sector_buffer[dir_sector_offset+0x1D]<<8)|
(dir_sector_buffer[dir_sector_offset+0x1E]<<16)|
(dir_sector_buffer[dir_sector_offset+0x1F]<<24);
d->d_reclen=dir_sector_buffer[dir_sector_offset+0xb]; // XXX as a hack, we put DOS file attributes here
if (d->d_off&0xC8) d->d_type=DT_UNKNOWN;
else if (d->d_off&0x10) d->d_type=DT_DIR;
else d->d_type=DT_REG;
} while(0);
return retVal;
}
