static dir_partition_t dir_partition_init(disk_t *disk, const partition_t *partition, const int verbose, dir_data_t *dir_data)
{
dir_partition_t res=DIR_PART_ENOSYS;
if(is_part_fat(partition))
res=dir_partition_fat_init(disk, partition, dir_data, verbose);
else if(is_part_ntfs(partition))
{
res=dir_partition_ntfs_init(disk, partition, dir_data, verbose);
if(res!=DIR_PART_OK)
res=dir_partition_exfat_init(disk, partition, dir_data, verbose);
}
else if(is_part_linux(partition))
{
res=dir_partition_ext2_init(disk, partition, dir_data, verbose);
if(res!=DIR_PART_OK)
res=dir_partition_reiser_init(disk, partition, dir_data, verbose);
}
if(res==DIR_PART_OK)
return DIR_PART_OK;
switch(partition->upart_type)
{
case UP_FAT12:
case UP_FAT16:
case UP_FAT32:
return dir_partition_fat_init(disk, partition, dir_data, verbose);
case UP_EXT4:
case UP_EXT3:
case UP_EXT2:
return dir_partition_ext2_init(disk, partition, dir_data, verbose);
case UP_RFS:
case UP_RFS2:
case UP_RFS3:
return dir_partition_reiser_init(disk, partition, dir_data, verbose);
case UP_NTFS:
return dir_partition_ntfs_init(disk, partition, dir_data, verbose);
case UP_EXFAT:
return dir_partition_exfat_init(disk, partition, dir_data, verbose);
default:
return res;
}
}
int repair_MFT(disk_t *disk_car, partition_t *partition, const int verbose, const unsigned int expert, char **current_cmd)
{
struct ntfs_boot_sector *ntfs_header;
unsigned char *buffer_mft;
unsigned char *buffer_mftmirr;
unsigned int cluster_size;
unsigned int mft_record_size;
unsigned int mftmirr_size_bytes;
unsigned int use_MFT=0;
/* 0: do nothing
* 1: fix MFT mirror using MFT
* 2: fix MFT using MFT mirror */
uint64_t mft_pos;
uint64_t mftmirr_pos;
log_trace("repair_MFT\n");
if(check_NTFS(disk_car, partition, verbose, 0)!=0)
{
display_message("Boot sector not valid, can't repair MFT.\n");
return -1;
}
ntfs_header=(struct ntfs_boot_sector *)MALLOC(DEFAULT_SECTOR_SIZE);
if(disk_car->pread(disk_car, ntfs_header, DEFAULT_SECTOR_SIZE, partition->part_offset) != DEFAULT_SECTOR_SIZE)
{
free(ntfs_header);
display_message("Can't read NTFS boot sector.\n");
return -1;
}
mft_pos=partition->part_offset+(uint64_t)(le16(ntfs_header->reserved)+le64(ntfs_header->mft_lcn)*ntfs_header->sectors_per_cluster)*ntfs_sector_size(ntfs_header);
mftmirr_pos=partition->part_offset+(uint64_t)(le16(ntfs_header->reserved)+le64(ntfs_header->mftmirr_lcn)*ntfs_header->sectors_per_cluster)*ntfs_sector_size(ntfs_header);
if(ntfs_header->clusters_per_mft_record>0)
mft_record_size=ntfs_header->sectors_per_cluster*ntfs_header->clusters_per_mft_record;
else
mft_record_size=1<<(-ntfs_header->clusters_per_mft_record);
cluster_size=ntfs_header->sectors_per_cluster;
mftmirr_size_bytes = (cluster_size <= 4 * mft_record_size ? 4 * mft_record_size : cluster_size) * ntfs_sector_size(ntfs_header);
#ifdef DEBUG_REPAIR_MFT
log_debug("mft_pos %lu\n",(unsigned long)(mft_pos/disk_car->sector_size));
log_debug("mftmirr_pos %lu\n",(unsigned long)(mftmirr_pos/disk_car->sector_size));
log_debug("cluster_size %u\n", cluster_size);
log_debug("mft_record_size %u\n", mft_record_size);
log_debug("ntfs_sector_size %u\n", ntfs_sector_size(ntfs_header));
log_debug("mftmirr_size_bytes %u\n", mftmirr_size_bytes);
#endif
if(mftmirr_size_bytes==0)
{
display_message("Invalid NTFS MFT size.\n");
log_error("Invalid NTFS MFT size.\n");
free(ntfs_header);
return -1;
}
/* Check if MFT mirror is identical to the beginning of MFT */
buffer_mft=(unsigned char *)MALLOC(mftmirr_size_bytes);
if((unsigned)disk_car->pread(disk_car, buffer_mft, mftmirr_size_bytes, mft_pos) != mftmirr_size_bytes)
{
display_message("Can't read NTFS MFT.\n");
log_error("Can't read NTFS MFT.\n");
free(buffer_mft);
free(ntfs_header);
return -1;
}
buffer_mftmirr=(unsigned char *)MALLOC(mftmirr_size_bytes);
if((unsigned)disk_car->pread(disk_car, buffer_mftmirr, mftmirr_size_bytes, mftmirr_pos) != mftmirr_size_bytes)
{
display_message("Can't read NTFS MFT mirror.\n");
log_error("Can't read NTFS MFT mirror.\n");
free(buffer_mftmirr);
free(buffer_mft);
free(ntfs_header);
return -1;
}
if(memcmp(buffer_mft, buffer_mftmirr, mftmirr_size_bytes)==0)
{
log_info("MFT and MFT mirror match perfectly.\n");
if(*current_cmd==NULL)
display_message("MFT and MFT mirror match perfectly.\n");
free(buffer_mftmirr);
free(buffer_mft);
free(ntfs_header);
return 0;
}
if(partition->sb_offset!=0)
{
log_info("Please quit TestDisk and reboot your computer before trying to fix the MFT.\n");
display_message("Please quit TestDisk and reboot your computer before trying to fix the MFT.\n");
free(buffer_mftmirr);
free(buffer_mft);
free(ntfs_header);
return -1;
}
/*
log_debug("MFT\n");
dump_log(buffer_mft, mftmirr_size_bytes);
log_debug("MFT mirror\n");
dump_log(buffer_mftmirr, mftmirr_size_bytes);
*/
/*
The idea is to use the internal IO redirector built-in TestDisk
to redirect read access to the MFT to the MFT backup instead (or
vice-versa) when listing the NTFS files. If TestDisk can get
a file listing, it also knows which MFT to use.
*/
{
int res1,res2;
dir_data_t dir_data;
/* Use MFT */
io_redir_add_redir(disk_car, mftmirr_pos, mftmirr_size_bytes, 0, buffer_mft);
res1=dir_partition_ntfs_init(disk_car,partition,&dir_data,verbose);
if(res1==DIR_PART_ENOSYS)
{
display_message("Can't determine which MFT is correct, ntfslib is missing.\n");
log_error("Can't determine which MFT is correct, ntfslib is missing.\n");
free(buffer_mftmirr);
free(buffer_mft);
free(ntfs_header);
io_redir_del_redir(disk_car,mftmirr_pos);
return 0;
}
if(res1==DIR_PART_OK)
{
file_info_t dir_list;
TD_INIT_LIST_HEAD(&dir_list.list);
dir_data.get_dir(disk_car,partition,&dir_data,dir_data.current_inode, &dir_list);
if(!td_list_empty(&dir_list.list))
{
log_info("NTFS listing using MFT:\n");
dir_aff_log(&dir_data, &dir_list);
if(delete_list_file(&dir_list)>2)
res1++;
}
dir_data.close(&dir_data);
}
io_redir_del_redir(disk_car,mftmirr_pos);
/* Use MFT mirror */
io_redir_add_redir(disk_car, mft_pos, mftmirr_size_bytes, 0, buffer_mftmirr);
res2=dir_partition_ntfs_init(disk_car,partition,&dir_data,verbose);
if(res2==DIR_PART_OK)
{
file_info_t dir_list;
TD_INIT_LIST_HEAD(&dir_list.list);
dir_data.get_dir(disk_car,partition,&dir_data,dir_data.current_inode, &dir_list);
if(!td_list_empty(&dir_list.list))
{
log_info("NTFS listing using MFT mirror:\n");
dir_aff_log(&dir_data, &dir_list);
if(delete_list_file(&dir_list)>2)
res2++;
}
dir_data.close(&dir_data);
}
io_redir_del_redir(disk_car,mft_pos);
/* */
if(res1>res2 && res1>DIR_PART_OK)
{
/* Use MFT */
#ifdef HAVE_NCURSES
if(ask_confirmation("Fix MFT mirror using MFT ? (Y/N)")!=0)
use_MFT=1;
else
#endif
log_info("Don't fix MFT mirror.\n");
}
else if(res1<res2 && res2>DIR_PART_OK)
{
/* Use MFT mirror */
#ifdef HAVE_NCURSES
if(ask_confirmation("Fix MFT using its mirror ? (Y/N) - DANGEROUS NON REVERSIBLE OPERATION\nUse it ONLY IF Windows failed to access this filesystem.")!=0)
use_MFT=2;
else
#endif
log_info("Don't fix MFT.\n");
}
else
{ /* res1==res2 */
if(res1>DIR_PART_OK && res2>DIR_PART_OK)
log_error("Both MFT seems ok but they don't match, use chkdsk.\n");
else
log_error("MFT and MFT mirror are bad. Failed to repair them.\n");
if(expert==0)
{
if(res1>DIR_PART_OK && res2>DIR_PART_OK)
display_message("Both MFT seems ok but they don't match, use chkdsk.\n");
else
display_message("MFT and MFT mirror are bad. Failed to repair them.\n");
}
else
{
#ifdef HAVE_NCURSES
unsigned int menu=2;
int real_key;
int command;
static const struct MenuItem menuMFT[]=
{
{'B',"MFT", "Fix MFT using MFT mirror"},
{'M',"MFT Mirror", "Fix MFT mirror using MFT"},
{'Q',"Quit","Return to NTFS functions"},
{0,NULL,NULL}
};
aff_copy(stdscr);
wmove(stdscr,4,0);
wprintw(stdscr,"%s",disk_car->description(disk_car));
mvwaddstr(stdscr,5,0,msg_PART_HEADER_LONG);
wmove(stdscr,6,0);
aff_part(stdscr,AFF_PART_ORDER|AFF_PART_STATUS,disk_car,partition);
wmove(stdscr,8,0);
if(res1>0 && res2>0)
wprintw(stdscr, "Both MFT seem ok but they don't match.\n");
else
wprintw(stdscr, "MFT and MFT mirror are bad.\n");
command=wmenuSelect_ext(stdscr, 23, INTER_MFT_Y, INTER_MFT_X, menuMFT, 10, "MBQ",
MENU_VERT | MENU_VERT_WARN | MENU_BUTTON, &menu, &real_key);
switch(command)
{
case 'b':
case 'B':
use_MFT=2;
break;
case 'm':
case 'M':
use_MFT=1;
break;
default:
use_MFT=0;
break;
}
#endif
}
}
}
if(use_MFT==2)
{
if((unsigned)disk_car->pwrite(disk_car, buffer_mftmirr, mftmirr_size_bytes, mft_pos) != mftmirr_size_bytes)
{
display_message("Failed to fix MFT: write error.\n");
}
else
{
disk_car->sync(disk_car);
display_message("MFT fixed.\n");
}
}
else if(use_MFT==1)
{
if((unsigned)disk_car->pwrite(disk_car, buffer_mft, mftmirr_size_bytes, mftmirr_pos) != mftmirr_size_bytes)
{
display_message("Failed to fix MFT mirror: write error.\n");
}
else
{
disk_car->sync(disk_car);
display_message("MFT mirror fixed.\n");
}
}
free(buffer_mftmirr);
free(buffer_mft);
free(ntfs_header);
return 0;
}
int dir_partition(disk_t *disk_car, const partition_t *partition, const int verbose, char **current_cmd)
{
dir_data_t dir_data;
#ifdef HAVE_NCURSES
WINDOW *window;
#endif
int res=-3;
fflush(stderr);
dir_data.local_dir=NULL;
if(is_part_fat(partition))
res=dir_partition_fat_init(disk_car,partition,&dir_data,verbose);
else if(is_part_ntfs(partition))
{
res=dir_partition_ntfs_init(disk_car,partition,&dir_data,verbose);
if(res!=0)
res=dir_partition_exfat_init(disk_car, partition, &dir_data, verbose);
}
else if(is_part_linux(partition))
{
res=dir_partition_ext2_init(disk_car,partition,&dir_data,verbose);
if(res!=0)
res=dir_partition_reiser_init(disk_car,partition,&dir_data,verbose);
}
if(res!=0)
{
switch(partition->upart_type)
{
case UP_FAT12:
case UP_FAT16:
case UP_FAT32:
res=dir_partition_fat_init(disk_car,partition,&dir_data,verbose);
break;
case UP_EXT4:
case UP_EXT3:
case UP_EXT2:
res=dir_partition_ext2_init(disk_car,partition,&dir_data,verbose);
break;
case UP_RFS:
case UP_RFS2:
case UP_RFS3:
res=dir_partition_reiser_init(disk_car,partition,&dir_data,verbose);
break;
case UP_NTFS:
res=dir_partition_ntfs_init(disk_car,partition,&dir_data,verbose);
break;
case UP_EXFAT:
res=dir_partition_exfat_init(disk_car, partition, &dir_data, verbose);
break;
default:
return res;
}
}
#ifdef HAVE_NCURSES
window=newwin(LINES, COLS, 0, 0); /* full screen */
dir_data.display=window;
aff_copy(window);
#else
dir_data.display=NULL;
#endif
log_info("\n");
switch(res)
{
case -2:
screen_buffer_reset();
#ifdef HAVE_NCURSES
aff_copy(window);
wmove(window,4,0);
aff_part(window,AFF_PART_ORDER|AFF_PART_STATUS,disk_car,partition);
#endif
log_partition(disk_car,partition);
screen_buffer_add("Support for this filesystem hasn't been enable during compilation.\n");
screen_buffer_to_log();
if(*current_cmd==NULL)
{
#ifdef HAVE_NCURSES
screen_buffer_display(window,"",NULL);
#endif
}
break;
case -1:
screen_buffer_reset();
#ifdef HAVE_NCURSES
aff_copy(window);
wmove(window,4,0);
aff_part(window,AFF_PART_ORDER|AFF_PART_STATUS,disk_car,partition);
#endif
log_partition(disk_car,partition);
screen_buffer_add("Can't open filesystem. Filesystem seems damaged.\n");
screen_buffer_to_log();
if(*current_cmd==NULL)
{
#ifdef HAVE_NCURSES
screen_buffer_display(window,"",NULL);
#endif
}
break;
default:
{
int recursive=0;
if(*current_cmd!=NULL)
{
int do_continue;
do
{
do_continue=0;
while(*current_cmd[0]==',')
(*current_cmd)++;
if(strncmp(*current_cmd,"recursive",9)==0)
{
(*current_cmd)+=9;
recursive=1;
do_continue=1;
}
else if(strncmp(*current_cmd,"fullpathname",12)==0)
{
(*current_cmd)+=12;
dir_data.param|=FLAG_LIST_PATHNAME;
do_continue=1;
}
} while(do_continue==1);
}
if(recursive>0)
dir_whole_partition_log(disk_car,partition,&dir_data,dir_data.current_inode);
else
{
#ifdef HAVE_NCURSES
dir_partition_aff(disk_car, partition, &dir_data, dir_data.current_inode, current_cmd);
#else
{
file_data_t *dir_list;
dir_list=dir_data.get_dir(disk_car, partition, &dir_data, dir_data.current_inode);
dir_aff_log(&dir_data, dir_list);
delete_list_file(dir_list);
}
#endif
}
dir_data.close(&dir_data);
}
break;
}
#ifdef HAVE_NCURSES
delwin(window);
(void) clearok(stdscr, TRUE);
#ifdef HAVE_TOUCHWIN
touchwin(stdscr);
#endif
wrefresh(stdscr);
#endif
fflush(stderr);
free(dir_data.local_dir);
return res;
}