/* File: fatp.c Copyright (C) 2006-2007 Christophe GRENIER This software is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifdef HAVE_CONFIG_H #include #endif #include #ifdef HAVE_STDLIB_H #include #endif #include "types.h" #include "common.h" #include "list.h" #include "filegen.h" #include "fatp.h" #include "fat.h" #include "log.h" static void fat16_remove_used_space(disk_t *disk_car,const partition_t *partition, alloc_data_t *list_search_space, const unsigned int fat_offset, const unsigned int no_of_cluster, const unsigned int start_data, const unsigned int cluster_size, const unsigned int sector_size); static void fat32_remove_used_space(disk_t *disk_car,const partition_t *partition, alloc_data_t *list_search_space, const unsigned int fat_offset, const unsigned int no_of_cluster, const unsigned int start_data, const unsigned int cluster_size, const unsigned int sector_size); static void fat16_remove_used_space(disk_t *disk_car,const partition_t *partition, alloc_data_t *list_search_space, const unsigned int fat_offset, const unsigned int no_of_cluster, const unsigned int start_data, const unsigned int cluster_size, const unsigned int sector_size) { unsigned char *buffer; const uint16_t *p16; unsigned int prev_cluster; uint64_t hd_offset=partition->part_offset+(uint64_t)fat_offset*sector_size; uint64_t start_free=0; uint64_t end_free=0; log_trace("fat16_remove_used_space\n"); buffer=(unsigned char *)MALLOC(sector_size); p16=(const uint16_t*)buffer; del_search_space(list_search_space, partition->part_offset, partition->part_offset+(uint64_t)(start_data*sector_size)); for(prev_cluster=2;prev_cluster<=no_of_cluster+1;prev_cluster++) { unsigned int offset_o; offset_o=prev_cluster%(sector_size/2); if((offset_o==0)||(prev_cluster==2)) { if(disk_car->pread(disk_car, buffer, sector_size, hd_offset) != sector_size) { /* Consider these FAT sectors points to free clusters */ } hd_offset+=sector_size; } if(le16(p16[offset_o])!=0) { /* Not free */ if(end_free+1==partition->part_offset+(start_data+(uint64_t)(prev_cluster-2)*cluster_size)*sector_size) end_free+=cluster_size*sector_size; else { if(start_free != end_free) del_search_space(list_search_space, start_free, end_free); start_free=partition->part_offset+(start_data+(uint64_t)(prev_cluster-2)*cluster_size)*sector_size; end_free=start_free+(uint64_t)cluster_size*sector_size-1; } } } free(buffer); if(start_free != end_free) del_search_space(list_search_space, start_free, end_free); } static void fat32_remove_used_space(disk_t *disk_car,const partition_t *partition, alloc_data_t *list_search_space, const unsigned int fat_offset, const unsigned int no_of_cluster, const unsigned int start_data, const unsigned int cluster_size, const unsigned int sector_size) { unsigned char *buffer; uint32_t *p32; unsigned int prev_cluster; uint64_t hd_offset=partition->part_offset+(uint64_t)fat_offset*sector_size; uint64_t start_free=0; uint64_t end_free=0; log_trace("fat32_remove_used_space\n"); buffer=(unsigned char *)MALLOC(sector_size); p32=(uint32_t*)buffer; for(prev_cluster=2;prev_cluster<=no_of_cluster+1;prev_cluster++) { unsigned long int cluster; unsigned int offset_o; offset_o=prev_cluster%(sector_size/4); if((offset_o==0)||(prev_cluster==2)) { if(disk_car->pread(disk_car, buffer, sector_size, hd_offset) != sector_size) { /* Consider these FAT sectors points to free clusters */ } hd_offset+=sector_size; } cluster=le32(p32[offset_o]) & 0xFFFFFFF; if(cluster!=0) { /* Not free */ if(end_free+1==partition->part_offset+(uint64_t)(start_data+(prev_cluster-2)*cluster_size)*sector_size) end_free+=cluster_size*sector_size; else { if(start_free != end_free) del_search_space(list_search_space, start_free, end_free); start_free=partition->part_offset+(start_data+(uint64_t)(prev_cluster-2)*cluster_size)*sector_size; end_free=start_free+(uint64_t)cluster_size*sector_size-1; } } } free(buffer); if(start_free != end_free) del_search_space(list_search_space, start_free, end_free); } unsigned int fat_remove_used_space(disk_t *disk_car, const partition_t *partition, alloc_data_t *list_search_space) { unsigned long int fat_length; unsigned long int start_fat1; unsigned long int part_size; unsigned int no_of_cluster; unsigned int start_data; unsigned char *buffer; unsigned int res; unsigned int sector_size; const struct fat_boot_sector *fat_header; buffer=(unsigned char *)MALLOC(3*disk_car->sector_size); fat_header=(const struct fat_boot_sector *)buffer; if(disk_car->pread(disk_car, buffer, 3 * disk_car->sector_size, partition->part_offset) != 3 * disk_car->sector_size) { free(buffer); return 0; } sector_size=fat_sector_size(fat_header); fat_length=le16(fat_header->fat_length)>0?le16(fat_header->fat_length):le32(fat_header->fat32_length); part_size=(sectors(fat_header)>0?sectors(fat_header):le32(fat_header->total_sect)); start_fat1=le16(fat_header->reserved); start_data=start_fat1+fat_header->fats*fat_length+(get_dir_entries(fat_header)*32+sector_size-1)/sector_size; no_of_cluster=(part_size-start_data)/fat_header->sectors_per_cluster; if(partition->upart_type==UP_FAT16) fat16_remove_used_space(disk_car,partition, list_search_space, start_fat1, no_of_cluster, start_data, fat_header->sectors_per_cluster,sector_size); else if(partition->upart_type==UP_FAT32) fat32_remove_used_space(disk_car,partition, list_search_space, start_fat1, no_of_cluster, start_data, fat_header->sectors_per_cluster,sector_size); res=fat_header->sectors_per_cluster * sector_size; free(buffer); return res; }