/* File: partsun.c Copyright (C) 1998-2007 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 #ifdef HAVE_STDLIB_H #include #endif #ifdef HAVE_STRING_H #include #endif #include /* tolower */ #include "types.h" #include "common.h" #include "testdisk.h" #include "fnctdsk.h" //#include "analyse.h" #include "lang.h" #include "intrf.h" #include "intrfn.h" #include "chgtype.h" #include "sun.h" #include "swap.h" #include "bsd.h" #include "fat.h" #include "ntfs.h" #include "ext2.h" #include "rfs.h" #include "lvm.h" #include "md.h" #include "jfs_superblock.h" #include "jfs.h" #include "savehdr.h" #include "cramfs.h" #include "xfs.h" #include "ufs.h" #include "log.h" static int check_part_sun(disk_t *disk_car, const int debug,partition_t *partition,const int saveheader); static int get_geometry_from_sunmbr(const unsigned char *buffer, const int debug, CHS_t *geometry); static list_part_t *read_part_sun(disk_t *disk_car, const int debug, const int saveheader); static int write_part_sun(disk_t *disk_car, const list_part_t *list_part, const int ro , const int debug, const int align); static list_part_t *init_part_order_sun(const disk_t *disk_car, list_part_t *list_part); static list_part_t *add_partition_sun(disk_t *disk_car,list_part_t *list_part, const int debug, char **current_cmd); static void set_next_status_sun(const disk_t *disk_car, partition_t *partition); static int test_structure_sun(list_part_t *list_part); static int set_part_type_sun(partition_t *partition, unsigned int part_type_sun); static int is_part_known_sun(const partition_t *partition); static void init_structure_sun(const disk_t *disk_car,list_part_t *list_part, const int debug); static const char *get_partition_name_sun(const partition_t *partition); static const char *get_partition_name_sun_aux(const unsigned int part_type_sun); static unsigned int get_part_type_sun(const partition_t *partition); static const struct systypes sun_sys_types[] = { {0x00, "Empty" }, {PSUN_BOOT, "Boot" }, {PSUN_ROOT, "SunOS root" }, {PSUN_SWAP, "SunOS swap" }, {PSUN_USR, "SunOS usr" }, {PSUN_WHOLE_DISK, "Whole disk" }, {PSUN_STAND, "SunOS stand" }, {PSUN_VAR, "SunOS var" }, {PSUN_HOME, "SunOS home" }, {PSUN_ALT, "SunOS alt." }, {PSUN_CACHEFS, "SunOS cachefs"}, {PSUN_LINSWAP, "Linux swap" }, {PSUN_LINUX, "Linux native" }, {PSUN_LVM, "Linux LVM" }, {PSUN_RAID, "Linux raid autodetect" }, {0, NULL } }; arch_fnct_t arch_sun= { .part_name="Sun", .part_name_option="partition_sun", .msg_part_type=" P=Primary D=Deleted", .read_part=read_part_sun, .write_part=write_part_sun, .init_part_order=init_part_order_sun, .get_geometry_from_mbr=get_geometry_from_sunmbr, .check_part=check_part_sun, .write_MBR_code=NULL, .add_partition=add_partition_sun, .set_prev_status=set_next_status_sun, .set_next_status=set_next_status_sun, .test_structure=test_structure_sun, .set_part_type=set_part_type_sun, .is_part_known=is_part_known_sun, .init_structure=init_structure_sun, .erase_list_part=NULL, .get_partition_name=get_partition_name_sun, .get_part_type=get_part_type_sun }; static unsigned int get_part_type_sun(const partition_t *partition) { return partition->part_type_sun; } int get_geometry_from_sunmbr(const unsigned char *buffer, const int debug, CHS_t *geometry) { const sun_partition *sunlabel=(const sun_partition*)buffer; if(debug>1) { log_trace("get_geometry_from_sunmbr\n"); } geometry->cylinder=0; geometry->head=be16(sunlabel->ntrks)-1; geometry->sector=be16(sunlabel->nsect); if(geometry->sector>0) { log_info("Geometry from SUN MBR: head=%u sector=%u\n",geometry->head+1,geometry->sector); } return 0; } list_part_t *read_part_sun(disk_t *disk_car, const int debug, const int saveheader) { unsigned char buffer[DEFAULT_SECTOR_SIZE]; sun_partition *sunlabel=(sun_partition*)&buffer; list_part_t *new_list_part=NULL; unsigned int i; aff_buffer(BUFFER_RESET,"Q"); if(disk_car->read(disk_car,DEFAULT_SECTOR_SIZE, buffer, (uint64_t)0)) { wdoprintf(stdscr,msg_PART_RD_ERR); return NULL; } if (be16(sunlabel->magic) != SUN_LABEL_MAGIC) { aff_buffer(BUFFER_ADD,"Bad SUN partition\n"); return NULL; } for(i=0;i<8;i++) { if (sunlabel->partitions[i].num_sectors > 0 && sunlabel->infos[i].id > 0 && sunlabel->infos[i].id != PSUN_WHOLE_DISK) { partition_t *new_partition=partition_new(); partition_reset(new_partition); new_partition->order=i; new_partition->part_type_sun=sunlabel->infos[i].id; new_partition->part_offset=be32(sunlabel->partitions[i].start_cylinder)*be16(sunlabel->ntrks)*be16(sunlabel->nsect)*disk_car->sector_size; new_partition->part_size=(uint64_t)be32(sunlabel->partitions[i].num_sectors)*disk_car->sector_size; new_partition->status=STATUS_PRIM; disk_car->arch->check_part(disk_car,debug,new_partition,saveheader); new_list_part=insert_new_partition(new_list_part,new_partition); aff_part_buffer(AFF_PART_ORDER,disk_car,new_partition); } } return new_list_part; } static int write_part_sun(disk_t *disk_car, const list_part_t *list_part, const int ro, const int debug, const int align) { /* TODO: Implement it */ if(ro==0) { not_implemented("write_part_sun"); } return 0; } static list_part_t *init_part_order_sun(const disk_t *disk_car, list_part_t *list_part) { int nbr_prim=0; partition_t *new_partition; list_part_t *element; for(element=list_part;element!=NULL;element=element->next) { switch(element->part->status) { case STATUS_PRIM: case STATUS_PRIM_BOOT: if(nbr_prim==2) nbr_prim++; element->part->order=nbr_prim++; break; default: log_critical("init_part_order_sun: severe error\n"); break; } } new_partition=partition_new(); new_partition->part_offset=0; new_partition->part_size=disk_car->disk_size; new_partition->status=STATUS_PRIM; new_partition->part_type_sun=PSUN_WHOLE_DISK; new_partition->order=2; return insert_new_partition(list_part, new_partition); } static list_part_t *add_partition_sun(disk_t *disk_car,list_part_t *list_part, const int debug, char **current_cmd) { CHS_t start,end; partition_t *new_partition=partition_new(); int position=0; start.cylinder=0; start.head=0; start.sector=1; end.cylinder=disk_car->CHS.cylinder; end.head=disk_car->CHS.head; end.sector=disk_car->CHS.sector; { int done = FALSE; while (done==FALSE) { int command; static struct MenuItem menuGeometry[]= { { 'c', "Cylinders", "Change starting cylinder" }, { 'C', "Cylinders", "Change ending cylinder" }, { 'T' ,"Type", "Change partition type"}, { 'd', "Done", "" }, { 0, NULL, NULL } }; aff_copy(stdscr); wmove(stdscr,4,0); wdoprintf(stdscr,"%s",disk_car->description(disk_car)); new_partition->part_offset=CHS2offset(disk_car,&start); new_partition->part_size=CHS2offset(disk_car,&end) - new_partition->part_offset + disk_car->sector_size; wmove(stdscr,10, 0); wclrtoeol(stdscr); aff_part(stdscr,AFF_PART_SHORT,disk_car,new_partition); wmove(stdscr,INTER_GEOM_Y, INTER_GEOM_X); wclrtoeol(stdscr); wrefresh(stdscr); command=wmenuSimple(stdscr,menuGeometry, position); switch (command) { case 'c': wmove(stdscr, INTER_GEOM_Y, INTER_GEOM_X); start.cylinder=ask_number(start.cylinder,0,disk_car->CHS.cylinder,"Enter the starting cylinder "); position=1; break; case 'C': wmove(stdscr, INTER_GEOM_Y, INTER_GEOM_X); end.cylinder=ask_number(end.cylinder,start.cylinder,disk_car->CHS.cylinder,"Enter the ending cylinder "); position=2; break; case 'T': case 't': change_part_type(disk_car,new_partition,current_cmd); position=3; break; case key_ESC: case 'd': case 'D': case 'q': case 'Q': done = TRUE; break; } } } if((CHS2offset(disk_car,&end)>new_partition->part_offset)&& new_partition->part_type_sun>0) { list_part_t *new_list_part=insert_new_partition(list_part, new_partition); new_partition->status=STATUS_PRIM; if(test_structure_sun(list_part)!=0) { new_partition->status=STATUS_DELETED; } return new_list_part; } free(new_partition); return list_part; } static void set_next_status_sun(const disk_t *disk_car, partition_t *partition) { if(partition->status==STATUS_DELETED) partition->status=STATUS_PRIM; else partition->status=STATUS_DELETED; } static int test_structure_sun(list_part_t *list_part) { /* Return 1 if bad*/ list_part_t *new_list_part=NULL; list_part_t *element; list_part_t *new_element; int res=0; /* Sort list_part in new_list_part */ for(element=list_part;element!=NULL;element=element->next) { if(element->part->status!=STATUS_DELETED) new_list_part=insert_new_partition(new_list_part,element->part); } /* Test overlapping */ for(element=new_list_part;element!=NULL;element=element->next) { if(((element->prev!=NULL) && (element->part->part_offset<=element->prev->part->part_offset+element->prev->part->part_size-1)) || ((element->next!=NULL) && (element->part->part_offset+element->part->part_size-1>=element->next->part->part_offset))) { res=1; } } for(element=new_list_part;element!=NULL;element=new_element) { new_element=element->next; free(element); } return res; } static int set_part_type_sun(partition_t *partition, unsigned int part_type_sun) { if(part_type_sun>0 && part_type_sun <= 255) { partition->part_type_sun=part_type_sun; return 0; } return 1; } static int is_part_known_sun(const partition_t *partition) { return (partition->part_type_sun!=PSUN_UNK); } static void init_structure_sun(const disk_t *disk_car,list_part_t *list_part, const int debug) { list_part_t *element; list_part_t *new_list_part=NULL; /* Create new list */ for(element=list_part;element!=NULL;element=element->next) element->to_be_removed=0; for(element=list_part;element!=NULL;element=element->next) { int to_be_removed=0; list_part_t *element2; for(element2=element->next;element2!=NULL;element2=element2->next) if(element->part->part_offset+element->part->part_size-1 >= element2->part->part_offset) { to_be_removed=1; element2->to_be_removed=1; } if(to_be_removed) element->to_be_removed=1; if(element->to_be_removed==0) new_list_part=insert_new_partition_aux(new_list_part,element_new(element->part),1); } #ifdef DEBUG check_list_part(new_list_part); #endif for(element=new_list_part;element!=NULL;element=element->next) element->part->status=STATUS_PRIM; if(disk_car->arch->test_structure(new_list_part)) { for(element=new_list_part;element!=NULL;element=element->next) element->part->status=STATUS_DELETED; } { /* free */ list_part_t *new_element; for(element=new_list_part;element!=NULL;element=new_element) { new_element=element->next; free(element); } } #ifdef DEBUG check_list_part(list_part); #endif } static int check_part_sun(disk_t *disk_car,const int debug,partition_t *partition, const int saveheader) { int ret=0; switch(partition->part_type_sun) { case PSUN_BOOT: case PSUN_ROOT: case PSUN_USR: case PSUN_STAND: case PSUN_VAR: case PSUN_HOME: case PSUN_ALT: ret=check_ufs(disk_car,partition,debug); break; case PSUN_LINUX: ret=check_JFS(disk_car,partition,debug); if(ret!=0) { ret=check_rfs(disk_car,partition,debug); } if(ret!=0) { ret=check_EXT2(disk_car,partition,debug); } if(ret!=0) { ret=check_cramfs(disk_car,partition,debug); } if(ret!=0) { ret=check_xfs(disk_car,partition,debug); } if(ret!=0) { aff_buffer(BUFFER_ADD,"No EXT2, JFS, Reiser, cramfs or XFS marker\n"); } break; case PSUN_LINSWAP: ret=check_Linux_SWAP(disk_car,partition,debug); break; default: if(debug>0) { log_info("check_part_sun %u type %02X: no test\n",partition->order,partition->part_type_sun); } break; } if(ret!=0) { log_error("check_part_sun failed for partition type %02X\n", partition->part_type_sun); aff_part_buffer(AFF_PART_ORDER,disk_car,partition); if(saveheader>0) { save_header(disk_car,partition,debug); } } return ret; } static const char *get_partition_name_sun_aux(const unsigned int part_type_sun) { int i; for (i=0; sun_sys_types[i].name!=NULL; i++) if (sun_sys_types[i].part_type == part_type_sun) return sun_sys_types[i].name; return NULL; } static const char *get_partition_name_sun(const partition_t *partition) { return get_partition_name_sun_aux(partition->part_type_sun); }