/* * * Copyright (C) 2007-2013 Karel Zak * 2012 Davidlohr Bueso * * This is re-written version for libfdisk, the original was fdiskdoslabel.c * from util-linux fdisk. */ #include "c.h" #include "randutils.h" #include "pt-mbr.h" #include "strutils.h" #include "fdiskP.h" #include #define MAXIMUM_PARTS 60 #define ACTIVE_FLAG 0x80 /** * SECTION: dos * @title: DOS * @short_description: disk label specific functions * */ #define IS_EXTENDED(i) \ ((i) == MBR_DOS_EXTENDED_PARTITION \ || (i) == MBR_W95_EXTENDED_PARTITION \ || (i) == MBR_LINUX_EXTENDED_PARTITION) /* * per partition table entry data * * The four primary partitions have the same sectorbuffer * and have NULL ex_entry. * * Each logical partition table entry has two pointers, one for the * partition and one link to the next one. */ struct pte { struct dos_partition *pt_entry; /* on-disk MBR entry */ struct dos_partition *ex_entry; /* on-disk EBR entry */ fdisk_sector_t offset; /* disk sector number */ unsigned char *sectorbuffer; /* disk sector contents */ unsigned int changed : 1, private_sectorbuffer : 1; }; /* * in-memory fdisk GPT stuff */ struct fdisk_dos_label { struct fdisk_label head; /* generic part */ struct pte ptes[MAXIMUM_PARTS]; /* partition */ fdisk_sector_t ext_offset; /* start of the ext.partition */ size_t ext_index; /* ext.partition index (if ext_offset is set) */ unsigned int compatible : 1, /* is DOS compatible? */ non_pt_changed : 1; /* MBR, but no PT changed */ }; /* * Partition types */ static struct fdisk_parttype dos_parttypes[] = { #include "pt-mbr-partnames.h" }; static const struct fdisk_shortcut dos_parttype_cuts[] = { { .shortcut = "L", .alias = "linux", .data = "83" }, { .shortcut = "S", .alias = "swap", .data = "82" }, { .shortcut = "E", .alias = "extended", .data = "05", .deprecated = 1 }, /* collision with 0x0e type */ { .shortcut = "Ex",.alias = "extended", .data = "05" }, /* MBR extended */ { .shortcut = "U", .alias = "uefi", .data = "EF" }, /* UEFI system */ { .shortcut = "R", .alias = "raid", .data = "FD" }, /* Linux RAID */ { .shortcut = "V", .alias = "lvm", .data = "8E" }, /* LVM */ { .shortcut = "X", .alias = "linuxex", .data = "85" } /* Linux extended */ }; #define set_hsc(h,s,c,sector) { \ s = sector % cxt->geom.sectors + 1; \ sector /= cxt->geom.sectors; \ h = sector % cxt->geom.heads; \ sector /= cxt->geom.heads; \ c = sector & 0xff; \ s |= (sector >> 2) & 0xc0; \ } #define sector(s) ((s) & 0x3f) #define cylinder(s, c) ((c) | (((s) & 0xc0) << 2)) #define alignment_required(_x) ((_x)->grain != (_x)->sector_size) #define is_dos_compatible(_x) \ (fdisk_is_label(_x, DOS) && \ fdisk_dos_is_compatible(fdisk_get_label(_x, NULL))) #define cround(c, n) fdisk_cround(c, n) static inline struct fdisk_dos_label *self_label(struct fdisk_context *cxt) { assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); return (struct fdisk_dos_label *) cxt->label; } static inline struct pte *self_pte(struct fdisk_context *cxt, size_t i) { struct fdisk_dos_label *l = self_label(cxt); if (i >= ARRAY_SIZE(l->ptes)) return NULL; return &l->ptes[i]; } static inline struct dos_partition *self_partition( struct fdisk_context *cxt, size_t i) { struct pte *pe = self_pte(cxt, i); return pe ? pe->pt_entry : NULL; } struct dos_partition *fdisk_dos_get_partition( struct fdisk_context *cxt, size_t i) { assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); return self_partition(cxt, i); } static struct fdisk_parttype *dos_partition_parttype( struct fdisk_context *cxt, struct dos_partition *p) { struct fdisk_parttype *t = fdisk_label_get_parttype_from_code(cxt->label, p->sys_ind); return t ? : fdisk_new_unknown_parttype(p->sys_ind, NULL); } /* * Linux kernel cares about partition size only. Things like * partition type or so are completely irrelevant -- kzak Nov-2013 */ static int is_used_partition(struct dos_partition *p) { return p && dos_partition_get_size(p) != 0; } static void partition_set_changed( struct fdisk_context *cxt, size_t i, int changed) { struct pte *pe = self_pte(cxt, i); if (!pe) return; DBG(LABEL, ul_debug("DOS: setting %zu partition to %s", i, changed ? "changed" : "unchanged")); pe->changed = changed ? 1 : 0; if (changed) fdisk_label_set_changed(cxt->label, 1); } static fdisk_sector_t get_abs_partition_start(struct pte *pe) { assert(pe); assert(pe->pt_entry); return pe->offset + dos_partition_get_start(pe->pt_entry); } static fdisk_sector_t get_abs_partition_end(struct pte *pe) { fdisk_sector_t size; assert(pe); assert(pe->pt_entry); size = dos_partition_get_size(pe->pt_entry); return get_abs_partition_start(pe) + size - (size ? 1 : 0); } static int is_cleared_partition(struct dos_partition *p) { return !(!p || p->boot_ind || p->bh || p->bs || p->bc || p->sys_ind || p->eh || p->es || p->ec || dos_partition_get_start(p) || dos_partition_get_size(p)); } static int get_partition_unused_primary(struct fdisk_context *cxt, struct fdisk_partition *pa, size_t *partno) { size_t org, n; int rc; assert(cxt); assert(cxt->label); assert(partno); org = cxt->label->nparts_max; cxt->label->nparts_max = 4; rc = fdisk_partition_next_partno(pa, cxt, &n); cxt->label->nparts_max = org; if (rc == 1) { fdisk_info(cxt, _("All primary partitions have been defined already.")); rc = -1; } else if (rc == -ERANGE) { fdisk_warnx(cxt, _("Primary partition not available.")); } else if (rc == 0) *partno = n; return rc; } static int seek_sector(struct fdisk_context *cxt, fdisk_sector_t secno) { off_t offset = (off_t) secno * cxt->sector_size; return lseek(cxt->dev_fd, offset, SEEK_SET) == (off_t) -1 ? -errno : 0; } static int read_sector(struct fdisk_context *cxt, fdisk_sector_t secno, unsigned char *buf) { int rc = seek_sector(cxt, secno); ssize_t r; if (rc < 0) return rc; r = read(cxt->dev_fd, buf, cxt->sector_size); if (r == (ssize_t) cxt->sector_size) return 0; if (r < 0) return -errno; return -1; } /* Allocate a buffer and read a partition table sector */ static int read_pte(struct fdisk_context *cxt, size_t pno, fdisk_sector_t offset) { int rc; unsigned char *buf; struct pte *pe = self_pte(cxt, pno); if (!pe) return -EINVAL; buf = calloc(1, cxt->sector_size); if (!buf) return -ENOMEM; DBG(LABEL, ul_debug("DOS: reading EBR %zu: offset=%ju, buffer=%p", pno, (uintmax_t) offset, buf)); pe->offset = offset; pe->sectorbuffer = buf; pe->private_sectorbuffer = 1; rc = read_sector(cxt, offset, pe->sectorbuffer); if (rc) { fdisk_warn(cxt, _("Failed to read extended partition table " "(offset=%ju)"), (uintmax_t) offset); return rc; } pe->changed = 0; pe->pt_entry = pe->ex_entry = NULL; return 0; } static void clear_partition(struct dos_partition *p) { if (!p) return; p->boot_ind = 0; p->bh = 0; p->bs = 0; p->bc = 0; p->sys_ind = 0; p->eh = 0; p->es = 0; p->ec = 0; dos_partition_set_start(p,0); dos_partition_set_size(p,0); } static void dos_init(struct fdisk_context *cxt) { struct fdisk_dos_label *l = self_label(cxt); size_t i; assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); DBG(LABEL, ul_debug("DOS: initialize, first sector buffer %p", cxt->firstsector)); cxt->label->nparts_max = 4; /* default, unlimited number of logical */ l->ext_index = 0; l->ext_offset = 0; l->non_pt_changed = 0; memset(l->ptes, 0, sizeof(l->ptes)); for (i = 0; i < 4; i++) { struct pte *pe = self_pte(cxt, i); assert(pe); pe->pt_entry = mbr_get_partition(cxt->firstsector, i); pe->ex_entry = NULL; pe->offset = 0; pe->sectorbuffer = cxt->firstsector; pe->private_sectorbuffer = 0; pe->changed = 0; DBG(LABEL, ul_debug("DOS: initialize: #%zu start=%u size=%u sysid=%02x", i + 1, dos_partition_get_start(pe->pt_entry), dos_partition_get_size(pe->pt_entry), pe->pt_entry->sys_ind)); } if (fdisk_is_listonly(cxt)) return; /* * Various warnings... */ if (fdisk_missing_geometry(cxt)) fdisk_warnx(cxt, _("You can set geometry from the extra functions menu.")); if (is_dos_compatible(cxt)) { fdisk_warnx(cxt, _("DOS-compatible mode is deprecated.")); if (cxt->sector_size != cxt->phy_sector_size) fdisk_info(cxt, _( "The device presents a logical sector size that is smaller than " "the physical sector size. Aligning to a physical sector (or optimal " "I/O) size boundary is recommended, or performance may be impacted.")); } if (fdisk_use_cylinders(cxt)) fdisk_warnx(cxt, _("Cylinders as display units are deprecated.")); if (cxt->total_sectors > UINT_MAX) { uint64_t bytes = cxt->total_sectors * cxt->sector_size; char *szstr = size_to_human_string(SIZE_SUFFIX_SPACE | SIZE_SUFFIX_3LETTER, bytes); fdisk_warnx(cxt, _("The size of this disk is %s (%ju bytes). DOS " "partition table format cannot be used on drives for " "volumes larger than %lu bytes for %lu-byte " "sectors. Use GUID partition table format (GPT)."), szstr, bytes, UINT_MAX * cxt->sector_size, cxt->sector_size); free(szstr); } } /* callback called by libfdisk */ static void dos_deinit(struct fdisk_label *lb) { size_t i; struct fdisk_dos_label *l = (struct fdisk_dos_label *) lb; for (i = 0; i < ARRAY_SIZE(l->ptes); i++) { struct pte *pe = &l->ptes[i]; if (pe->private_sectorbuffer && pe->sectorbuffer) { DBG(LABEL, ul_debug("DOS: freeing pte %zu sector buffer %p", i, pe->sectorbuffer)); free(pe->sectorbuffer); } pe->sectorbuffer = NULL; pe->private_sectorbuffer = 0; } memset(l->ptes, 0, sizeof(l->ptes)); } static void reset_pte(struct pte *pe) { assert(pe); if (pe->private_sectorbuffer) { DBG(LABEL, ul_debug(" --> freeing pte sector buffer %p", pe->sectorbuffer)); free(pe->sectorbuffer); } memset(pe, 0, sizeof(struct pte)); } static int delete_partition(struct fdisk_context *cxt, size_t partnum) { struct fdisk_dos_label *l; struct pte *pe; struct dos_partition *p; struct dos_partition *q; assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); pe = self_pte(cxt, partnum); if (!pe) return -EINVAL; DBG(LABEL, ul_debug("DOS: delete partition %zu (max=%zu)", partnum, cxt->label->nparts_max)); l = self_label(cxt); p = pe->pt_entry; q = pe->ex_entry; /* Note that for the fifth partition (partnum == 4) we don't actually decrement partitions. */ if (partnum < 4) { DBG(LABEL, ul_debug("--> delete primary")); if (IS_EXTENDED(p->sys_ind) && partnum == l->ext_index) { size_t i; DBG(LABEL, ul_debug(" --> delete extended")); for (i = 4; i < cxt->label->nparts_max; i++) { DBG(LABEL, ul_debug(" --> delete logical #%zu", i)); reset_pte(&l->ptes[i]); } cxt->label->nparts_max = 4; l->ptes[l->ext_index].ex_entry = NULL; l->ext_offset = 0; l->ext_index = 0; } partition_set_changed(cxt, partnum, 1); clear_partition(p); } else if (!q->sys_ind && partnum > 4) { DBG(LABEL, ul_debug("--> delete logical [last in the chain]")); reset_pte(&l->ptes[partnum]); --cxt->label->nparts_max; --partnum; /* clear link to deleted partition */ clear_partition(l->ptes[partnum].ex_entry); partition_set_changed(cxt, partnum, 1); } else { DBG(LABEL, ul_debug("--> delete logical [move down]")); if (partnum > 4) { DBG(LABEL, ul_debug(" --> delete %zu logical link", partnum)); p = l->ptes[partnum - 1].ex_entry; *p = *q; dos_partition_set_start(p, dos_partition_get_start(q)); dos_partition_set_size(p, dos_partition_get_size(q)); partition_set_changed(cxt, partnum - 1, 1); } else if (cxt->label->nparts_max > 5) { DBG(LABEL, ul_debug(" --> delete first logical link")); pe = &l->ptes[5]; /* second logical */ if (pe->pt_entry) /* prevent SEGFAULT */ dos_partition_set_start(pe->pt_entry, get_abs_partition_start(pe) - l->ext_offset); pe->offset = l->ext_offset; partition_set_changed(cxt, 5, 1); } if (cxt->label->nparts_max > 5) { DBG(LABEL, ul_debug(" --> move ptes")); cxt->label->nparts_max--; reset_pte(&l->ptes[partnum]); while (partnum < cxt->label->nparts_max) { DBG(LABEL, ul_debug(" --> moving pte %zu <-- %zu", partnum, partnum + 1)); l->ptes[partnum] = l->ptes[partnum + 1]; partnum++; } memset(&l->ptes[partnum], 0, sizeof(struct pte)); } else { DBG(LABEL, ul_debug(" --> the only logical: clear only")); clear_partition(l->ptes[partnum].pt_entry); cxt->label->nparts_max--; if (partnum == 4) { DBG(LABEL, ul_debug(" --> clear last logical")); reset_pte(&l->ptes[partnum]); partition_set_changed(cxt, l->ext_index, 1); } } } fdisk_label_set_changed(cxt->label, 1); return 0; } static int dos_delete_partition(struct fdisk_context *cxt, size_t partnum) { struct pte *pe; assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); pe = self_pte(cxt, partnum); if (!pe || !is_used_partition(pe->pt_entry)) return -EINVAL; return delete_partition(cxt, partnum); } static void read_extended(struct fdisk_context *cxt, size_t ext) { size_t i; struct pte *pex, *pe; struct dos_partition *p, *q; struct fdisk_dos_label *l = self_label(cxt); l->ext_index = ext; pex = self_pte(cxt, ext); if (!pex) { DBG(LABEL, ul_debug("DOS: uninitialized pointer to %zu pex", ext)); return; } pex->ex_entry = pex->pt_entry; p = pex->pt_entry; if (!dos_partition_get_start(p)) { fdisk_warnx(cxt, _("Bad offset in primary extended partition.")); return; } DBG(LABEL, ul_debug("DOS: Reading extended %zu", ext)); while (IS_EXTENDED (p->sys_ind)) { if (cxt->label->nparts_max >= MAXIMUM_PARTS) { /* This is not a Linux restriction, but this program uses arrays of size MAXIMUM_PARTS. Do not try to `improve' this test. */ struct pte *pre = self_pte(cxt, cxt->label->nparts_max - 1); fdisk_warnx(cxt, _("Omitting partitions after #%zu. They will be deleted " "if you save this partition table."), cxt->label->nparts_max); if (pre) { clear_partition(pre->ex_entry); partition_set_changed(cxt, cxt->label->nparts_max - 1, 1); } return; } pe = self_pte(cxt, cxt->label->nparts_max); if (!pe) return; if (read_pte(cxt, cxt->label->nparts_max, l->ext_offset + dos_partition_get_start(p))) return; if (!l->ext_offset) l->ext_offset = dos_partition_get_start(p); assert(pe->sectorbuffer); q = p = mbr_get_partition(pe->sectorbuffer, 0); for (i = 0; i < 4; i++, p++) { if (!dos_partition_get_size(p)) continue; if (IS_EXTENDED (p->sys_ind)) { if (pe->ex_entry) fdisk_warnx(cxt, _( "Extra link pointer in partition " "table %zu."), cxt->label->nparts_max + 1); else pe->ex_entry = p; } else if (p->sys_ind) { if (pe->pt_entry) fdisk_warnx(cxt, _( "Ignoring extra data in partition " "table %zu."), cxt->label->nparts_max + 1); else pe->pt_entry = p; } } /* very strange code here... */ if (!pe->pt_entry) { if (q != pe->ex_entry) pe->pt_entry = q; else pe->pt_entry = q + 1; } if (!pe->ex_entry) { if (q != pe->pt_entry) pe->ex_entry = q; else pe->ex_entry = q + 1; } p = pe->ex_entry; cxt->label->nparts_cur = ++cxt->label->nparts_max; DBG(LABEL, ul_debug("DOS: EBR[offset=%ju]: link: type=%x, start=%u, size=%u; " " data: type=%x, start=%u, size=%u", (uintmax_t) pe->offset, pe->ex_entry->sys_ind, dos_partition_get_start(pe->ex_entry), dos_partition_get_size(pe->ex_entry), pe->pt_entry->sys_ind, dos_partition_get_start(pe->pt_entry), dos_partition_get_size(pe->pt_entry))); } /* remove last empty EBR */ pe = self_pte(cxt, cxt->label->nparts_max - 1); if (pe && is_cleared_partition(pe->ex_entry) && is_cleared_partition(pe->pt_entry)) { DBG(LABEL, ul_debug("DOS: EBR[offset=%ju]: empty, remove", (uintmax_t) pe->offset)); reset_pte(pe); cxt->label->nparts_max--; cxt->label->nparts_cur--; } /* remove empty links */ remove: q = self_partition(cxt, 4); for (i = 4; i < cxt->label->nparts_max; i++) { p = self_partition(cxt, i); if (p && !dos_partition_get_size(p) && (cxt->label->nparts_max > 5 || (q && q->sys_ind))) { fdisk_info(cxt, _("omitting empty partition (%zu)"), i+1); delete_partition(cxt, i); goto remove; /* numbering changed */ } } DBG(LABEL, ul_debug("DOS: nparts_max: %zu", cxt->label->nparts_max)); } static int dos_create_disklabel(struct fdisk_context *cxt) { unsigned int id = 0; int rc, has_id = 0; struct fdisk_dos_label *l; assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); DBG(LABEL, ul_debug("DOS: creating new disklabel")); if (cxt->script) { char *end = NULL; const char *s = fdisk_script_get_header(cxt->script, "label-id"); if (s) { errno = 0; id = strtoul(s, &end, 16); if (!errno && end && s < end) { has_id = 1; DBG(LABEL, ul_debug("DOS: re-use ID from script (0x%08x)", id)); } else DBG(LABEL, ul_debug("DOS: failed to parse label=id '%s'", s)); } } /* random disk signature */ if (!has_id) { DBG(LABEL, ul_debug("DOS: generate new ID")); ul_random_get_bytes(&id, sizeof(id)); } if (fdisk_has_protected_bootbits(cxt)) rc = fdisk_init_firstsector_buffer(cxt, 0, MBR_PT_BOOTBITS_SIZE); else rc = fdisk_init_firstsector_buffer(cxt, 0, 0); if (rc) return rc; dos_init(cxt); l = self_label(cxt); /* Generate an MBR ID for this disk */ mbr_set_id(cxt->firstsector, id); l->non_pt_changed = 1; fdisk_label_set_changed(cxt->label, 1); /* Put MBR signature */ mbr_set_magic(cxt->firstsector); fdisk_info(cxt, _("Created a new DOS disklabel with disk " "identifier 0x%08x."), id); return 0; } static int dos_set_disklabel_id(struct fdisk_context *cxt, const char *str) { char *buf = NULL; unsigned int id, old; struct fdisk_dos_label *l; int rc = 0; assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); DBG(LABEL, ul_debug("DOS: setting Id")); l = self_label(cxt); old = mbr_get_id(cxt->firstsector); if (!str) { rc = fdisk_ask_string(cxt, _("Enter the new disk identifier"), &buf); str = buf; } if (!rc) { char *end = NULL; errno = 0; id = strtoul(str, &end, 0); if (errno || str == end || (end && *end)) { fdisk_warnx(cxt, _("Incorrect value.")); rc = -EINVAL; } } free(buf); if (rc) return -EINVAL; mbr_set_id(cxt->firstsector, id); l->non_pt_changed = 1; fdisk_label_set_changed(cxt->label, 1); fdisk_info(cxt, _("Disk identifier changed from 0x%08x to 0x%08x."), old, id); return 0; } static void get_partition_table_geometry(struct fdisk_context *cxt, unsigned int *ph, unsigned int *ps) { unsigned char *bufp = cxt->firstsector; struct dos_partition *p; int i, h, s, hh, ss; int first = 1; int bad = 0; hh = ss = 0; for (i = 0; i < 4; i++) { p = mbr_get_partition(bufp, i); if (p->sys_ind != 0) { h = p->eh + 1; s = (p->es & 077); if (first) { hh = h; ss = s; first = 0; } else if (hh != h || ss != s) bad = 1; } } if (!first && !bad) { *ph = hh; *ps = ss; } DBG(LABEL, ul_debug("DOS PT geometry: heads=%u, sectors=%u", *ph, *ps)); } static int dos_reset_alignment(struct fdisk_context *cxt) { assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); /* overwrite necessary stuff by DOS deprecated stuff */ if (is_dos_compatible(cxt)) { DBG(LABEL, ul_debug("DOS: resetting alignment for DOS-compatible PT")); if (cxt->geom.sectors) cxt->first_lba = cxt->geom.sectors; /* usually 63 */ cxt->grain = cxt->sector_size; /* usually 512 */ } return 0; } /* TODO: move to include/pt-dos.h and share with libblkid */ #define AIX_MAGIC_STRING "\xC9\xC2\xD4\xC1" #define AIX_MAGIC_STRLEN (sizeof(AIX_MAGIC_STRING) - 1) static int dos_probe_label(struct fdisk_context *cxt) { size_t i; unsigned int h = 0, s = 0; assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); /* ignore disks with AIX magic number */ if (memcmp(cxt->firstsector, AIX_MAGIC_STRING, AIX_MAGIC_STRLEN) == 0) return 0; if (!mbr_is_valid_magic(cxt->firstsector)) return 0; /* ignore disks with FAT */ if (cxt->collision && (strcmp(cxt->collision, "vfat") == 0 || strcmp(cxt->collision, "ntfs") == 0)) return 0; dos_init(cxt); get_partition_table_geometry(cxt, &h, &s); if (h && s) { cxt->geom.heads = h; cxt->geom.sectors = s; if (fdisk_has_user_device_geometry(cxt)) fdisk_apply_user_device_properties(cxt); } for (i = 0; i < 4; i++) { struct pte *pe = self_pte(cxt, i); assert(pe); if (is_used_partition(pe->pt_entry)) cxt->label->nparts_cur++; if (IS_EXTENDED (pe->pt_entry->sys_ind)) { if (cxt->label->nparts_max != 4) fdisk_warnx(cxt, _( "Ignoring extra extended partition %zu"), i + 1); else read_extended(cxt, i); } } for (i = 3; i < cxt->label->nparts_max; i++) { struct pte *pe = self_pte(cxt, i); struct fdisk_dos_label *l = self_label(cxt); assert(pe); if (!mbr_is_valid_magic(pe->sectorbuffer)) { fdisk_info(cxt, _( "Invalid flag 0x%02x%02x of EBR (for partition %zu) will " "be corrected by w(rite)."), pe->sectorbuffer[510], pe->sectorbuffer[511], i + 1); partition_set_changed(cxt, i, 1); /* mark also extended as changed to update the first EBR * in situation that there is no logical partitions at all */ partition_set_changed(cxt, l->ext_index, 1); } } return 1; } static void set_partition(struct fdisk_context *cxt, int i, int doext, fdisk_sector_t start, fdisk_sector_t stop, int sysid, int boot) { struct pte *pe = self_pte(cxt, i); struct dos_partition *p; fdisk_sector_t offset; assert(!FDISK_IS_UNDEF(start)); assert(!FDISK_IS_UNDEF(stop)); assert(pe); if (doext) { struct fdisk_dos_label *l = self_label(cxt); p = pe->ex_entry; offset = l->ext_offset; } else { p = pe->pt_entry; offset = pe->offset; } DBG(LABEL, ul_debug("DOS: setting partition %d%s, offset=%zu, start=%zu, size=%zu, sysid=%02x", i, doext ? " [extended]" : "", (size_t) offset, (size_t) (start - offset), (size_t) (stop - start + 1), sysid)); p->boot_ind = boot ? ACTIVE_FLAG : 0; p->sys_ind = sysid; dos_partition_set_start(p, start - offset); dos_partition_set_size(p, stop - start + 1); if (is_dos_compatible(cxt) && (start/(cxt->geom.sectors*cxt->geom.heads) > 1023)) start = cxt->geom.heads*cxt->geom.sectors*1024 - 1; set_hsc(p->bh, p->bs, p->bc, start); if (is_dos_compatible(cxt) && (stop/(cxt->geom.sectors*cxt->geom.heads) > 1023)) stop = cxt->geom.heads*cxt->geom.sectors*1024 - 1; set_hsc(p->eh, p->es, p->ec, stop); partition_set_changed(cxt, i, 1); } static int get_start_from_user( struct fdisk_context *cxt, fdisk_sector_t *start, fdisk_sector_t low, fdisk_sector_t dflt, fdisk_sector_t limit, struct fdisk_partition *pa) { assert(start); /* try to use template from 'pa' */ if (pa && pa->start_follow_default) *start = dflt; else if (pa && fdisk_partition_has_start(pa)) { DBG(LABEL, ul_debug("DOS: start: wanted=%ju, low=%ju, limit=%ju", (uintmax_t) pa->start, (uintmax_t) low, (uintmax_t) limit)); *start = pa->start; if (*start < low || *start > limit) { fdisk_warnx(cxt, _("Start sector %ju out of range."), (uintmax_t) *start); return -ERANGE; } } else { /* ask user by dialog */ struct fdisk_ask *ask = fdisk_new_ask(); int rc; if (!ask) return -ENOMEM; fdisk_ask_set_query(ask, fdisk_use_cylinders(cxt) ? _("First cylinder") : _("First sector")); fdisk_ask_set_type(ask, FDISK_ASKTYPE_NUMBER); fdisk_ask_number_set_low(ask, fdisk_cround(cxt, low)); fdisk_ask_number_set_default(ask, fdisk_cround(cxt, dflt)); fdisk_ask_number_set_high(ask, fdisk_cround(cxt, limit)); rc = fdisk_do_ask(cxt, ask); *start = fdisk_ask_number_get_result(ask); fdisk_unref_ask(ask); if (rc) return rc; if (fdisk_use_cylinders(cxt)) { *start = (*start - 1) * fdisk_get_units_per_sector(cxt); if (*start < low) *start = low; } } DBG(LABEL, ul_debug("DOS: start is %ju", (uintmax_t) *start)); return 0; } /* Returns last available sector in the free space pointed to by start. */ static int find_last_free( struct fdisk_context *cxt, int logical, fdisk_sector_t begin, fdisk_sector_t stop, fdisk_sector_t *result) { fdisk_sector_t last = stop; size_t i = logical ? 4 : 0; for ( ; i < cxt->label->nparts_max; i++) { struct pte *pe = self_pte(cxt, i); assert(pe); fdisk_sector_t p_start = get_abs_partition_start(pe); fdisk_sector_t p_end = get_abs_partition_end(pe); if (is_cleared_partition(pe->pt_entry)) continue; /* count EBR and begin of the logical partition as used area */ if (pe->offset) p_start -= cxt->first_lba; if ((p_start >= begin && p_start <= last) || (p_end >= begin && p_end <= last)) { last = p_start - 1; } if (last < begin) { DBG(LABEL, ul_debug("no free space <%ju,%ju>", (uintmax_t) begin, (uintmax_t) stop)); return -ENOSPC; } } if (last == begin) last = stop; DBG(LABEL, ul_debug("DOS: last free sector <%ju,%ju>: %ju", (uintmax_t) begin, (uintmax_t) stop, (uintmax_t) last)); *result = last; return 0; } static int find_last_free_sector_in_range( struct fdisk_context *cxt, int logical, fdisk_sector_t begin, fdisk_sector_t end, fdisk_sector_t *result) { int last_moved; fdisk_sector_t last = end; do { size_t i = logical ? 4 : 0; last_moved = 0; for ( ; i < cxt->label->nparts_max; i++) { struct pte *pe = self_pte(cxt, i); assert(pe); fdisk_sector_t p_start = get_abs_partition_start(pe); fdisk_sector_t p_end = get_abs_partition_end(pe); if (is_cleared_partition(pe->pt_entry)) continue; /* count EBR and begin of the logical partition as used area */ if (pe->offset) p_start -= cxt->first_lba; if (last >= p_start && last <= p_end) { last = p_start - 1; last_moved = 1; if (last < begin) { DBG(LABEL, ul_debug("DOS: last free out of range <%ju,%ju>: %ju", (uintmax_t) begin, (uintmax_t) end, (uintmax_t) last)); return -ENOSPC; } } } } while (last_moved == 1); DBG(LABEL, ul_debug("DOS: last unused sector in range <%ju,%ju>: %ju", (uintmax_t) begin, (uintmax_t) end, (uintmax_t) last)); *result = last; return 0; } static int find_first_free_sector_in_range( struct fdisk_context *cxt, int logical, fdisk_sector_t begin, fdisk_sector_t end, fdisk_sector_t *result) { int first_moved = 0; fdisk_sector_t first = begin; do { size_t i = logical ? 4 : 0; first_moved = 0; for (; i < cxt->label->nparts_max; i++) { struct pte *pe = self_pte(cxt, i); assert(pe); fdisk_sector_t p_start = get_abs_partition_start(pe); fdisk_sector_t p_end = get_abs_partition_end(pe); if (is_cleared_partition(pe->pt_entry)) continue; /* count EBR and begin of the logical partition as used area */ if (pe->offset) p_start -= cxt->first_lba; if (first < p_start) continue; if (first <= p_end) { first = p_end + 1 + (logical ? cxt->first_lba : 0); first_moved = 1; if (first > end) { DBG(LABEL, ul_debug("DOS: first free out of range <%ju,%ju>: %ju", (uintmax_t) begin, (uintmax_t) end, (uintmax_t) first)); return -ENOSPC; } } } } while (first_moved == 1); DBG(LABEL, ul_debug("DOS: first unused sector in range <%ju,%ju>: %ju", (uintmax_t) begin, (uintmax_t) end, (uintmax_t) first)); *result = first; return 0; } static int get_disk_ranges(struct fdisk_context *cxt, int logical, fdisk_sector_t *first, fdisk_sector_t *last) { if (logical) { /* logical partitions */ struct fdisk_dos_label *l = self_label(cxt); struct pte *ext_pe = l->ext_offset ? self_pte(cxt, l->ext_index) : NULL; if (!ext_pe) return -EINVAL; *first = l->ext_offset + cxt->first_lba; *last = get_abs_partition_end(ext_pe); } else { /* primary partitions */ if (fdisk_use_cylinders(cxt) || !cxt->total_sectors) *last = cxt->geom.heads * cxt->geom.sectors * cxt->geom.cylinders - 1; else *last = cxt->total_sectors - 1; if (*last > UINT_MAX) *last = UINT_MAX; *first = cxt->first_lba; } return 0; } /* first free sector on disk */ static int find_first_free_sector(struct fdisk_context *cxt, int logical, fdisk_sector_t start, fdisk_sector_t *result) { fdisk_sector_t first, last; int rc; rc = get_disk_ranges(cxt, logical, &first, &last); if (rc) return rc; return find_first_free_sector_in_range(cxt, logical, start, last, result); } static int add_partition(struct fdisk_context *cxt, size_t n, struct fdisk_partition *pa) { int sys, read = 0, rc, isrel = 0, is_logical; struct fdisk_dos_label *l = self_label(cxt); struct dos_partition *p = self_partition(cxt, n); struct fdisk_ask *ask = NULL; fdisk_sector_t start, stop, limit, temp; DBG(LABEL, ul_debug("DOS: adding partition %zu", n)); sys = pa && pa->type ? pa->type->code : MBR_LINUX_DATA_PARTITION; is_logical = n >= 4; if (p && is_used_partition(p)) { fdisk_warnx(cxt, _("Partition %zu is already defined. " "Delete it before re-adding it."), n + 1); return -EINVAL; } rc = get_disk_ranges(cxt, is_logical, &start, &stop); if (rc) return rc; if (!is_logical && cxt->parent && fdisk_is_label(cxt->parent, GPT)) start = 1; /* Bad boy modifies hybrid MBR */ rc = find_last_free_sector_in_range(cxt, is_logical, start, stop, &limit); if (rc == -ENOSPC) fdisk_warnx(cxt, _("No free sectors available.")); if (rc) return rc; if ((is_logical || !cxt->parent || !fdisk_is_label(cxt->parent, GPT)) && cxt->script && pa && fdisk_partition_has_start(pa) && pa->start >= (is_logical ? l->ext_offset : 1) && pa->start < start) { fdisk_set_first_lba(cxt, 1); rc = get_disk_ranges(cxt, is_logical, &start, &stop); if (rc) /* won't happen, but checking to be proper */ return rc; } /* * Ask for first sector */ do { fdisk_sector_t dflt, aligned; temp = start; DBG(LABEL, ul_debug("DOS: >>> search for first free from %ju", start)); rc = find_first_free_sector(cxt, is_logical, start, &dflt); if (rc == -ENOSPC) fdisk_warnx(cxt, _("No free sectors available.")); if (rc) return rc; start = dflt; if (n >= 4 && pa && fdisk_partition_has_start(pa) && cxt->script && cxt->first_lba > 1 && temp == start - cxt->first_lba) { fdisk_set_first_lba(cxt, 1); start = pa->start; } /* the default sector should be aligned and unused */ do { aligned = fdisk_align_lba_in_range(cxt, dflt, dflt, limit); find_first_free_sector(cxt, is_logical, aligned, &dflt); } while (dflt != aligned && dflt > aligned && dflt < limit); if (dflt >= limit) dflt = start; if (start > limit) break; if (start >= temp + fdisk_get_units_per_sector(cxt) && read) { if (!pa || !pa->start_follow_default) fdisk_info(cxt, _("Sector %llu is already allocated."), temp); temp = start; read = 0; if (pa && fdisk_partition_has_start(pa)) break; } if (!read && start == temp) { rc = get_start_from_user(cxt, &start, temp, dflt, limit, pa); if (rc) return rc; read = 1; } if (pa && fdisk_partition_has_size(pa)) { fdisk_sector_t last; rc = find_last_free(cxt, is_logical, start, limit, &last); if (rc == 0 && last - start + 1 < fdisk_partition_get_size(pa)) { DBG(LABEL, ul_debug("DOS: area <%ju,%ju> too small [wanted=%ju aval=%ju]", (uintmax_t) start, (uintmax_t) last, fdisk_partition_get_size(pa), last - start)); if (fdisk_partition_has_start(pa) && fdisk_partition_get_start(pa) <= last) rc = -ENOSPC; else { start = last + 1; continue; } } if (rc == -ENOSPC) { fdisk_warnx(cxt, _("No free sectors available.")); return rc; } } } while (start != temp || !read); if (n == 4) { /* The first EBR is stored at begin of the extended partition */ struct pte *pe = self_pte(cxt, n); assert(pe); pe->offset = l->ext_offset; } else if (n > 4) { /* The second (and another) EBR */ struct pte *pe = self_pte(cxt, n); assert(pe); assert(start >= cxt->first_lba); pe->offset = start - cxt->first_lba; DBG(LABEL, ul_debug("DOS: setting EBR offset to %ju [start=%ju]", pe->offset, start)); if (pe->offset == l->ext_offset) { /* must be corrected */ pe->offset++; if (cxt->first_lba == 1) start++; } } rc = find_last_free(cxt, is_logical, start, limit, &stop); if (rc == -ENOSPC) fdisk_warnx(cxt, _("No free sectors available.")); if (rc) return rc; limit = stop; /* * Ask for last sector */ if (fdisk_cround(cxt, start) == fdisk_cround(cxt, limit)) stop = limit; else if (pa && pa->end_follow_default) stop = limit; else if (pa && fdisk_partition_has_size(pa)) { stop = start + pa->size; isrel = pa->size_explicit ? 0 : 1; if ((!isrel || !alignment_required(cxt)) && stop > start) stop -= 1; } else { /* ask user by dialog */ for (;;) { if (!ask) ask = fdisk_new_ask(); else fdisk_reset_ask(ask); if (!ask) return -ENOMEM; fdisk_ask_set_type(ask, FDISK_ASKTYPE_OFFSET); if (fdisk_use_cylinders(cxt)) { fdisk_ask_set_query(ask, _("Last cylinder, +/-cylinders or +/-size{K,M,G,T,P}")); fdisk_ask_number_set_unit(ask, cxt->sector_size * fdisk_get_units_per_sector(cxt)); } else { fdisk_ask_set_query(ask, _("Last sector, +/-sectors or +/-size{K,M,G,T,P}")); fdisk_ask_number_set_unit(ask,cxt->sector_size); } fdisk_ask_number_set_low(ask, fdisk_cround(cxt, start)); fdisk_ask_number_set_default(ask, fdisk_cround(cxt, limit)); fdisk_ask_number_set_high(ask, fdisk_cround(cxt, limit)); fdisk_ask_number_set_base(ask, fdisk_cround(cxt, start)); /* base for relative input */ fdisk_ask_number_set_wrap_negative(ask, 1); /* wrap negative around high */ rc = fdisk_do_ask(cxt, ask); if (rc) goto done; stop = fdisk_ask_number_get_result(ask); isrel = fdisk_ask_number_is_relative(ask); if (fdisk_use_cylinders(cxt)) { stop = stop * fdisk_get_units_per_sector(cxt) - 1; if (stop >limit) stop = limit; } if (stop >= start && stop <= limit) break; fdisk_warnx(cxt, _("Value out of range.")); } } DBG(LABEL, ul_debug("DOS: raw stop: %ju [limit %ju]", (uintmax_t) stop, (uintmax_t) limit)); if (stop > limit) stop = limit; if (isrel && stop - start < (cxt->grain / fdisk_get_sector_size(cxt))) { /* Don't try to be smart on very small partitions and don't align so small sizes */ isrel = 0; DBG(LABEL, ul_debug("DOS: don't align end of tiny partition [start=%ju, stop=%ju, grain=%lu]", (uintmax_t)start, (uintmax_t)stop, cxt->grain)); } if (stop < limit && isrel && alignment_required(cxt)) { /* the last sector has not been exactly requested (but * defined by +size{K,M,G} convention), so be smart and * align the end of the partition. The next partition * will start at phy.block boundary. */ stop = fdisk_align_lba_in_range(cxt, stop, start, limit); if (stop > start) stop -= 1; /* end one sector before aligned offset */ if (stop > limit) stop = limit; DBG(LABEL, ul_debug("DOS: aligned stop: %ju", (uintmax_t) stop)); } set_partition(cxt, n, 0, start, stop, sys, fdisk_partition_is_bootable(pa)); if (n > 4) { struct pte *pe = self_pte(cxt, n); assert(pe); set_partition(cxt, n - 1, 1, pe->offset, stop, MBR_DOS_EXTENDED_PARTITION, 0); } /* report */ { struct fdisk_parttype *t = fdisk_label_get_parttype_from_code(cxt->label, sys); fdisk_info_new_partition(cxt, n + 1, start, stop, t); fdisk_unref_parttype(t); } if (IS_EXTENDED(sys)) { struct pte *pen = self_pte(cxt, n); assert(pen); l->ext_index = n; l->ext_offset = start; pen->ex_entry = p; } fdisk_label_set_changed(cxt->label, 1); rc = 0; done: fdisk_unref_ask(ask); return rc; } static int add_logical(struct fdisk_context *cxt, struct fdisk_partition *pa, size_t *partno) { struct pte *pe; int rc; assert(cxt); assert(partno); assert(cxt->label); assert(self_label(cxt)->ext_offset); DBG(LABEL, ul_debug("DOS: nparts max: %zu", cxt->label->nparts_max)); pe = self_pte(cxt, cxt->label->nparts_max); assert(pe); if (!pe->sectorbuffer) { pe->sectorbuffer = calloc(1, cxt->sector_size); if (!pe->sectorbuffer) return -ENOMEM; DBG(LABEL, ul_debug("DOS: logical: %zu: new EBR sector buffer %p", cxt->label->nparts_max, pe->sectorbuffer)); pe->private_sectorbuffer = 1; } pe->pt_entry = mbr_get_partition(pe->sectorbuffer, 0); pe->ex_entry = pe->pt_entry + 1; pe->offset = 0; partition_set_changed(cxt, cxt->label->nparts_max, 1); cxt->label->nparts_max++; /* this message makes sense only when we use extended/primary/logical * dialog. The dialog is disable for scripts, see dos_add_partition() */ if (!cxt->script) fdisk_info(cxt, _("Adding logical partition %zu"), cxt->label->nparts_max); *partno = cxt->label->nparts_max - 1; rc = add_partition(cxt, *partno, pa); if (rc) { /* reset on error */ cxt->label->nparts_max--; pe->pt_entry = NULL; pe->ex_entry = NULL; pe->offset = 0; pe->changed = 0; } return rc; } static void check(struct fdisk_context *cxt, size_t n, unsigned int h, unsigned int s, unsigned int c, unsigned int start) { unsigned int total, real_s, real_c; if (!is_dos_compatible(cxt)) return; real_s = sector(s) - 1; real_c = cylinder(s, c); total = (real_c * cxt->geom.heads + h) * cxt->geom.sectors + real_s; if (!total) fdisk_warnx(cxt, _("Partition %zu: contains sector 0"), n); if (h >= cxt->geom.heads) fdisk_warnx(cxt, _("Partition %zu: head %d greater than " "maximum %d"), n, h + 1, cxt->geom.heads); if (real_s >= cxt->geom.sectors) fdisk_warnx(cxt, _("Partition %zu: sector %d greater than " "maximum %llu"), n, s, cxt->geom.sectors); if (real_c >= cxt->geom.cylinders) fdisk_warnx(cxt, _("Partition %zu: cylinder %d greater than " "maximum %llu"), n, real_c + 1, cxt->geom.cylinders); if (cxt->geom.cylinders <= 1024 && start != total) fdisk_warnx(cxt, _("Partition %zu: previous sectors %u " "disagrees with total %u"), n, start, total); } /* check_consistency() and long2chs() added Sat Mar 6 12:28:16 1993, * faith@cs.unc.edu, based on code fragments from pfdisk by Gordon W. Ross, * Jan. 1990 (version 1.2.1 by Gordon W. Ross Aug. 1990; Modified by S. * Lubkin Oct. 1991). */ static void long2chs(struct fdisk_context *cxt, unsigned long ls, unsigned int *c, unsigned int *h, unsigned int *s) { int spc = cxt->geom.heads * cxt->geom.sectors; *c = ls / spc; ls = ls % spc; *h = ls / cxt->geom.sectors; *s = ls % cxt->geom.sectors + 1; /* sectors count from 1 */ } static void check_consistency(struct fdisk_context *cxt, struct dos_partition *p, size_t partition) { unsigned int pbc, pbh, pbs; /* physical beginning c, h, s */ unsigned int pec, peh, pes; /* physical ending c, h, s */ unsigned int lbc, lbh, lbs; /* logical beginning c, h, s */ unsigned int lec, leh, les; /* logical ending c, h, s */ if (!is_dos_compatible(cxt)) return; if (!cxt->geom.heads || !cxt->geom.sectors || (partition >= 4)) return; /* do not check extended partitions */ /* physical beginning c, h, s */ pbc = (p->bc & 0xff) | ((p->bs << 2) & 0x300); pbh = p->bh; pbs = p->bs & 0x3f; /* physical ending c, h, s */ pec = (p->ec & 0xff) | ((p->es << 2) & 0x300); peh = p->eh; pes = p->es & 0x3f; /* compute logical beginning (c, h, s) */ long2chs(cxt, dos_partition_get_start(p), &lbc, &lbh, &lbs); /* compute logical ending (c, h, s) */ long2chs(cxt, dos_partition_get_start(p) + dos_partition_get_size(p) - 1, &lec, &leh, &les); /* Same physical / logical beginning? */ if (cxt->geom.cylinders <= 1024 && (pbc != lbc || pbh != lbh || pbs != lbs)) { fdisk_warnx(cxt, _("Partition %zu: different physical/logical " "beginnings (non-Linux?): " "phys=(%d, %d, %d), logical=(%d, %d, %d)"), partition + 1, pbc, pbh, pbs, lbc, lbh, lbs); } /* Same physical / logical ending? */ if (cxt->geom.cylinders <= 1024 && (pec != lec || peh != leh || pes != les)) { fdisk_warnx(cxt, _("Partition %zu: different physical/logical " "endings: phys=(%d, %d, %d), logical=(%d, %d, %d)"), partition + 1, pec, peh, pes, lec, leh, les); } /* Ending on cylinder boundary? */ if (peh != (cxt->geom.heads - 1) || pes != cxt->geom.sectors) { fdisk_warnx(cxt, _("Partition %zu: does not end on " "cylinder boundary."), partition + 1); } } static void fill_bounds(struct fdisk_context *cxt, fdisk_sector_t *first, fdisk_sector_t *last) { size_t i; struct pte *pe = self_pte(cxt, 0); struct dos_partition *p; assert(pe); for (i = 0; i < cxt->label->nparts_max; pe++,i++) { p = pe->pt_entry; if (is_cleared_partition(p) || IS_EXTENDED (p->sys_ind)) { first[i] = SIZE_MAX; last[i] = 0; } else { first[i] = get_abs_partition_start(pe); last[i] = get_abs_partition_end(pe); } } } static int dos_verify_disklabel(struct fdisk_context *cxt) { size_t i, j; fdisk_sector_t total = 1, n_sectors = cxt->total_sectors; fdisk_sector_t first[cxt->label->nparts_max], last[cxt->label->nparts_max]; struct dos_partition *p; struct fdisk_dos_label *l = self_label(cxt); int nerrors = 0; assert(fdisk_is_label(cxt, DOS)); fill_bounds(cxt, first, last); for (i = 0; i < cxt->label->nparts_max; i++) { struct pte *pe = self_pte(cxt, i); p = self_partition(cxt, i); if (p && is_used_partition(p) && !IS_EXTENDED(p->sys_ind)) { check_consistency(cxt, p, i); assert(pe); if (get_abs_partition_start(pe) < first[i]) { fdisk_warnx(cxt, _( "Partition %zu: bad start-of-data."), i + 1); nerrors++; } check(cxt, i + 1, p->eh, p->es, p->ec, last[i]); total += last[i] + 1 - first[i]; if (i == 0) total += get_abs_partition_start(pe) - 1; for (j = 0; j < i; j++) { if ((first[i] >= first[j] && first[i] <= last[j]) || ((last[i] <= last[j] && last[i] >= first[j]))) { fdisk_warnx(cxt, _("Partition %zu: " "overlaps partition %zu."), j + 1, i + 1); nerrors++; total += first[i] >= first[j] ? first[i] : first[j]; total -= last[i] <= last[j] ? last[i] : last[j]; } } } } if (l->ext_offset) { fdisk_sector_t e_last; struct pte *ext_pe = self_pte(cxt, l->ext_index); assert(ext_pe); e_last = get_abs_partition_end(ext_pe); for (i = 4; i < cxt->label->nparts_max; i++) { total++; p = self_partition(cxt, i); assert(p); if (!p->sys_ind) { if (i != 4 || i + 1 < cxt->label->nparts_max) { fdisk_warnx(cxt, _("Partition %zu: empty."), i + 1); nerrors++; } } else if (first[i] < l->ext_offset || last[i] > e_last) { fdisk_warnx(cxt, _("Logical partition %zu: " "not entirely in partition %zu."), i + 1, l->ext_index + 1); nerrors++; } } } if (!nerrors) { fdisk_info(cxt, _("No errors detected.")); if (total > n_sectors) fdisk_info(cxt, _("Total allocated sectors %llu greater " "than the maximum %llu."), total, n_sectors); else if (total < n_sectors) fdisk_info(cxt, _("Remaining %lld unallocated %ld-byte " "sectors."), n_sectors - total, cxt->sector_size); } else fdisk_warnx(cxt, P_("%d error detected.", "%d errors detected.", nerrors), nerrors); return nerrors; } /* * Ask the user for new partition type information (logical, extended). * This function calls the actual partition adding logic - add_partition. * * API callback. */ static int dos_add_partition(struct fdisk_context *cxt, struct fdisk_partition *pa, size_t *partno) { size_t i; uint8_t free_primary = 0, free_sectors = 0; fdisk_sector_t last = 0, grain; int rc = 0; struct fdisk_dos_label *l; struct pte *ext_pe; size_t res = 0; /* partno */ assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); DBG(LABEL, ul_debug("DOS: new partition wanted")); l = self_label(cxt); if (cxt->label->nparts_max >= MAXIMUM_PARTS) { fdisk_warnx(cxt, _("The maximum number of partitions has " "been created.")); return -EINVAL; } ext_pe = l->ext_offset ? self_pte(cxt, l->ext_index) : NULL; /* * partition template (@pa) based partitioning */ /* A) template specifies start within extended partition; add logical */ if (pa && fdisk_partition_has_start(pa) && ext_pe && pa->start >= l->ext_offset && pa->start <= get_abs_partition_end(ext_pe)) { DBG(LABEL, ul_debug("DOS: pa template %p: add logical (by offset)", pa)); if (fdisk_partition_has_partno(pa) && fdisk_partition_get_partno(pa) < 4) { DBG(LABEL, ul_debug("DOS: pa template specifies partno<4 for logical partition")); return -EINVAL; } rc = add_logical(cxt, pa, &res); goto done; /* B) template specifies start out of extended partition; add primary */ } else if (pa && fdisk_partition_has_start(pa) && ext_pe) { DBG(LABEL, ul_debug("DOS: pa template %p: add primary (by offset)", pa)); if (fdisk_partition_has_partno(pa) && fdisk_partition_get_partno(pa) >= 4) { DBG(LABEL, ul_debug("DOS: pa template specifies partno>=4 for primary partition")); return -EINVAL; } if (ext_pe && pa->type && IS_EXTENDED(pa->type->code)) { fdisk_warnx(cxt, _("Extended partition already exists.")); return -EINVAL; } rc = get_partition_unused_primary(cxt, pa, &res); if (rc == 0) rc = add_partition(cxt, res, pa); goto done; /* C) template specifies start (or default), partno < 4; add primary */ } else if (pa && (fdisk_partition_start_is_default(pa) || fdisk_partition_has_start(pa)) && fdisk_partition_has_partno(pa) && pa->partno < 4) { DBG(LABEL, ul_debug("DOS: pa template %p: add primary (by partno)", pa)); if (ext_pe && pa->type && IS_EXTENDED(pa->type->code)) { fdisk_warnx(cxt, _("Extended partition already exists.")); return -EINVAL; } rc = get_partition_unused_primary(cxt, pa, &res); if (rc == 0) rc = add_partition(cxt, res, pa); goto done; /* D) template specifies start (or default), partno >= 4; add logical */ } else if (pa && (fdisk_partition_start_is_default(pa) || fdisk_partition_has_start(pa)) && fdisk_partition_has_partno(pa) && pa->partno >= 4) { DBG(LABEL, ul_debug("DOS: pa template %p: add logical (by partno)", pa)); if (!ext_pe) { fdisk_warnx(cxt, _("Extended partition does not exists. Failed to add logical partition.")); return -EINVAL; } if (fdisk_partition_has_start(pa) && pa->start < l->ext_offset && pa->start > get_abs_partition_end(ext_pe)) { DBG(LABEL, ul_debug("DOS: pa template specifies partno>=4, but start out of extended")); return -EINVAL; } rc = add_logical(cxt, pa, &res); goto done; } DBG(LABEL, ul_debug("DOS: dialog driven partitioning")); /* Note @pa may be still used for things like partition type, etc */ /* check if there is space for primary partition */ grain = cxt->grain > cxt->sector_size ? cxt->grain / cxt->sector_size : 1; last = cxt->first_lba; if (cxt->parent && fdisk_is_label(cxt->parent, GPT)) { /* modifying a hybrid MBR, which throws out the rules */ grain = 1; last = 1; } for (i = 0; i < 4; i++) { struct dos_partition *p = self_partition(cxt, i); assert(p); if (is_used_partition(p)) { fdisk_sector_t start = dos_partition_get_start(p); if (last + grain <= start) free_sectors = 1; last = start + dos_partition_get_size(p); } else free_primary++; } if (last + grain < cxt->total_sectors - 1) free_sectors = 1; if (!free_primary || !free_sectors) { DBG(LABEL, ul_debug("DOS: primary impossible, add logical")); if (l->ext_offset) { if (!pa || fdisk_partition_has_start(pa)) { /* See above case A); here we have start, but * out of extended partition */ const char *msg; if (!free_primary) msg = _("All primary partitions are in use."); else msg = _("All space for primary partitions is in use."); if (pa && fdisk_partition_has_start(pa)) { fdisk_warnx(cxt, msg); return -EINVAL; } fdisk_info(cxt, msg); } rc = add_logical(cxt, pa, &res); } else { if (free_primary) fdisk_info(cxt, _("All space for primary partitions is in use.")); else /* TRANSLATORS: Try to keep this within 80 characters. */ fdisk_info(cxt, _("To create more partitions, first replace " "a primary with an extended partition.")); return -EINVAL; } } else { char hint[BUFSIZ]; struct fdisk_ask *ask; int c = 0; /* the default layout for scripts is to create primary partitions */ if (cxt->script || !fdisk_has_dialogs(cxt)) { rc = get_partition_unused_primary(cxt, pa, &res); if (rc == 0) rc = add_partition(cxt, res, pa); goto done; } ask = fdisk_new_ask(); if (!ask) return -ENOMEM; fdisk_ask_set_type(ask, FDISK_ASKTYPE_MENU); fdisk_ask_set_query(ask, _("Partition type")); fdisk_ask_menu_set_default(ask, free_primary == 1 && !l->ext_offset ? 'e' : 'p'); snprintf(hint, sizeof(hint), _("%u primary, %d extended, %u free"), 4 - (l->ext_offset ? 1 : 0) - free_primary, l->ext_offset ? 1 : 0, free_primary); fdisk_ask_menu_add_item(ask, 'p', _("primary"), hint); if (!l->ext_offset) fdisk_ask_menu_add_item(ask, 'e', _("extended"), _("container for logical partitions")); else fdisk_ask_menu_add_item(ask, 'l', _("logical"), _("numbered from 5")); rc = fdisk_do_ask(cxt, ask); if (!rc) fdisk_ask_menu_get_result(ask, &c); fdisk_unref_ask(ask); if (rc) return rc; if (c == 'p') { rc = get_partition_unused_primary(cxt, pa, &res); if (rc == 0) rc = add_partition(cxt, res, pa); goto done; } else if (c == 'l' && l->ext_offset) { rc = add_logical(cxt, pa, &res); goto done; } else if (c == 'e' && !l->ext_offset) { rc = get_partition_unused_primary(cxt, pa, &res); if (rc == 0) { struct fdisk_partition *xpa = NULL; struct fdisk_parttype *t; t = fdisk_label_get_parttype_from_code(cxt->label, MBR_DOS_EXTENDED_PARTITION); if (!pa) { pa = xpa = fdisk_new_partition(); if (!xpa) return -ENOMEM; } fdisk_partition_set_type(pa, t); rc = add_partition(cxt, res, pa); if (xpa) { fdisk_unref_partition(xpa); pa = NULL; } } goto done; } else fdisk_warnx(cxt, _("Invalid partition type `%c'."), c); } done: if (rc == 0) { cxt->label->nparts_cur++; if (partno) *partno = res; } return rc; } static int write_sector(struct fdisk_context *cxt, fdisk_sector_t secno, unsigned char *buf) { int rc; rc = seek_sector(cxt, secno); if (rc != 0) { fdisk_warn(cxt, _("Cannot write sector %jd: seek failed"), (uintmax_t) secno); return rc; } DBG(LABEL, ul_debug("DOS: writing to sector %ju", (uintmax_t) secno)); if (write(cxt->dev_fd, buf, cxt->sector_size) != (ssize_t) cxt->sector_size) return -errno; return 0; } static int dos_write_disklabel(struct fdisk_context *cxt) { struct fdisk_dos_label *l = self_label(cxt); size_t i; int rc = 0, mbr_changed = 0; assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); DBG(LABEL, ul_debug("DOS: write PT requested [label-changed: %d, non-pt-changed: %d]", cxt->label->changed, l->non_pt_changed)); mbr_changed = l->non_pt_changed; /* MBR (primary partitions) */ if (!mbr_changed) { for (i = 0; i < 4; i++) { struct pte *pe = self_pte(cxt, i); assert(pe); if (pe->changed) mbr_changed = 1; } } if (mbr_changed) { DBG(LABEL, ul_debug("DOS: MBR changed, writing")); mbr_set_magic(cxt->firstsector); rc = write_sector(cxt, 0, cxt->firstsector); if (rc) goto done; } if (cxt->label->nparts_max <= 4 && l->ext_offset) { /* we have empty extended partition, check if the partition has * been modified and then cleanup possible remaining EBR */ struct pte *pe = self_pte(cxt, l->ext_index); unsigned char empty[512] = { 0 }; fdisk_sector_t off = pe ? get_abs_partition_start(pe) : 0; if (off && pe->changed) { mbr_set_magic(empty); write_sector(cxt, off, empty); } } /* EBR (logical partitions) */ for (i = 4; i < cxt->label->nparts_max; i++) { struct pte *pe = self_pte(cxt, i); assert(pe); if (!pe->changed || !pe->offset || !pe->sectorbuffer) continue; mbr_set_magic(pe->sectorbuffer); rc = write_sector(cxt, pe->offset, pe->sectorbuffer); if (rc) goto done; } done: return rc; } static int dos_locate_disklabel(struct fdisk_context *cxt, int n, const char **name, uint64_t *offset, size_t *size) { assert(cxt); *name = NULL; *offset = 0; *size = 0; switch (n) { case 0: *name = "MBR"; *offset = 0; *size = 512; break; default: /* extended partitions */ if ((size_t)n - 1 + 4 < cxt->label->nparts_max) { struct pte *pe = self_pte(cxt, n - 1 + 4); assert(pe); assert(pe->private_sectorbuffer); *name = "EBR"; *offset = (uint64_t) pe->offset * cxt->sector_size; *size = 512; } else return 1; break; } return 0; } /* * Check whether partition entries are ordered by their starting positions. * Return 0 if OK. Return i if partition i should have been earlier. * Two separate checks: primary and logical partitions. */ static int wrong_p_order(struct fdisk_context *cxt, size_t *prev) { size_t last_p_start_pos = 0, p_start_pos; size_t i, last_i = 0; for (i = 0 ; i < cxt->label->nparts_max; i++) { struct pte *pe = self_pte(cxt, i); struct dos_partition *p; assert(pe); p = pe->pt_entry; if (i == 4) { last_i = 4; last_p_start_pos = 0; } if (is_used_partition(p)) { p_start_pos = get_abs_partition_start(pe); if (last_p_start_pos > p_start_pos) { if (prev) *prev = last_i; return i; } last_p_start_pos = p_start_pos; last_i = i; } } return 0; } static int dos_get_disklabel_item(struct fdisk_context *cxt, struct fdisk_labelitem *item) { int rc = 0; assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); switch (item->id) { case FDISK_LABELITEM_ID: { unsigned int num = mbr_get_id(cxt->firstsector); item->name = _("Disk identifier"); item->type = 's'; if (asprintf(&item->data.str, "0x%08x", num) < 0) rc = -ENOMEM; break; } default: if (item->id < __FDISK_NLABELITEMS) rc = 1; /* unsupported generic item */ else rc = 2; /* out of range */ break; } return rc; } static int dos_get_partition(struct fdisk_context *cxt, size_t n, struct fdisk_partition *pa) { struct dos_partition *p; struct pte *pe; struct fdisk_dos_label *lb; assert(cxt); assert(pa); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); lb = self_label(cxt); pe = self_pte(cxt, n); assert(pe); p = pe->pt_entry; pa->used = !is_cleared_partition(p); if (!pa->used) return 0; pa->type = dos_partition_parttype(cxt, p); pa->boot = p->boot_ind == ACTIVE_FLAG ? 1 : 0; pa->start = get_abs_partition_start(pe); pa->size = dos_partition_get_size(p); pa->container = lb->ext_offset && n == lb->ext_index; if (n >= 4) pa->parent_partno = lb->ext_index; if (p->boot_ind && asprintf(&pa->attrs, "%02x", p->boot_ind) < 0) return -ENOMEM; /* start C/H/S */ if (asprintf(&pa->start_chs, "%d/%d/%d", cylinder(p->bs, p->bc), p->bh, sector(p->bs)) < 0) return -ENOMEM; /* end C/H/S */ if (asprintf(&pa->end_chs, "%d/%d/%d", cylinder(p->es, p->ec), p->eh, sector(p->es)) < 0) return -ENOMEM; return 0; } static int has_logical(struct fdisk_context *cxt) { size_t i; struct fdisk_dos_label *l = self_label(cxt); for (i = 4; i < cxt->label->nparts_max; i++) { if (l->ptes[i].pt_entry) return 1; } return 0; } static int dos_set_partition(struct fdisk_context *cxt, size_t n, struct fdisk_partition *pa) { struct fdisk_dos_label *l; struct dos_partition *p; struct pte *pe; int orgtype; fdisk_sector_t start, size; assert(cxt); assert(pa); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); if (n >= cxt->label->nparts_max) return -EINVAL; l = self_label(cxt); p = self_partition(cxt, n); pe = self_pte(cxt, n); if (!pe) return -EINVAL; orgtype = p->sys_ind; if (pa->type) { if (IS_EXTENDED(pa->type->code) && l->ext_offset && l->ext_index != n) { fdisk_warnx(cxt, _("Extended partition already exists.")); return -EINVAL; } if (!pa->type->code) fdisk_warnx(cxt, _("Type 0 means free space to many systems. " "Having partitions of type 0 is probably unwise.")); if (IS_EXTENDED(p->sys_ind) && !IS_EXTENDED(pa->type->code) && has_logical(cxt)) { fdisk_warnx(cxt, _( "Cannot change type of the extended partition which is " "already used by logical partitions. Delete logical " "partitions first.")); return -EINVAL; } } FDISK_INIT_UNDEF(start); FDISK_INIT_UNDEF(size); if (fdisk_partition_has_start(pa)) start = pa->start; if (fdisk_partition_has_size(pa)) size = pa->size; if (!FDISK_IS_UNDEF(start) || !FDISK_IS_UNDEF(size)) { DBG(LABEL, ul_debug("DOS: resize partition")); if (FDISK_IS_UNDEF(start)) start = get_abs_partition_start(pe); if (FDISK_IS_UNDEF(size)) size = dos_partition_get_size(p); set_partition(cxt, n, 0, start, start + size - 1, pa->type ? pa->type->code : p->sys_ind, FDISK_IS_UNDEF(pa->boot) ? p->boot_ind == ACTIVE_FLAG : fdisk_partition_is_bootable(pa)); } else { DBG(LABEL, ul_debug("DOS: keep size, modify properties")); if (pa->type) p->sys_ind = pa->type->code; if (!FDISK_IS_UNDEF(pa->boot)) p->boot_ind = fdisk_partition_is_bootable(pa) ? ACTIVE_FLAG : 0; } if (pa->type) { if (IS_EXTENDED(pa->type->code) && !IS_EXTENDED(orgtype)) { /* new extended partition - create a reference */ l->ext_index = n; l->ext_offset = dos_partition_get_start(p); pe->ex_entry = p; } else if (IS_EXTENDED(orgtype)) { /* remove extended partition */ cxt->label->nparts_max = 4; l->ptes[l->ext_index].ex_entry = NULL; l->ext_offset = 0; l->ext_index = 0; } } partition_set_changed(cxt, n, 1); return 0; } static void print_chain_of_logicals(struct fdisk_context *cxt) { size_t i; struct fdisk_dos_label *l = self_label(cxt); fputc('\n', stdout); for (i = 4; i < cxt->label->nparts_max; i++) { struct pte *pe = self_pte(cxt, i); assert(pe); fprintf(stderr, "#%02zu EBR [%10ju], " "data[start=%10ju (%10ju), size=%10ju], " "link[start=%10ju (%10ju), size=%10ju]\n", i, (uintmax_t) pe->offset, /* data */ (uintmax_t) dos_partition_get_start(pe->pt_entry), (uintmax_t) get_abs_partition_start(pe), (uintmax_t) dos_partition_get_size(pe->pt_entry), /* link */ (uintmax_t) dos_partition_get_start(pe->ex_entry), (uintmax_t) l->ext_offset + dos_partition_get_start(pe->ex_entry), (uintmax_t) dos_partition_get_size(pe->ex_entry)); } } static int cmp_ebr_offsets(const void *a, const void *b) { const struct pte *ae = (const struct pte *) a, *be = (const struct pte *) b; if (ae->offset == 0 && be->offset == 0) return 0; if (ae->offset == 0) return 1; if (be->offset == 0) return -1; return cmp_numbers(ae->offset, be->offset); } /* * Fix the chain of logicals. * * The function does not modify data partitions within EBR tables * (pte->pt_entry). It sorts the chain by EBR offsets and then update links * (pte->ex_entry) between EBR tables. * */ static void fix_chain_of_logicals(struct fdisk_context *cxt) { struct fdisk_dos_label *l = self_label(cxt); struct pte *last; size_t i; DBG(LABEL, print_chain_of_logicals(cxt)); /* Sort chain by EBR offsets */ qsort(&l->ptes[4], cxt->label->nparts_max - 4, sizeof(struct pte), cmp_ebr_offsets); again: /* Sort data partitions by start */ for (i = 4; i < cxt->label->nparts_max - 1; i++) { struct pte *cur = self_pte(cxt, i), *nxt = self_pte(cxt, i + 1); assert(cur); assert(nxt); if (get_abs_partition_start(cur) > get_abs_partition_start(nxt)) { struct dos_partition tmp = *cur->pt_entry; fdisk_sector_t cur_start = get_abs_partition_start(cur), nxt_start = get_abs_partition_start(nxt); /* swap data partitions */ *cur->pt_entry = *nxt->pt_entry; *nxt->pt_entry = tmp; /* Recount starts according to EBR offsets, the absolute * address still has to be the same! */ dos_partition_set_start(cur->pt_entry, nxt_start - cur->offset); dos_partition_set_start(nxt->pt_entry, cur_start - nxt->offset); partition_set_changed(cxt, i, 1); partition_set_changed(cxt, i + 1, 1); goto again; } } /* Update EBR links */ for (i = 4; i < cxt->label->nparts_max - 1; i++) { struct pte *cur = self_pte(cxt, i), *nxt = self_pte(cxt, i + 1); assert(cur); assert(nxt); fdisk_sector_t noff = nxt->offset - l->ext_offset, ooff = dos_partition_get_start(cur->ex_entry); if (noff == ooff) continue; DBG(LABEL, ul_debug("DOS: fix EBR [%10ju] link %ju -> %ju", (uintmax_t) cur->offset, (uintmax_t) ooff, (uintmax_t) noff)); set_partition(cxt, i, 1, nxt->offset, get_abs_partition_end(nxt), MBR_DOS_EXTENDED_PARTITION, 0); } /* always terminate the chain ! */ last = self_pte(cxt, cxt->label->nparts_max - 1); if (last) { clear_partition(last->ex_entry); partition_set_changed(cxt, cxt->label->nparts_max - 1, 1); } DBG(LABEL, print_chain_of_logicals(cxt)); } static int dos_reorder(struct fdisk_context *cxt) { struct pte *pei, *pek; size_t i,k; if (!wrong_p_order(cxt, NULL)) { fdisk_info(cxt, _("Nothing to do. Ordering is correct already.")); return 1; } while ((i = wrong_p_order(cxt, &k)) != 0 && i < 4) { /* partition i should have come earlier, move it */ /* We have to move data in the MBR */ struct dos_partition *pi, *pk, *pe, pbuf; pei = self_pte(cxt, i); pek = self_pte(cxt, k); assert(pei); assert(pek); pe = pei->ex_entry; pei->ex_entry = pek->ex_entry; pek->ex_entry = pe; pi = pei->pt_entry; pk = pek->pt_entry; memmove(&pbuf, pi, sizeof(struct dos_partition)); memmove(pi, pk, sizeof(struct dos_partition)); memmove(pk, &pbuf, sizeof(struct dos_partition)); partition_set_changed(cxt, i, 1); partition_set_changed(cxt, k, 1); } if (i) fix_chain_of_logicals(cxt); return 0; } /* TODO: use fdisk_set_partition() API */ int fdisk_dos_move_begin(struct fdisk_context *cxt, size_t i) { struct pte *pe; struct dos_partition *p; unsigned int new, free_start, curr_start, last; uintmax_t res = 0; size_t x; int rc; assert(cxt); assert(fdisk_is_label(cxt, DOS)); pe = self_pte(cxt, i); if (!pe) return -EINVAL; p = pe->pt_entry; if (!is_used_partition(p) || IS_EXTENDED (p->sys_ind)) { fdisk_warnx(cxt, _("Partition %zu: no data area."), i + 1); return 0; } /* the default start is at the second sector of the disk or at the * second sector of the extended partition */ free_start = pe->offset ? pe->offset + 1 : 1; curr_start = get_abs_partition_start(pe); /* look for a free space before the current start of the partition */ for (x = 0; x < cxt->label->nparts_max; x++) { unsigned int end; struct pte *prev_pe = self_pte(cxt, x); struct dos_partition *prev_p; assert(prev_pe); prev_p = prev_pe->pt_entry; if (!prev_p) continue; end = get_abs_partition_start(prev_pe) + dos_partition_get_size(prev_p); if (is_used_partition(prev_p) && end > free_start && end <= curr_start) free_start = end; } last = get_abs_partition_end(pe); rc = fdisk_ask_number(cxt, free_start, curr_start, last, _("New beginning of data"), &res); if (rc) return rc; new = res - pe->offset; if (new != dos_partition_get_size(p)) { unsigned int sects = dos_partition_get_size(p) + dos_partition_get_start(p) - new; dos_partition_set_size(p, sects); dos_partition_set_start(p, new); partition_set_changed(cxt, i, 1); } return rc; } static int dos_partition_is_used( struct fdisk_context *cxt, size_t i) { struct dos_partition *p; assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); if (i >= cxt->label->nparts_max) return 0; p = self_partition(cxt, i); return p && !is_cleared_partition(p); } static int dos_toggle_partition_flag( struct fdisk_context *cxt, size_t i, unsigned long flag) { struct dos_partition *p; assert(cxt); assert(cxt->label); assert(fdisk_is_label(cxt, DOS)); if (i >= cxt->label->nparts_max) return -EINVAL; p = self_partition(cxt, i); switch (flag) { case DOS_FLAG_ACTIVE: if (IS_EXTENDED(p->sys_ind) && !p->boot_ind) fdisk_warnx(cxt, _("Partition %zu: is an extended " "partition."), i + 1); p->boot_ind = (p->boot_ind ? 0 : ACTIVE_FLAG); partition_set_changed(cxt, i, 1); fdisk_info(cxt, p->boot_ind ? _("The bootable flag on partition %zu is enabled now.") : _("The bootable flag on partition %zu is disabled now."), i + 1); break; default: return 1; } return 0; } static const struct fdisk_field dos_fields[] = { /* basic */ { FDISK_FIELD_DEVICE, N_("Device"), 10, 0 }, { FDISK_FIELD_BOOT, N_("Boot"), 1, 0 }, { FDISK_FIELD_START, N_("Start"), 5, FDISK_FIELDFL_NUMBER }, { FDISK_FIELD_END, N_("End"), 5, FDISK_FIELDFL_NUMBER }, { FDISK_FIELD_SECTORS, N_("Sectors"), 5, FDISK_FIELDFL_NUMBER }, { FDISK_FIELD_CYLINDERS,N_("Cylinders"), 5, FDISK_FIELDFL_NUMBER }, { FDISK_FIELD_SIZE, N_("Size"), 5, FDISK_FIELDFL_NUMBER | FDISK_FIELDFL_EYECANDY }, { FDISK_FIELD_TYPEID, N_("Id"), 2, FDISK_FIELDFL_NUMBER }, { FDISK_FIELD_TYPE, N_("Type"), 0.1, 0 }, /* expert mode */ { FDISK_FIELD_SADDR, N_("Start-C/H/S"), 1, FDISK_FIELDFL_NUMBER | FDISK_FIELDFL_DETAIL }, { FDISK_FIELD_EADDR, N_("End-C/H/S"), 1, FDISK_FIELDFL_NUMBER | FDISK_FIELDFL_DETAIL }, { FDISK_FIELD_ATTR, N_("Attrs"), 2, FDISK_FIELDFL_NUMBER | FDISK_FIELDFL_DETAIL } }; static const struct fdisk_label_operations dos_operations = { .probe = dos_probe_label, .write = dos_write_disklabel, .verify = dos_verify_disklabel, .create = dos_create_disklabel, .locate = dos_locate_disklabel, .get_item = dos_get_disklabel_item, .set_id = dos_set_disklabel_id, .get_part = dos_get_partition, .set_part = dos_set_partition, .add_part = dos_add_partition, .del_part = dos_delete_partition, .reorder = dos_reorder, .part_toggle_flag = dos_toggle_partition_flag, .part_is_used = dos_partition_is_used, .reset_alignment = dos_reset_alignment, .deinit = dos_deinit, }; /* * allocates DOS in-memory stuff */ struct fdisk_label *fdisk_new_dos_label(struct fdisk_context *cxt __attribute__ ((__unused__))) { struct fdisk_label *lb; struct fdisk_dos_label *dos; dos = calloc(1, sizeof(*dos)); if (!dos) return NULL; /* initialize generic part of the driver */ lb = (struct fdisk_label *) dos; lb->name = "dos"; lb->id = FDISK_DISKLABEL_DOS; lb->op = &dos_operations; lb->parttypes = dos_parttypes; lb->nparttypes = ARRAY_SIZE(dos_parttypes) - 1; lb->parttype_cuts = dos_parttype_cuts; lb->nparttype_cuts = ARRAY_SIZE(dos_parttype_cuts); lb->fields = dos_fields; lb->nfields = ARRAY_SIZE(dos_fields); lb->geom_min.sectors = 1; lb->geom_min.heads = 1; lb->geom_min.cylinders = 1; lb->geom_max.sectors = 63; lb->geom_max.heads = 255; lb->geom_max.cylinders = 1048576; return lb; } /** * fdisk_dos_enable_compatible: * @lb: DOS label (see fdisk_get_label()) * @enable: 0 or 1 * * Enables deprecated DOS compatible mode, in this mode library checks for * cylinders boundary, cases about CHS addressing and another obscure things. * * Returns: 0 on success, <0 on error. */ int fdisk_dos_enable_compatible(struct fdisk_label *lb, int enable) { struct fdisk_dos_label *dos = (struct fdisk_dos_label *) lb; if (!lb) return -EINVAL; dos->compatible = enable; if (enable) lb->flags |= FDISK_LABEL_FL_REQUIRE_GEOMETRY; return 0; } /** * fdisk_dos_is_compatible: * @lb: DOS label * * Returns: 0 if DOS compatibility disabled, 1 if enabled */ int fdisk_dos_is_compatible(struct fdisk_label *lb) { return ((struct fdisk_dos_label *) lb)->compatible; }