gpt.c revision 1.6.2.8
1 1.6.2.8 msaitoh /* $NetBSD: gpt.c,v 1.6.2.8 2020/01/28 10:17:58 msaitoh Exp $ */ 2 1.1 martin 3 1.1 martin /* 4 1.1 martin * Copyright 2018 The NetBSD Foundation, Inc. 5 1.1 martin * All rights reserved. 6 1.1 martin * 7 1.1 martin * Redistribution and use in source and binary forms, with or without 8 1.1 martin * modification, are permitted provided that the following conditions 9 1.1 martin * are met: 10 1.1 martin * 1. Redistributions of source code must retain the above copyright 11 1.1 martin * notice, this list of conditions and the following disclaimer. 12 1.1 martin * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 martin * notice, this list of conditions and the following disclaimer in the 14 1.1 martin * documentation and/or other materials provided with the distribution. 15 1.1 martin * 16 1.1 martin * THIS SOFTWARE IS PROVIDED BY PIERMONT INFORMATION SYSTEMS INC. ``AS IS'' 17 1.1 martin * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 18 1.1 martin * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 19 1.1 martin * ARE DISCLAIMED. IN NO EVENT SHALL PIERMONT INFORMATION SYSTEMS INC. BE 20 1.1 martin * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 21 1.1 martin * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 22 1.1 martin * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 23 1.1 martin * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 24 1.1 martin * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 25 1.1 martin * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF 26 1.1 martin * THE POSSIBILITY OF SUCH DAMAGE. 27 1.1 martin * 28 1.1 martin */ 29 1.1 martin 30 1.1 martin #include "defs.h" 31 1.1 martin #include "mbr.h" 32 1.1 martin #include "md.h" 33 1.1 martin #include "gpt_uuid.h" 34 1.1 martin #include <assert.h> 35 1.6.2.6 msaitoh #include <err.h> 36 1.1 martin #include <paths.h> 37 1.1 martin #include <sys/param.h> 38 1.1 martin #include <sys/ioctl.h> 39 1.1 martin #include <util.h> 40 1.6.2.6 msaitoh #include <uuid.h> 41 1.1 martin 42 1.1 martin bool gpt_parts_check(void); /* check for needed binaries */ 43 1.1 martin 44 1.1 martin 45 1.1 martin /*************** GPT ************************************************/ 46 1.1 martin /* a GPT based disk_partitions interface */ 47 1.1 martin 48 1.1 martin #define GUID_STR_LEN 40 49 1.6.2.6 msaitoh #define GPT_PTYPE_ALLOC 32 /* initial type array allocation, should be > 50 1.6.2.6 msaitoh * gpt type -l | wc -l */ 51 1.1 martin #define GPT_DEV_LEN 16 /* dkNN */ 52 1.1 martin 53 1.6.2.8 msaitoh #define GPT_PARTS_PER_SEC 4 /* a 512 byte sector holds 4 entries */ 54 1.1 martin #define GPT_DEFAULT_MAX_PARTS 128 55 1.1 martin 56 1.1 martin /* a usable label will be short, so we can get away with an arbitrary limit */ 57 1.1 martin #define GPT_LABEL_LEN 96 58 1.1 martin 59 1.1 martin #define GPT_ATTR_BIOSBOOT 1 60 1.1 martin #define GPT_ATTR_BOOTME 2 61 1.1 martin #define GPT_ATTR_BOOTONCE 4 62 1.1 martin #define GPT_ATTR_BOOTFAILED 8 63 1.1 martin #define GPT_ATTR_NOBLOCKIO 16 64 1.1 martin #define GPT_ATTR_REQUIRED 32 65 1.1 martin 66 1.1 martin /* when we don't care for BIOS or UEFI boot, use the combined boot flags */ 67 1.1 martin #define GPT_ATTR_BOOT (GPT_ATTR_BIOSBOOT|GPT_ATTR_BOOTME) 68 1.1 martin 69 1.1 martin struct gpt_attr_desc { 70 1.1 martin const char *name; 71 1.1 martin uint flag; 72 1.1 martin }; 73 1.1 martin static const struct gpt_attr_desc gpt_avail_attrs[] = { 74 1.1 martin { "biosboot", GPT_ATTR_BIOSBOOT }, 75 1.1 martin { "bootme", GPT_ATTR_BOOTME }, 76 1.1 martin { "bootonce", GPT_ATTR_BOOTONCE }, 77 1.1 martin { "bootfailed", GPT_ATTR_BOOTFAILED }, 78 1.1 martin { "noblockio", GPT_ATTR_NOBLOCKIO }, 79 1.1 martin { "required", GPT_ATTR_REQUIRED }, 80 1.1 martin { NULL, 0 } 81 1.1 martin }; 82 1.1 martin 83 1.1 martin struct gpt_ptype_desc { 84 1.1 martin struct part_type_desc gent; 85 1.1 martin char tid[GUID_STR_LEN]; 86 1.1 martin uint fsflags, default_fs_type; 87 1.1 martin }; 88 1.1 martin 89 1.1 martin static const 90 1.1 martin struct { 91 1.1 martin const char *name; 92 1.1 martin uint fstype; 93 1.1 martin enum part_type ptype; 94 1.1 martin uint fsflags; 95 1.1 martin } gpt_fs_types[] = { 96 1.1 martin { .name = "ffs", .fstype = FS_BSDFFS, .ptype = PT_root, 97 1.1 martin .fsflags = GLM_LIKELY_FFS }, 98 1.1 martin { .name = "swap", .fstype = FS_SWAP, .ptype = PT_swap }, 99 1.1 martin { .name = "windows", .fstype = FS_MSDOS, .ptype = PT_FAT, 100 1.1 martin .fsflags = GLM_MAYBE_FAT32|GLM_MAYBE_NTFS }, 101 1.1 martin { .name = "windows", .fstype = FS_NTFS, .ptype = PT_FAT, 102 1.1 martin .fsflags = GLM_MAYBE_FAT32|GLM_MAYBE_NTFS }, 103 1.1 martin { .name = "efi", .fstype = FS_MSDOS, .ptype = PT_EFI_SYSTEM, 104 1.1 martin .fsflags = GLM_MAYBE_FAT32 }, 105 1.1 martin { .name = "bios", .fstype = FS_MSDOS, .ptype = PT_FAT, 106 1.1 martin .fsflags = GLM_MAYBE_FAT32 }, 107 1.1 martin { .name = "lfs", .fstype = FS_BSDLFS, .ptype = PT_root }, 108 1.1 martin { .name = "linux-data", .fstype = FS_EX2FS, .ptype = PT_root }, 109 1.1 martin { .name = "apple", .fstype = FS_HFS, .ptype = PT_unknown }, 110 1.6.2.8 msaitoh { .name = "ccd", .fstype = FS_CCD, .ptype = PT_root }, 111 1.6.2.8 msaitoh { .name = "cgd", .fstype = FS_CGD, .ptype = PT_root }, 112 1.1 martin { .name = "raid", .fstype = FS_RAID, .ptype = PT_root }, 113 1.1 martin { .name = "vmcore", .fstype = FS_VMKCORE, .ptype = PT_unknown }, 114 1.1 martin { .name = "vmfs", .fstype = FS_VMFS, .ptype = PT_unknown }, 115 1.1 martin { .name = "vmresered", .fstype = FS_VMWRESV, .ptype = PT_unknown } 116 1.1 martin }; 117 1.1 martin 118 1.6.2.6 msaitoh static size_t gpt_ptype_cnt = 0, gpt_ptype_alloc = 0; 119 1.6.2.6 msaitoh static struct gpt_ptype_desc *gpt_ptype_descs = NULL; 120 1.6.2.6 msaitoh 121 1.6.2.6 msaitoh /* "well" known types with special handling */ 122 1.6.2.6 msaitoh static const struct part_type_desc *gpt_native_root; 123 1.1 martin 124 1.1 martin /* similar to struct gpt_ent, but matching our needs */ 125 1.1 martin struct gpt_part_entry { 126 1.1 martin const struct gpt_ptype_desc *gp_type; 127 1.1 martin char gp_id[GUID_STR_LEN]; /* partition guid as string */ 128 1.1 martin daddr_t gp_start, gp_size; 129 1.1 martin uint gp_attr; /* various attribute bits */ 130 1.1 martin char gp_label[GPT_LABEL_LEN]; /* user defined label */ 131 1.1 martin char gp_dev_name[GPT_DEV_LEN]; /* name of wedge */ 132 1.1 martin const char *last_mounted; /* last mounted if known */ 133 1.1 martin uint fs_type, fs_sub_type; /* FS_* and maybe sub type */ 134 1.1 martin uint gp_flags; 135 1.1 martin #define GPEF_ON_DISK 1 /* This entry exists on-disk */ 136 1.1 martin #define GPEF_MODIFIED 2 /* this entry has been changed */ 137 1.1 martin #define GPEF_WEDGE 4 /* wedge for this exists */ 138 1.1 martin #define GPEF_RESIZED 8 /* size has changed */ 139 1.1 martin struct gpt_part_entry *gp_next; 140 1.1 martin }; 141 1.1 martin 142 1.1 martin static const struct gpt_ptype_desc *gpt_find_native_type( 143 1.1 martin const struct part_type_desc *gent); 144 1.1 martin static const struct gpt_ptype_desc *gpt_find_guid_type(const char*); 145 1.1 martin static bool 146 1.1 martin gpt_info_to_part(struct gpt_part_entry *p, const struct disk_part_info *info, 147 1.1 martin const char **err_msg); 148 1.1 martin 149 1.1 martin const struct disk_partitioning_scheme gpt_parts; 150 1.1 martin struct gpt_disk_partitions { 151 1.1 martin struct disk_partitions dp; 152 1.1 martin /* 153 1.1 martin * We keep a list of our current valid partitions, pointed 154 1.1 martin * to by "partitions". 155 1.1 martin * dp.num_part is the number of entries in "partitions". 156 1.1 martin * When partitions that have a representation on disk already 157 1.1 martin * are deleted, we move them to the "obsolete" list so we 158 1.1 martin * can issue the proper commands to remove it when writing back. 159 1.1 martin */ 160 1.1 martin struct gpt_part_entry *partitions, /* current partitions */ 161 1.1 martin *obsolete; /* deleted partitions */ 162 1.1 martin size_t max_num_parts; /* how many entries max? */ 163 1.1 martin size_t prologue, epilogue; /* number of sectors res. */ 164 1.1 martin bool has_gpt; /* disk already has a GPT */ 165 1.1 martin }; 166 1.1 martin 167 1.1 martin /* 168 1.1 martin * Init global variables from MD details 169 1.1 martin */ 170 1.1 martin static void 171 1.1 martin gpt_md_init(bool is_boot_disk, size_t *max_parts, size_t *head, size_t *tail) 172 1.1 martin { 173 1.1 martin size_t num; 174 1.1 martin 175 1.1 martin if (is_boot_disk) { 176 1.1 martin #ifdef MD_GPT_INITIAL_SIZE 177 1.1 martin #if MD_GPT_INITIAL_SIZE < 2*512 178 1.1 martin #error impossible small GPT prologue 179 1.1 martin #endif 180 1.1 martin num = ((MD_GPT_INITIAL_SIZE-(2*512))/512)*GPT_PARTS_PER_SEC; 181 1.1 martin #else 182 1.1 martin num = GPT_DEFAULT_MAX_PARTS; 183 1.1 martin #endif 184 1.1 martin } else { 185 1.1 martin num = GPT_DEFAULT_MAX_PARTS; 186 1.1 martin } 187 1.1 martin *max_parts = num; 188 1.1 martin *head = 2 + num/GPT_PARTS_PER_SEC; 189 1.1 martin *tail = 1 + num/GPT_PARTS_PER_SEC; 190 1.1 martin } 191 1.1 martin 192 1.1 martin /* 193 1.1 martin * Parse a part of "gpt show" output into a struct gpt_part_entry. 194 1.1 martin * Output is from "show -a" format if details = false, otherwise 195 1.1 martin * from details for a specific partition (show -i or show -b) 196 1.1 martin */ 197 1.1 martin static void 198 1.1 martin gpt_add_info(struct gpt_part_entry *part, const char *tag, char *val, 199 1.1 martin bool details) 200 1.1 martin { 201 1.1 martin char *s, *e; 202 1.1 martin 203 1.1 martin if (details && strcmp(tag, "Start:") == 0) { 204 1.1 martin part->gp_start = strtouq(val, NULL, 10); 205 1.1 martin } else if (details && strcmp(tag, "Size:") == 0) { 206 1.1 martin part->gp_size = strtouq(val, NULL, 10); 207 1.1 martin } else if (details && strcmp(tag, "Type:") == 0) { 208 1.1 martin s = strchr(val, '('); 209 1.1 martin if (!s) 210 1.1 martin return; 211 1.1 martin e = strchr(s, ')'); 212 1.1 martin if (!e) 213 1.1 martin return; 214 1.1 martin *e = 0; 215 1.1 martin part->gp_type = gpt_find_guid_type(s+1); 216 1.1 martin } else if (strcmp(tag, "TypeID:") == 0) { 217 1.1 martin part->gp_type = gpt_find_guid_type(val); 218 1.1 martin } else if (strcmp(tag, "GUID:") == 0) { 219 1.1 martin strlcpy(part->gp_id, val, sizeof(part->gp_id)); 220 1.1 martin } else if (strcmp(tag, "Label:") == 0) { 221 1.6.2.1 msaitoh strlcpy(part->gp_label, val, sizeof(part->gp_label)); 222 1.1 martin } else if (strcmp(tag, "Attributes:") == 0) { 223 1.1 martin char *n; 224 1.1 martin 225 1.1 martin while ((n = strsep(&val, ", ")) != NULL) { 226 1.1 martin if (*n == 0) 227 1.1 martin continue; 228 1.1 martin for (const struct gpt_attr_desc *p = gpt_avail_attrs; 229 1.1 martin p->name != NULL; p++) { 230 1.1 martin if (strcmp(p->name, n) == 0) 231 1.1 martin part->gp_attr |= p->flag; 232 1.1 martin } 233 1.1 martin } 234 1.1 martin } 235 1.1 martin } 236 1.1 martin 237 1.6.2.2 msaitoh /* 238 1.6.2.2 msaitoh * Find the partition matching this wedge info and record that we 239 1.6.2.2 msaitoh * have a wedge already. 240 1.6.2.2 msaitoh */ 241 1.6.2.2 msaitoh static void 242 1.6.2.2 msaitoh update_part_from_wedge_info(struct gpt_disk_partitions *parts, 243 1.6.2.2 msaitoh const struct dkwedge_info *dkw) 244 1.6.2.2 msaitoh { 245 1.6.2.2 msaitoh for (struct gpt_part_entry *p = parts->partitions; p != NULL; 246 1.6.2.2 msaitoh p = p->gp_next) { 247 1.6.2.2 msaitoh if (p->gp_start != dkw->dkw_offset || 248 1.6.2.2 msaitoh (uint64_t)p->gp_size != dkw->dkw_size) 249 1.6.2.2 msaitoh continue; 250 1.6.2.2 msaitoh p->gp_flags |= GPEF_WEDGE; 251 1.6.2.2 msaitoh strlcpy(p->gp_dev_name, dkw->dkw_devname, 252 1.6.2.2 msaitoh sizeof p->gp_dev_name); 253 1.6.2.2 msaitoh return; 254 1.6.2.2 msaitoh } 255 1.6.2.2 msaitoh } 256 1.6.2.2 msaitoh 257 1.1 martin static struct disk_partitions * 258 1.6.2.8 msaitoh gpt_read_from_disk(const char *dev, daddr_t start, daddr_t len, size_t bps, 259 1.6.2.4 msaitoh const struct disk_partitioning_scheme *scheme) 260 1.1 martin { 261 1.1 martin char diskpath[MAXPATHLEN]; 262 1.1 martin int fd; 263 1.6.2.2 msaitoh struct dkwedge_info *dkw; 264 1.6.2.2 msaitoh struct dkwedge_list dkwl; 265 1.6.2.2 msaitoh size_t bufsize, dk; 266 1.1 martin 267 1.1 martin assert(start == 0); 268 1.1 martin assert(have_gpt); 269 1.1 martin 270 1.1 martin if (run_program(RUN_SILENT | RUN_ERROR_OK, 271 1.1 martin "gpt -rq header %s", dev) != 0) 272 1.1 martin return NULL; 273 1.1 martin 274 1.1 martin /* read the partitions */ 275 1.1 martin int i; 276 1.1 martin unsigned int p_index; 277 1.1 martin daddr_t p_start = 0, p_size = 0, avail_start = 0, avail_size = 0, 278 1.1 martin disk_size = 0; 279 1.1 martin char *textbuf, *t, *tt, p_type[STRSIZE]; 280 1.1 martin static const char regpart_prefix[] = "GPT part - "; 281 1.1 martin struct gpt_disk_partitions *parts; 282 1.1 martin struct gpt_part_entry *last = NULL, *add_to = NULL; 283 1.1 martin 284 1.1 martin if (collect(T_OUTPUT, &textbuf, "gpt -r show -a %s 2>/dev/null", dev) 285 1.1 martin < 1) 286 1.1 martin return NULL; 287 1.1 martin 288 1.1 martin /* parse output and create our list */ 289 1.1 martin parts = calloc(1, sizeof(*parts)); 290 1.1 martin if (parts == NULL) 291 1.1 martin return NULL; 292 1.1 martin 293 1.1 martin (void)strtok(textbuf, "\n"); /* ignore first line */ 294 1.1 martin while ((t = strtok(NULL, "\n")) != NULL) { 295 1.1 martin i = 0; p_start = 0; p_size = 0; p_index = 0; 296 1.1 martin p_type[0] = 0; 297 1.1 martin while ((tt = strsep(&t, " \t")) != NULL) { 298 1.1 martin if (strlen(tt) == 0) 299 1.1 martin continue; 300 1.1 martin if (i == 0) { 301 1.1 martin if (add_to != NULL) 302 1.1 martin gpt_add_info(add_to, tt, t, false); 303 1.1 martin p_start = strtouq(tt, NULL, 10); 304 1.1 martin if (p_start == 0 && add_to != NULL) 305 1.1 martin break; 306 1.1 martin else 307 1.1 martin add_to = NULL; 308 1.1 martin } 309 1.1 martin if (i == 1) 310 1.1 martin p_size = strtouq(tt, NULL, 10); 311 1.1 martin if (i == 2) 312 1.1 martin p_index = strtouq(tt, NULL, 10); 313 1.1 martin if (i > 2 || (i == 2 && p_index == 0)) { 314 1.1 martin if (p_type[0]) 315 1.1 martin strlcat(p_type, " ", STRSIZE); 316 1.1 martin strlcat(p_type, tt, STRSIZE); 317 1.1 martin } 318 1.1 martin i++; 319 1.1 martin } 320 1.1 martin 321 1.1 martin if (p_start == 0 || p_size == 0) 322 1.1 martin continue; 323 1.1 martin else if (strcmp(p_type, "Pri GPT table") == 0) { 324 1.1 martin avail_start = p_start + p_size; 325 1.1 martin parts->prologue = avail_start; 326 1.1 martin parts->epilogue = p_size + 1; 327 1.1 martin parts->max_num_parts = p_size * GPT_PARTS_PER_SEC; 328 1.1 martin } else if (strcmp(p_type, "Sec GPT table") == 0) 329 1.1 martin avail_size = p_start - avail_start; 330 1.1 martin else if(strcmp(p_type, "Sec GPT header") == 0) 331 1.1 martin disk_size = p_start + p_size; 332 1.1 martin else if (p_index == 0 && strlen(p_type) > 0) 333 1.1 martin /* Utilitary entry (PMBR, etc) */ 334 1.1 martin continue; 335 1.1 martin else if (p_index == 0) { 336 1.1 martin /* Free space */ 337 1.1 martin continue; 338 1.1 martin } else { 339 1.1 martin /* Usual partition */ 340 1.1 martin tt = p_type; 341 1.1 martin if (strncmp(tt, regpart_prefix, 342 1.1 martin strlen(regpart_prefix)) == 0) 343 1.1 martin tt += strlen(regpart_prefix); 344 1.1 martin 345 1.1 martin /* Add to our linked list */ 346 1.1 martin struct gpt_part_entry *np = calloc(1, sizeof(*np)); 347 1.1 martin if (np == NULL) 348 1.1 martin break; 349 1.1 martin 350 1.1 martin strlcpy(np->gp_label, tt, sizeof(np->gp_label)); 351 1.1 martin np->gp_start = p_start; 352 1.1 martin np->gp_size = p_size; 353 1.1 martin np->gp_flags |= GPEF_ON_DISK; 354 1.1 martin 355 1.1 martin if (last == NULL) 356 1.1 martin parts->partitions = np; 357 1.1 martin else 358 1.1 martin last->gp_next = np; 359 1.1 martin last = np; 360 1.1 martin add_to = np; 361 1.1 martin parts->dp.num_part++; 362 1.1 martin } 363 1.1 martin } 364 1.1 martin free(textbuf); 365 1.1 martin 366 1.2 martin /* If the GPT was not complete (e.g. truncated image), barf */ 367 1.2 martin if (disk_size <= 0) { 368 1.2 martin free(parts); 369 1.2 martin return NULL; 370 1.2 martin } 371 1.2 martin 372 1.6.2.4 msaitoh parts->dp.pscheme = scheme; 373 1.6.2.6 msaitoh parts->dp.disk = strdup(dev); 374 1.1 martin parts->dp.disk_start = start; 375 1.1 martin parts->dp.disk_size = disk_size; 376 1.1 martin parts->dp.free_space = avail_size; 377 1.6.2.8 msaitoh parts->dp.bytes_per_sector = bps; 378 1.1 martin parts->has_gpt = true; 379 1.1 martin 380 1.1 martin fd = opendisk(parts->dp.disk, O_RDONLY, diskpath, sizeof(diskpath), 0); 381 1.1 martin for (struct gpt_part_entry *p = parts->partitions; p != NULL; 382 1.1 martin p = p->gp_next) { 383 1.1 martin #ifdef DEFAULT_UFS2 384 1.1 martin bool fs_is_default = false; 385 1.1 martin #endif 386 1.1 martin 387 1.5 martin if (p->gp_type != NULL) { 388 1.5 martin 389 1.5 martin if (p->gp_type->fsflags != 0) { 390 1.5 martin const char *lm = get_last_mounted(fd, 391 1.5 martin p->gp_start, &p->fs_type, 392 1.5 martin &p->fs_sub_type, p->gp_type->fsflags); 393 1.5 martin if (lm != NULL && *lm != 0) { 394 1.5 martin char *path = strdup(lm); 395 1.5 martin canonicalize_last_mounted(path); 396 1.5 martin p->last_mounted = path; 397 1.5 martin } else { 398 1.5 martin p->fs_type = p->gp_type-> 399 1.5 martin default_fs_type; 400 1.5 martin #ifdef DEFAULT_UFS2 401 1.5 martin fs_is_default = true; 402 1.5 martin #endif 403 1.5 martin } 404 1.1 martin } else { 405 1.1 martin p->fs_type = p->gp_type->default_fs_type; 406 1.1 martin #ifdef DEFAULT_UFS2 407 1.1 martin fs_is_default = true; 408 1.1 martin #endif 409 1.1 martin } 410 1.1 martin #ifdef DEFAULT_UFS2 411 1.5 martin if (fs_is_default && p->fs_type == FS_BSDFFS) 412 1.5 martin p->fs_sub_type = 2; 413 1.1 martin #endif 414 1.1 martin } 415 1.1 martin 416 1.1 martin parts->dp.free_space -= p->gp_size; 417 1.1 martin } 418 1.6.2.2 msaitoh 419 1.6.2.2 msaitoh /* 420 1.6.2.2 msaitoh * Check if we have any (matching/auto-configured) wedges already 421 1.6.2.2 msaitoh */ 422 1.6.2.2 msaitoh dkw = NULL; 423 1.6.2.2 msaitoh dkwl.dkwl_buf = dkw; 424 1.6.2.2 msaitoh dkwl.dkwl_bufsize = 0; 425 1.6.2.2 msaitoh if (ioctl(fd, DIOCLWEDGES, &dkwl) == 0) { 426 1.6.2.2 msaitoh /* do not even try to deal with any races at this point */ 427 1.6.2.2 msaitoh bufsize = dkwl.dkwl_nwedges * sizeof(*dkw); 428 1.6.2.2 msaitoh dkw = malloc(bufsize); 429 1.6.2.2 msaitoh dkwl.dkwl_buf = dkw; 430 1.6.2.2 msaitoh dkwl.dkwl_bufsize = bufsize; 431 1.6.2.2 msaitoh if (dkw != NULL && ioctl(fd, DIOCLWEDGES, &dkwl) == 0) { 432 1.6.2.2 msaitoh for (dk = 0; dk < dkwl.dkwl_ncopied; dk++) 433 1.6.2.2 msaitoh update_part_from_wedge_info(parts, &dkw[dk]); 434 1.6.2.2 msaitoh } 435 1.6.2.2 msaitoh free(dkw); 436 1.6.2.2 msaitoh } 437 1.6.2.2 msaitoh 438 1.1 martin close(fd); 439 1.1 martin 440 1.1 martin return &parts->dp; 441 1.1 martin } 442 1.1 martin 443 1.6.2.8 msaitoh static size_t 444 1.6.2.8 msaitoh gpt_cyl_size(const struct disk_partitions *arg) 445 1.6.2.8 msaitoh { 446 1.6.2.8 msaitoh return MEG / 512; 447 1.6.2.8 msaitoh } 448 1.6.2.8 msaitoh 449 1.1 martin static struct disk_partitions * 450 1.6.2.8 msaitoh gpt_create_new(const char *disk, daddr_t start, daddr_t len, 451 1.6.2.8 msaitoh bool is_boot_drive, struct disk_partitions *parent) 452 1.1 martin { 453 1.1 martin struct gpt_disk_partitions *parts; 454 1.6.2.8 msaitoh struct disk_geom geo; 455 1.1 martin 456 1.1 martin if (start != 0) { 457 1.1 martin assert(0); 458 1.1 martin return NULL; 459 1.1 martin } 460 1.1 martin 461 1.6.2.8 msaitoh if (!get_disk_geom(disk, &geo)) 462 1.6.2.8 msaitoh return NULL; 463 1.6.2.8 msaitoh 464 1.3 martin parts = calloc(1, sizeof(*parts)); 465 1.1 martin if (!parts) 466 1.1 martin return NULL; 467 1.1 martin 468 1.1 martin parts->dp.pscheme = &gpt_parts; 469 1.6.2.6 msaitoh parts->dp.disk = strdup(disk); 470 1.1 martin 471 1.1 martin gpt_md_init(is_boot_drive, &parts->max_num_parts, &parts->prologue, 472 1.1 martin &parts->epilogue); 473 1.1 martin 474 1.1 martin parts->dp.disk_start = start; 475 1.1 martin parts->dp.disk_size = len; 476 1.6.2.8 msaitoh parts->dp.bytes_per_sector = geo.dg_secsize; 477 1.1 martin parts->dp.free_space = len - start - parts->prologue - parts->epilogue; 478 1.1 martin parts->has_gpt = false; 479 1.1 martin 480 1.1 martin return &parts->dp; 481 1.1 martin } 482 1.1 martin 483 1.1 martin static bool 484 1.1 martin gpt_get_part_info(const struct disk_partitions *arg, part_id id, 485 1.1 martin struct disk_part_info *info) 486 1.1 martin { 487 1.5 martin static const struct part_type_desc gpt_unknown_type = 488 1.5 martin { .generic_ptype = PT_undef, 489 1.5 martin .short_desc = "<unknown>" }; 490 1.1 martin const struct gpt_disk_partitions *parts = 491 1.1 martin (const struct gpt_disk_partitions*)arg; 492 1.1 martin const struct gpt_part_entry *p = parts->partitions; 493 1.1 martin part_id no; 494 1.1 martin 495 1.1 martin for (no = 0; p != NULL && no < id; no++) 496 1.1 martin p = p->gp_next; 497 1.1 martin 498 1.1 martin if (no != id || p == NULL) 499 1.1 martin return false; 500 1.1 martin 501 1.1 martin memset(info, 0, sizeof(*info)); 502 1.1 martin info->start = p->gp_start; 503 1.1 martin info->size = p->gp_size; 504 1.1 martin if (p->gp_type) 505 1.1 martin info->nat_type = &p->gp_type->gent; 506 1.5 martin else 507 1.5 martin info->nat_type = &gpt_unknown_type; 508 1.1 martin info->last_mounted = p->last_mounted; 509 1.1 martin info->fs_type = p->fs_type; 510 1.1 martin info->fs_sub_type = p->fs_sub_type; 511 1.1 martin 512 1.1 martin return true; 513 1.1 martin } 514 1.1 martin 515 1.1 martin static bool 516 1.1 martin gpt_get_part_attr_str(const struct disk_partitions *arg, part_id id, 517 1.1 martin char *str, size_t avail_space) 518 1.1 martin { 519 1.1 martin const struct gpt_disk_partitions *parts = 520 1.1 martin (const struct gpt_disk_partitions*)arg; 521 1.1 martin const struct gpt_part_entry *p = parts->partitions; 522 1.1 martin part_id no; 523 1.1 martin static const char *flags = NULL; 524 1.1 martin 525 1.1 martin for (no = 0; p != NULL && no < id; no++) 526 1.1 martin p = p->gp_next; 527 1.1 martin 528 1.1 martin if (no != id || p == NULL) 529 1.1 martin return false; 530 1.1 martin 531 1.1 martin if (flags == NULL) 532 1.1 martin flags = msg_string(MSG_gpt_flags); 533 1.1 martin 534 1.1 martin if (avail_space < 2) 535 1.1 martin return false; 536 1.1 martin 537 1.1 martin if (p->gp_attr & GPT_ATTR_BOOT) 538 1.1 martin *str++ = flags[0]; 539 1.1 martin *str = 0; 540 1.1 martin 541 1.1 martin return true; 542 1.1 martin } 543 1.1 martin 544 1.1 martin /* 545 1.1 martin * Find insert position and check for duplicates. 546 1.1 martin * If all goes well, insert the new "entry" in the "list". 547 1.1 martin * If there are collisions, report "no free space". 548 1.1 martin * We keep all lists sorted by start sector number, 549 1.1 martin */ 550 1.1 martin static bool 551 1.1 martin gpt_insert_part_into_list(struct gpt_disk_partitions *parts, 552 1.1 martin struct gpt_part_entry **list, 553 1.1 martin struct gpt_part_entry *entry, const char **err_msg) 554 1.1 martin { 555 1.1 martin struct gpt_part_entry *p, *last; 556 1.1 martin 557 1.1 martin /* find the first entry past the new one (if any) */ 558 1.1 martin for (last = NULL, p = *list; p != NULL; last = p, p = p->gp_next) { 559 1.1 martin if (p->gp_start > entry->gp_start) 560 1.1 martin break; 561 1.1 martin } 562 1.1 martin 563 1.1 martin /* check if last partition overlaps with new one */ 564 1.1 martin if (last) { 565 1.1 martin if (last->gp_start + last->gp_size > entry->gp_start) { 566 1.1 martin if (err_msg) 567 1.1 martin *err_msg = msg_string(MSG_No_free_space); 568 1.1 martin return false; 569 1.1 martin } 570 1.1 martin } 571 1.1 martin 572 1.1 martin if (p == NULL) { 573 1.1 martin entry->gp_next = NULL; 574 1.1 martin if (last != NULL) { 575 1.1 martin last->gp_next = entry; 576 1.1 martin } 577 1.1 martin } else { 578 1.1 martin /* check if new entry overlaps with next */ 579 1.1 martin if (entry->gp_start + entry->gp_size > p->gp_start) { 580 1.1 martin if (err_msg) 581 1.1 martin *err_msg = msg_string(MSG_No_free_space); 582 1.1 martin return false; 583 1.1 martin } 584 1.1 martin 585 1.1 martin entry->gp_next = p; 586 1.1 martin if (last != NULL) 587 1.1 martin last->gp_next = entry; 588 1.1 martin else 589 1.1 martin *list = entry; 590 1.1 martin } 591 1.1 martin if (*list == NULL) 592 1.1 martin *list = entry; 593 1.1 martin 594 1.1 martin return true; 595 1.1 martin } 596 1.1 martin 597 1.1 martin static bool 598 1.1 martin gpt_set_part_info(struct disk_partitions *arg, part_id id, 599 1.1 martin const struct disk_part_info *info, const char **err_msg) 600 1.1 martin { 601 1.1 martin struct gpt_disk_partitions *parts = 602 1.1 martin (struct gpt_disk_partitions*)arg; 603 1.1 martin struct gpt_part_entry *p = parts->partitions, *n; 604 1.1 martin part_id no; 605 1.1 martin daddr_t lendiff; 606 1.1 martin 607 1.1 martin for (no = 0; p != NULL && no < id; no++) 608 1.1 martin p = p->gp_next; 609 1.1 martin 610 1.1 martin if (no != id || p == NULL) 611 1.1 martin return false; 612 1.1 martin 613 1.1 martin if ((p->gp_flags & GPEF_ON_DISK)) { 614 1.1 martin if (info->start != p->gp_start) { 615 1.1 martin /* partition moved, we need to delete and re-add */ 616 1.1 martin n = calloc(1, sizeof(*n)); 617 1.1 martin if (n == NULL) { 618 1.1 martin if (err_msg) 619 1.1 martin *err_msg = err_outofmem; 620 1.1 martin return false; 621 1.1 martin } 622 1.1 martin *n = *p; 623 1.1 martin p->gp_flags &= ~GPEF_ON_DISK; 624 1.1 martin if (!gpt_insert_part_into_list(parts, &parts->obsolete, 625 1.1 martin n, err_msg)) 626 1.1 martin return false; 627 1.1 martin } else if (info->size != p->gp_size) { 628 1.1 martin p->gp_flags |= GPEF_RESIZED; 629 1.1 martin } 630 1.1 martin } 631 1.1 martin 632 1.1 martin p->gp_flags |= GPEF_MODIFIED; 633 1.1 martin 634 1.1 martin lendiff = info->size - p->gp_size; 635 1.1 martin parts->dp.free_space -= lendiff; 636 1.1 martin return gpt_info_to_part(p, info, err_msg); 637 1.1 martin } 638 1.1 martin 639 1.1 martin static size_t 640 1.1 martin gpt_get_free_spaces_internal(const struct gpt_disk_partitions *parts, 641 1.1 martin struct disk_part_free_space *result, size_t max_num_result, 642 1.1 martin daddr_t min_space_size, daddr_t align, daddr_t start, daddr_t ignore) 643 1.1 martin { 644 1.1 martin size_t cnt = 0; 645 1.1 martin daddr_t s, e, from, size, end_of_disk; 646 1.1 martin struct gpt_part_entry *p; 647 1.1 martin 648 1.1 martin if (align > 1) 649 1.1 martin start = max(roundup(start, align), align); 650 1.1 martin if (start < 0 || start < (daddr_t)parts->prologue) 651 1.1 martin start = parts->prologue; 652 1.1 martin if (parts->dp.disk_start != 0 && parts->dp.disk_start > start) 653 1.1 martin start = parts->dp.disk_start; 654 1.1 martin if (min_space_size < 1) 655 1.1 martin min_space_size = 1; 656 1.1 martin end_of_disk = parts->dp.disk_start + parts->dp.disk_size 657 1.1 martin - parts->epilogue; 658 1.1 martin from = start; 659 1.1 martin while (from < end_of_disk && cnt < max_num_result) { 660 1.1 martin again: 661 1.1 martin size = parts->dp.disk_start + parts->dp.disk_size - from; 662 1.1 martin start = from; 663 1.1 martin if (start + size > end_of_disk) 664 1.1 martin size = end_of_disk - start; 665 1.1 martin for (p = parts->partitions; p != NULL; p = p->gp_next) { 666 1.1 martin s = p->gp_start; 667 1.1 martin e = p->gp_size + s; 668 1.1 martin if (s == ignore) 669 1.1 martin continue; 670 1.1 martin if (e < from) 671 1.1 martin continue; 672 1.1 martin if (s <= from && e > from) { 673 1.1 martin if (e - 1 >= end_of_disk) 674 1.1 martin return cnt; 675 1.1 martin from = e + 1; 676 1.1 martin if (align > 1) { 677 1.1 martin from = max(roundup(from, align), align); 678 1.1 martin if (from >= end_of_disk) { 679 1.1 martin size = 0; 680 1.1 martin break; 681 1.1 martin } 682 1.1 martin } 683 1.1 martin goto again; 684 1.1 martin } 685 1.1 martin if (s > from && s - from < size) { 686 1.1 martin size = s - from; 687 1.1 martin } 688 1.1 martin } 689 1.1 martin if (size >= min_space_size) { 690 1.1 martin result->start = start; 691 1.1 martin result->size = size; 692 1.1 martin result++; 693 1.1 martin cnt++; 694 1.1 martin } 695 1.1 martin from += size + 1; 696 1.1 martin if (align > 1) 697 1.1 martin from = max(roundup(from, align), align); 698 1.1 martin } 699 1.1 martin 700 1.1 martin return cnt; 701 1.1 martin } 702 1.1 martin 703 1.1 martin static daddr_t 704 1.1 martin gpt_max_free_space_at(const struct disk_partitions *arg, daddr_t start) 705 1.1 martin { 706 1.1 martin const struct gpt_disk_partitions *parts = 707 1.1 martin (const struct gpt_disk_partitions*)arg; 708 1.1 martin struct disk_part_free_space space; 709 1.1 martin 710 1.1 martin if (gpt_get_free_spaces_internal(parts, &space, 1, 1, 0, 711 1.1 martin start, start) == 1) 712 1.1 martin return space.size; 713 1.1 martin 714 1.1 martin return 0; 715 1.1 martin } 716 1.1 martin 717 1.1 martin static size_t 718 1.1 martin gpt_get_free_spaces(const struct disk_partitions *arg, 719 1.1 martin struct disk_part_free_space *result, size_t max_num_result, 720 1.1 martin daddr_t min_space_size, daddr_t align, daddr_t start, 721 1.1 martin daddr_t ignore) 722 1.1 martin { 723 1.1 martin const struct gpt_disk_partitions *parts = 724 1.1 martin (const struct gpt_disk_partitions*)arg; 725 1.1 martin 726 1.1 martin return gpt_get_free_spaces_internal(parts, result, 727 1.1 martin max_num_result, min_space_size, align, start, ignore); 728 1.1 martin } 729 1.1 martin 730 1.1 martin static void 731 1.1 martin gpt_match_ptype(const char *name, struct gpt_ptype_desc *t) 732 1.1 martin { 733 1.1 martin size_t i; 734 1.1 martin 735 1.1 martin for (i = 0; i < __arraycount(gpt_fs_types); i++) { 736 1.1 martin if (strcmp(name, gpt_fs_types[i].name) == 0) { 737 1.1 martin t->gent.generic_ptype = gpt_fs_types[i].ptype; 738 1.1 martin t->fsflags = gpt_fs_types[i].fsflags; 739 1.1 martin t->default_fs_type = gpt_fs_types[i].fstype; 740 1.6.2.6 msaitoh 741 1.6.2.6 msaitoh /* recongnize special entries */ 742 1.6.2.6 msaitoh if (gpt_native_root == NULL && i == 0) 743 1.6.2.6 msaitoh gpt_native_root = &t->gent; 744 1.6.2.6 msaitoh 745 1.1 martin return; 746 1.1 martin } 747 1.1 martin } 748 1.1 martin 749 1.1 martin t->gent.generic_ptype = PT_unknown; 750 1.1 martin t->fsflags = 0; 751 1.1 martin t->default_fs_type = FS_BSDFFS; 752 1.1 martin } 753 1.1 martin 754 1.1 martin static void 755 1.1 martin gpt_internal_add_ptype(const char *uid, const char *name, const char *desc) 756 1.1 martin { 757 1.6.2.6 msaitoh if (gpt_ptype_cnt >= gpt_ptype_alloc) { 758 1.6.2.6 msaitoh gpt_ptype_alloc = gpt_ptype_alloc ? 2*gpt_ptype_alloc 759 1.6.2.6 msaitoh : GPT_PTYPE_ALLOC; 760 1.6.2.6 msaitoh struct gpt_ptype_desc *nptypes = realloc(gpt_ptype_descs, 761 1.6.2.6 msaitoh gpt_ptype_alloc*sizeof(*gpt_ptype_descs)); 762 1.6.2.6 msaitoh if (nptypes == 0) 763 1.6.2.6 msaitoh errx(EXIT_FAILURE, "out of memory"); 764 1.6.2.6 msaitoh gpt_ptype_descs = nptypes; 765 1.6.2.6 msaitoh } 766 1.6.2.6 msaitoh 767 1.1 martin strlcpy(gpt_ptype_descs[gpt_ptype_cnt].tid, uid, 768 1.1 martin sizeof(gpt_ptype_descs[gpt_ptype_cnt].tid)); 769 1.6.2.6 msaitoh gpt_ptype_descs[gpt_ptype_cnt].gent.short_desc = strdup(name); 770 1.6.2.6 msaitoh gpt_ptype_descs[gpt_ptype_cnt].gent.description = strdup(desc); 771 1.1 martin gpt_match_ptype(name, &gpt_ptype_descs[gpt_ptype_cnt]); 772 1.1 martin gpt_ptype_cnt++; 773 1.1 martin } 774 1.1 martin 775 1.1 martin static void 776 1.1 martin gpt_init_ptypes(void) 777 1.1 martin { 778 1.1 martin if (gpt_ptype_cnt == 0) 779 1.1 martin gpt_uuid_query(gpt_internal_add_ptype); 780 1.1 martin } 781 1.1 martin 782 1.6.2.6 msaitoh static void 783 1.6.2.6 msaitoh gpt_cleanup(void) 784 1.6.2.6 msaitoh { 785 1.6.2.6 msaitoh /* free all of gpt_ptype_descs */ 786 1.6.2.6 msaitoh for (size_t i = 0; i < gpt_ptype_cnt; i++) { 787 1.6.2.6 msaitoh free(__UNCONST(gpt_ptype_descs[i].gent.short_desc)); 788 1.6.2.6 msaitoh free(__UNCONST(gpt_ptype_descs[i].gent.description)); 789 1.6.2.6 msaitoh } 790 1.6.2.6 msaitoh free(gpt_ptype_descs); 791 1.6.2.6 msaitoh gpt_ptype_descs = NULL; 792 1.6.2.6 msaitoh gpt_ptype_cnt = gpt_ptype_alloc = 0; 793 1.6.2.6 msaitoh } 794 1.6.2.6 msaitoh 795 1.1 martin static size_t 796 1.1 martin gpt_type_count(void) 797 1.1 martin { 798 1.1 martin if (gpt_ptype_cnt == 0) 799 1.1 martin gpt_init_ptypes(); 800 1.1 martin 801 1.1 martin return gpt_ptype_cnt; 802 1.1 martin } 803 1.1 martin 804 1.1 martin static const struct part_type_desc * 805 1.1 martin gpt_get_ptype(size_t ndx) 806 1.1 martin { 807 1.1 martin if (gpt_ptype_cnt == 0) 808 1.1 martin gpt_init_ptypes(); 809 1.1 martin 810 1.1 martin if (ndx >= gpt_ptype_cnt) 811 1.1 martin return NULL; 812 1.1 martin 813 1.1 martin return &gpt_ptype_descs[ndx].gent; 814 1.1 martin } 815 1.1 martin 816 1.1 martin static const struct part_type_desc * 817 1.1 martin gpt_get_generic_type(enum part_type gent) 818 1.1 martin { 819 1.1 martin if (gpt_ptype_cnt == 0) 820 1.1 martin gpt_init_ptypes(); 821 1.1 martin 822 1.6.2.6 msaitoh if (gent == PT_root) 823 1.6.2.6 msaitoh return gpt_native_root; 824 1.6.2.6 msaitoh if (gent == PT_unknown) 825 1.6.2.6 msaitoh return NULL; 826 1.6.2.6 msaitoh 827 1.1 martin for (size_t i = 0; i < gpt_ptype_cnt; i++) 828 1.1 martin if (gpt_ptype_descs[i].gent.generic_ptype == gent) 829 1.1 martin return &gpt_ptype_descs[i].gent; 830 1.1 martin 831 1.1 martin return NULL; 832 1.1 martin } 833 1.1 martin 834 1.1 martin static const struct gpt_ptype_desc * 835 1.1 martin gpt_find_native_type(const struct part_type_desc *gent) 836 1.1 martin { 837 1.1 martin if (gpt_ptype_cnt == 0) 838 1.1 martin gpt_init_ptypes(); 839 1.1 martin 840 1.1 martin if (gent == NULL) 841 1.1 martin return NULL; 842 1.1 martin 843 1.1 martin for (size_t i = 0; i < gpt_ptype_cnt; i++) 844 1.1 martin if (gent == &gpt_ptype_descs[i].gent) 845 1.1 martin return &gpt_ptype_descs[i]; 846 1.1 martin 847 1.1 martin gent = gpt_get_generic_type(gent->generic_ptype); 848 1.1 martin if (gent == NULL) 849 1.1 martin return NULL; 850 1.1 martin 851 1.1 martin /* this can not recurse deeper than once, we would not have found a 852 1.1 martin * generic type a few lines above if it would. */ 853 1.1 martin return gpt_find_native_type(gent); 854 1.1 martin } 855 1.1 martin 856 1.1 martin static const struct gpt_ptype_desc * 857 1.1 martin gpt_find_guid_type(const char *uid) 858 1.1 martin { 859 1.1 martin if (gpt_ptype_cnt == 0) 860 1.1 martin gpt_init_ptypes(); 861 1.1 martin 862 1.1 martin if (uid == NULL || uid[0] == 0) 863 1.1 martin return NULL; 864 1.1 martin 865 1.1 martin for (size_t i = 0; i < gpt_ptype_cnt; i++) 866 1.1 martin if (strcmp(gpt_ptype_descs[i].tid, uid) == 0) 867 1.1 martin return &gpt_ptype_descs[i]; 868 1.1 martin 869 1.1 martin return NULL; 870 1.1 martin } 871 1.1 martin 872 1.1 martin static const struct part_type_desc * 873 1.1 martin gpt_find_type(const char *desc) 874 1.1 martin { 875 1.1 martin if (gpt_ptype_cnt == 0) 876 1.1 martin gpt_init_ptypes(); 877 1.1 martin 878 1.1 martin if (desc == NULL || desc[0] == 0) 879 1.1 martin return NULL; 880 1.1 martin 881 1.1 martin for (size_t i = 0; i < gpt_ptype_cnt; i++) 882 1.1 martin if (strcmp(gpt_ptype_descs[i].gent.short_desc, desc) == 0) 883 1.1 martin return &gpt_ptype_descs[i].gent; 884 1.1 martin 885 1.1 martin return NULL; 886 1.1 martin } 887 1.1 martin 888 1.1 martin static const struct part_type_desc * 889 1.6.2.7 msaitoh gpt_get_fs_part_type(enum part_type pt, unsigned fstype, unsigned fs_sub_type) 890 1.1 martin { 891 1.1 martin size_t i; 892 1.1 martin 893 1.6.2.8 msaitoh /* Try with complete match (including part_type) first */ 894 1.6.2.7 msaitoh for (i = 0; i < __arraycount(gpt_fs_types); i++) 895 1.6.2.7 msaitoh if (fstype == gpt_fs_types[i].fstype && 896 1.6.2.7 msaitoh pt == gpt_fs_types[i].ptype) 897 1.6.2.7 msaitoh return gpt_find_type(gpt_fs_types[i].name); 898 1.6.2.7 msaitoh 899 1.6.2.7 msaitoh /* If that did not work, ignore part_type */ 900 1.1 martin for (i = 0; i < __arraycount(gpt_fs_types); i++) 901 1.1 martin if (fstype == gpt_fs_types[i].fstype) 902 1.1 martin return gpt_find_type(gpt_fs_types[i].name); 903 1.1 martin 904 1.6.2.6 msaitoh return NULL; 905 1.6.2.6 msaitoh } 906 1.6.2.6 msaitoh 907 1.6.2.8 msaitoh static bool 908 1.6.2.8 msaitoh gpt_get_default_fstype(const struct part_type_desc *nat_type, 909 1.6.2.8 msaitoh unsigned *fstype, unsigned *fs_sub_type) 910 1.6.2.8 msaitoh { 911 1.6.2.8 msaitoh const struct gpt_ptype_desc *gtype; 912 1.6.2.8 msaitoh 913 1.6.2.8 msaitoh gtype = gpt_find_native_type(nat_type); 914 1.6.2.8 msaitoh if (gtype == NULL) 915 1.6.2.8 msaitoh return false; 916 1.6.2.8 msaitoh 917 1.6.2.8 msaitoh *fstype = gtype->default_fs_type; 918 1.6.2.8 msaitoh #ifdef DEFAULT_UFS2 919 1.6.2.8 msaitoh if (gtype->default_fs_type == FS_BSDFFS) 920 1.6.2.8 msaitoh *fs_sub_type = 2; 921 1.6.2.8 msaitoh else 922 1.6.2.8 msaitoh #endif 923 1.6.2.8 msaitoh *fs_sub_type = 0; 924 1.6.2.8 msaitoh return true; 925 1.6.2.8 msaitoh } 926 1.6.2.8 msaitoh 927 1.6.2.6 msaitoh static const struct part_type_desc * 928 1.6.2.6 msaitoh gpt_get_uuid_part_type(const uuid_t *id) 929 1.6.2.6 msaitoh { 930 1.6.2.6 msaitoh char str[GUID_STR_LEN], desc[GUID_STR_LEN + MENUSTRSIZE]; 931 1.6.2.6 msaitoh const struct gpt_ptype_desc *t; 932 1.6.2.6 msaitoh char *guid = NULL; 933 1.6.2.6 msaitoh uint32_t err; 934 1.6.2.6 msaitoh 935 1.6.2.6 msaitoh uuid_to_string(id, &guid, &err); 936 1.6.2.6 msaitoh strlcpy(str, err == uuid_s_ok ? guid : "-", sizeof str); 937 1.6.2.6 msaitoh free(guid); 938 1.6.2.6 msaitoh 939 1.6.2.6 msaitoh t = gpt_find_guid_type(str); 940 1.6.2.6 msaitoh if (t == NULL) { 941 1.6.2.6 msaitoh snprintf(desc, sizeof desc, "%s (%s)", 942 1.6.2.6 msaitoh msg_string(MSG_custom_type), str); 943 1.6.2.6 msaitoh gpt_internal_add_ptype(str, str, desc); 944 1.6.2.6 msaitoh t = gpt_find_guid_type(str); 945 1.6.2.6 msaitoh assert(t != NULL); 946 1.6.2.6 msaitoh } 947 1.6.2.6 msaitoh return &t->gent; 948 1.6.2.6 msaitoh } 949 1.6.2.6 msaitoh 950 1.6.2.6 msaitoh static const struct part_type_desc * 951 1.6.2.6 msaitoh gpt_create_custom_part_type(const char *custom, const char **err_msg) 952 1.6.2.6 msaitoh { 953 1.6.2.6 msaitoh uuid_t id; 954 1.6.2.6 msaitoh uint32_t err; 955 1.6.2.6 msaitoh 956 1.6.2.6 msaitoh uuid_from_string(custom, &id, &err); 957 1.6.2.6 msaitoh if (err_msg != NULL && 958 1.6.2.6 msaitoh (err == uuid_s_invalid_string_uuid || err == uuid_s_bad_version)) { 959 1.6.2.6 msaitoh *err_msg = MSG_invalid_guid; 960 1.6.2.6 msaitoh return NULL; 961 1.6.2.6 msaitoh } 962 1.6.2.6 msaitoh if (err != uuid_s_ok) 963 1.6.2.6 msaitoh return NULL; 964 1.6.2.6 msaitoh 965 1.6.2.6 msaitoh return gpt_get_uuid_part_type(&id); 966 1.6.2.6 msaitoh } 967 1.6.2.6 msaitoh 968 1.6.2.6 msaitoh static const struct part_type_desc * 969 1.6.2.6 msaitoh gpt_create_unknown_part_type(void) 970 1.6.2.6 msaitoh { 971 1.6.2.6 msaitoh uuid_t id; 972 1.6.2.6 msaitoh uint32_t err; 973 1.6.2.6 msaitoh 974 1.6.2.6 msaitoh uuid_create(&id, &err); 975 1.6.2.6 msaitoh if (err != uuid_s_ok) 976 1.6.2.6 msaitoh return NULL; 977 1.6.2.6 msaitoh 978 1.6.2.6 msaitoh return gpt_get_uuid_part_type(&id); 979 1.1 martin } 980 1.1 martin 981 1.1 martin static daddr_t 982 1.1 martin gpt_get_part_alignment(const struct disk_partitions *parts) 983 1.1 martin { 984 1.1 martin 985 1.1 martin assert(parts->disk_size > 0); 986 1.1 martin if (parts->disk_size < 0) 987 1.1 martin return 1; 988 1.1 martin 989 1.1 martin /* Use 1MB offset/alignemnt for large (>128GB) disks */ 990 1.1 martin if (parts->disk_size > HUGE_DISK_SIZE) 991 1.1 martin return 2048; 992 1.1 martin else if (parts->disk_size > TINY_DISK_SIZE) 993 1.1 martin return 64; 994 1.1 martin else 995 1.1 martin return 4; 996 1.1 martin } 997 1.1 martin 998 1.1 martin static bool 999 1.1 martin gpt_can_add_partition(const struct disk_partitions *arg) 1000 1.1 martin { 1001 1.1 martin const struct gpt_disk_partitions *parts = 1002 1.1 martin (const struct gpt_disk_partitions*)arg; 1003 1.1 martin struct disk_part_free_space space; 1004 1.1 martin daddr_t align; 1005 1.1 martin 1006 1.1 martin if (parts->dp.num_part >= parts->max_num_parts) 1007 1.1 martin return false; 1008 1.1 martin 1009 1.1 martin align = gpt_get_part_alignment(arg); 1010 1.1 martin if (parts->dp.free_space <= align) 1011 1.1 martin return false; 1012 1.1 martin 1013 1.1 martin if (gpt_get_free_spaces_internal(parts, &space, 1, align, align, 1014 1.1 martin 0, -1) < 1) 1015 1.1 martin return false; 1016 1.1 martin 1017 1.1 martin return true; 1018 1.1 martin } 1019 1.1 martin 1020 1.1 martin static bool 1021 1.1 martin gpt_info_to_part(struct gpt_part_entry *p, const struct disk_part_info *info, 1022 1.1 martin const char **err_msg) 1023 1.1 martin { 1024 1.1 martin p->gp_type = gpt_find_native_type(info->nat_type); 1025 1.1 martin p->gp_start = info->start; 1026 1.1 martin p->gp_size = info->size; 1027 1.1 martin if (info->last_mounted != NULL && info->last_mounted != 1028 1.1 martin p->last_mounted) { 1029 1.1 martin free(__UNCONST(p->last_mounted)); 1030 1.1 martin p->last_mounted = strdup(info->last_mounted); 1031 1.1 martin } 1032 1.1 martin p->fs_type = info->fs_type; 1033 1.1 martin p->fs_sub_type = info->fs_sub_type; 1034 1.1 martin 1035 1.1 martin return true; 1036 1.1 martin } 1037 1.1 martin 1038 1.1 martin static part_id 1039 1.1 martin gpt_add_part(struct disk_partitions *arg, 1040 1.1 martin const struct disk_part_info *info, const char **err_msg) 1041 1.1 martin { 1042 1.1 martin struct gpt_disk_partitions *parts = 1043 1.1 martin (struct gpt_disk_partitions*)arg; 1044 1.1 martin struct disk_part_free_space space; 1045 1.1 martin struct disk_part_info data = *info; 1046 1.1 martin struct gpt_part_entry *p; 1047 1.1 martin bool ok; 1048 1.1 martin 1049 1.1 martin if (err_msg != NULL) 1050 1.1 martin *err_msg = NULL; 1051 1.1 martin 1052 1.1 martin if (gpt_get_free_spaces_internal(parts, &space, 1, 1, 1, 1053 1.1 martin info->start, -1) < 1) { 1054 1.1 martin if (err_msg) 1055 1.1 martin *err_msg = msg_string(MSG_No_free_space); 1056 1.1 martin return NO_PART; 1057 1.1 martin } 1058 1.1 martin if (parts->dp.num_part >= parts->max_num_parts) { 1059 1.1 martin if (err_msg) 1060 1.1 martin *err_msg = msg_string(MSG_err_too_many_partitions); 1061 1.1 martin return NO_PART; 1062 1.1 martin } 1063 1.1 martin 1064 1.1 martin if (data.size > space.size) 1065 1.1 martin data.size = space.size; 1066 1.1 martin 1067 1.1 martin p = calloc(1, sizeof(*p)); 1068 1.1 martin if (p == NULL) { 1069 1.1 martin if (err_msg != NULL) 1070 1.1 martin *err_msg = INTERNAL_ERROR; 1071 1.1 martin return NO_PART; 1072 1.1 martin } 1073 1.1 martin if (!gpt_info_to_part(p, &data, err_msg)) { 1074 1.1 martin free(p); 1075 1.1 martin return NO_PART; 1076 1.1 martin } 1077 1.1 martin p->gp_flags |= GPEF_MODIFIED; 1078 1.1 martin ok = gpt_insert_part_into_list(parts, &parts->partitions, p, err_msg); 1079 1.1 martin if (ok) { 1080 1.1 martin parts->dp.num_part++; 1081 1.1 martin parts->dp.free_space -= p->gp_size; 1082 1.1 martin return parts->dp.num_part-1; 1083 1.1 martin } else { 1084 1.1 martin free(p); 1085 1.1 martin return NO_PART; 1086 1.1 martin } 1087 1.1 martin } 1088 1.1 martin 1089 1.1 martin static bool 1090 1.1 martin gpt_delete_partition(struct disk_partitions *arg, part_id id, 1091 1.1 martin const char **err_msg) 1092 1.1 martin { 1093 1.1 martin struct gpt_disk_partitions *parts = (struct gpt_disk_partitions*)arg; 1094 1.1 martin struct gpt_part_entry *p, *last = NULL; 1095 1.1 martin part_id i; 1096 1.1 martin bool res; 1097 1.1 martin 1098 1.1 martin if (parts->dp.num_part == 0) 1099 1.1 martin return false; 1100 1.1 martin 1101 1.1 martin for (i = 0, p = parts->partitions; 1102 1.1 martin i != id && i < parts->dp.num_part && p != NULL; 1103 1.1 martin i++, p = p->gp_next) 1104 1.1 martin last = p; 1105 1.1 martin 1106 1.1 martin if (p == NULL) { 1107 1.1 martin if (err_msg) 1108 1.1 martin *err_msg = INTERNAL_ERROR; 1109 1.1 martin return false; 1110 1.1 martin } 1111 1.1 martin 1112 1.1 martin if (last == NULL) 1113 1.1 martin parts->partitions = p->gp_next; 1114 1.1 martin else 1115 1.1 martin last->gp_next = p->gp_next; 1116 1.1 martin 1117 1.1 martin res = true; 1118 1.1 martin if (p->gp_flags & GPEF_ON_DISK) { 1119 1.1 martin if (!gpt_insert_part_into_list(parts, &parts->obsolete, 1120 1.1 martin p, err_msg)) 1121 1.1 martin res = false; 1122 1.1 martin } else { 1123 1.1 martin free(p); 1124 1.1 martin } 1125 1.1 martin 1126 1.1 martin if (res) { 1127 1.1 martin parts->dp.num_part--; 1128 1.1 martin parts->dp.free_space += p->gp_size; 1129 1.1 martin } 1130 1.1 martin 1131 1.1 martin return res; 1132 1.1 martin } 1133 1.1 martin 1134 1.1 martin static bool 1135 1.1 martin gpt_delete_all_partitions(struct disk_partitions *arg) 1136 1.1 martin { 1137 1.1 martin struct gpt_disk_partitions *parts = (struct gpt_disk_partitions*)arg; 1138 1.1 martin 1139 1.1 martin while (parts->dp.num_part > 0) { 1140 1.1 martin if (!gpt_delete_partition(&parts->dp, 0, NULL)) 1141 1.1 martin return false; 1142 1.1 martin } 1143 1.1 martin 1144 1.1 martin return true; 1145 1.1 martin } 1146 1.1 martin 1147 1.1 martin static bool 1148 1.1 martin gpt_read_part(const char *disk, daddr_t start, struct gpt_part_entry *p) 1149 1.1 martin { 1150 1.1 martin char *textbuf, *t, *tt; 1151 1.1 martin static const char expected_hdr[] = "Details for index "; 1152 1.1 martin 1153 1.1 martin /* run gpt show for this partition */ 1154 1.1 martin if (collect(T_OUTPUT, &textbuf, 1155 1.1 martin "gpt -r show -b %" PRIu64 " %s 2>/dev/null", start, disk) < 1) 1156 1.1 martin return false; 1157 1.1 martin 1158 1.1 martin /* 1159 1.1 martin * gpt show should respond with single partition details, but will 1160 1.1 martin * fall back to "show -a" output if something is wrong 1161 1.1 martin */ 1162 1.1 martin t = strtok(textbuf, "\n"); /* first line is special */ 1163 1.1 martin if (strncmp(t, expected_hdr, sizeof(expected_hdr)-1) != 0) { 1164 1.1 martin free(textbuf); 1165 1.1 martin return false; 1166 1.1 martin } 1167 1.1 martin 1168 1.1 martin /* parse output into "old" */ 1169 1.1 martin while ((t = strtok(NULL, "\n")) != NULL) { 1170 1.1 martin tt = strsep(&t, " \t"); 1171 1.1 martin if (strlen(tt) == 0) 1172 1.1 martin continue; 1173 1.1 martin gpt_add_info(p, tt, t, true); 1174 1.1 martin } 1175 1.1 martin free(textbuf); 1176 1.1 martin 1177 1.1 martin return true; 1178 1.1 martin } 1179 1.1 martin 1180 1.1 martin static bool 1181 1.1 martin gpt_apply_attr(const char *disk, const char *cmd, off_t start, uint todo) 1182 1.1 martin { 1183 1.1 martin size_t i; 1184 1.1 martin char attr_str[STRSIZE]; 1185 1.1 martin 1186 1.1 martin if (todo == 0) 1187 1.1 martin return true; 1188 1.1 martin 1189 1.1 martin strcpy(attr_str, "-a "); 1190 1.1 martin for (i = 0; todo != 0; i++) { 1191 1.1 martin if (!(gpt_avail_attrs[i].flag & todo)) 1192 1.1 martin continue; 1193 1.1 martin todo &= ~gpt_avail_attrs[i].flag; 1194 1.1 martin if (attr_str[0]) 1195 1.1 martin strlcat(attr_str, ",", 1196 1.1 martin sizeof(attr_str)); 1197 1.1 martin strlcat(attr_str, 1198 1.1 martin gpt_avail_attrs[i].name, 1199 1.1 martin sizeof(attr_str)); 1200 1.1 martin } 1201 1.1 martin if (run_program(RUN_SILENT, 1202 1.1 martin "gpt %s %s -b %" PRIu64 " %s", cmd, attr_str, start, disk) != 0) 1203 1.1 martin return false; 1204 1.1 martin return true; 1205 1.1 martin } 1206 1.1 martin 1207 1.1 martin /* 1208 1.1 martin * Modify an existing on-disk partition. 1209 1.1 martin * Start and size can not be changed here, caller needs to deal 1210 1.1 martin * with that kind of changes upfront. 1211 1.1 martin */ 1212 1.1 martin static bool 1213 1.1 martin gpt_modify_part(const char *disk, struct gpt_part_entry *p) 1214 1.1 martin { 1215 1.1 martin struct gpt_part_entry old; 1216 1.1 martin uint todo_set, todo_unset; 1217 1.1 martin 1218 1.1 martin /* 1219 1.1 martin * Query current on-disk state 1220 1.1 martin */ 1221 1.1 martin memset(&old, 0, sizeof old); 1222 1.1 martin if (!gpt_read_part(disk, p->gp_start, &old)) 1223 1.1 martin return false; 1224 1.1 martin 1225 1.1 martin /* Reject unsupported changes */ 1226 1.1 martin if (old.gp_start != p->gp_start || old.gp_size != p->gp_size) 1227 1.1 martin return false; 1228 1.1 martin 1229 1.1 martin /* 1230 1.1 martin * GUID should never change, but the internal copy 1231 1.1 martin * may not yet know it. 1232 1.1 martin */ 1233 1.1 martin strcpy(p->gp_id, old.gp_id); 1234 1.1 martin 1235 1.1 martin /* Check type */ 1236 1.1 martin if (p->gp_type != old.gp_type) { 1237 1.1 martin if (run_program(RUN_SILENT, 1238 1.1 martin "gpt label -b %" PRIu64 " -T %s %s", 1239 1.1 martin p->gp_start, p->gp_type->tid, disk) != 0) 1240 1.1 martin return false; 1241 1.1 martin } 1242 1.1 martin 1243 1.1 martin /* Check label */ 1244 1.1 martin if (strcmp(p->gp_label, old.gp_label) != 0) { 1245 1.1 martin if (run_program(RUN_SILENT, 1246 1.6.2.5 msaitoh "gpt label -b %" PRIu64 " -l \'%s\' %s", 1247 1.1 martin p->gp_start, p->gp_label, disk) != 0) 1248 1.1 martin return false; 1249 1.1 martin } 1250 1.1 martin 1251 1.1 martin /* Check attributes */ 1252 1.1 martin if (p->gp_attr != old.gp_attr) { 1253 1.1 martin if (p->gp_attr == 0) { 1254 1.1 martin if (run_program(RUN_SILENT, 1255 1.1 martin "gpt set -N -b %" PRIu64 " %s", 1256 1.1 martin p->gp_start, disk) != 0) 1257 1.1 martin return false; 1258 1.1 martin } else { 1259 1.1 martin todo_set = (p->gp_attr ^ old.gp_attr) & p->gp_attr; 1260 1.1 martin todo_unset = (p->gp_attr ^ old.gp_attr) & old.gp_attr; 1261 1.1 martin if (!gpt_apply_attr(disk, "unset", p->gp_start, 1262 1.1 martin todo_unset)) 1263 1.1 martin return false; 1264 1.1 martin if (!gpt_apply_attr(disk, "set", p->gp_start, 1265 1.1 martin todo_set)) 1266 1.1 martin return false; 1267 1.1 martin } 1268 1.1 martin } 1269 1.1 martin 1270 1.1 martin return true; 1271 1.1 martin } 1272 1.1 martin 1273 1.1 martin /* 1274 1.1 martin * verbatim copy from sys/dev/dkwedge/dkwedge_bsdlabel.c: 1275 1.1 martin * map FS_* to wedge strings 1276 1.1 martin */ 1277 1.1 martin static const char * 1278 1.1 martin bsdlabel_fstype_to_str(uint8_t fstype) 1279 1.1 martin { 1280 1.1 martin const char *str; 1281 1.1 martin 1282 1.1 martin /* 1283 1.1 martin * For each type known to FSTYPE_DEFN (from <sys/disklabel.h>), 1284 1.1 martin * a suitable case branch will convert the type number to a string. 1285 1.1 martin */ 1286 1.1 martin switch (fstype) { 1287 1.1 martin #define FSTYPE_TO_STR_CASE(tag, number, name, fsck, mount) \ 1288 1.1 martin case __CONCAT(FS_,tag): str = __CONCAT(DKW_PTYPE_,tag); break; 1289 1.1 martin FSTYPE_DEFN(FSTYPE_TO_STR_CASE) 1290 1.1 martin #undef FSTYPE_TO_STR_CASE 1291 1.1 martin default: str = NULL; break; 1292 1.1 martin } 1293 1.1 martin 1294 1.1 martin return (str); 1295 1.1 martin } 1296 1.1 martin 1297 1.1 martin static bool 1298 1.1 martin gpt_add_wedge(const char *disk, struct gpt_part_entry *p) 1299 1.1 martin { 1300 1.1 martin struct dkwedge_info dkw; 1301 1.1 martin const char *tname; 1302 1.1 martin char diskpath[MAXPATHLEN]; 1303 1.1 martin int fd; 1304 1.1 martin 1305 1.1 martin memset(&dkw, 0, sizeof(dkw)); 1306 1.1 martin tname = bsdlabel_fstype_to_str(p->fs_type); 1307 1.1 martin if (tname) 1308 1.1 martin strlcpy(dkw.dkw_ptype, tname, sizeof(dkw.dkw_ptype)); 1309 1.1 martin 1310 1.1 martin strlcpy((char*)&dkw.dkw_wname, p->gp_id, sizeof(dkw.dkw_wname)); 1311 1.1 martin dkw.dkw_offset = p->gp_start; 1312 1.1 martin dkw.dkw_size = p->gp_size; 1313 1.6.2.8 msaitoh if (dkw.dkw_wname[0] == 0) { 1314 1.6.2.8 msaitoh if (p->gp_label[0] != 0) 1315 1.6.2.8 msaitoh strlcpy((char*)&dkw.dkw_wname, 1316 1.6.2.8 msaitoh p->gp_label, sizeof(dkw.dkw_wname)); 1317 1.6.2.8 msaitoh } 1318 1.6.2.8 msaitoh if (dkw.dkw_wname[0] == 0) { 1319 1.6.2.8 msaitoh snprintf((char*)dkw.dkw_wname, sizeof dkw.dkw_wname, 1320 1.6.2.8 msaitoh "%s_%" PRIi64 "@%" PRIi64, disk, p->gp_size, p->gp_start); 1321 1.6.2.8 msaitoh } 1322 1.1 martin 1323 1.1 martin fd = opendisk(disk, O_RDWR, diskpath, sizeof(diskpath), 0); 1324 1.1 martin if (fd < 0) 1325 1.1 martin return false; 1326 1.1 martin if (ioctl(fd, DIOCAWEDGE, &dkw) == -1) { 1327 1.1 martin close(fd); 1328 1.1 martin return false; 1329 1.1 martin } 1330 1.1 martin close(fd); 1331 1.1 martin 1332 1.1 martin strlcpy(p->gp_dev_name, dkw.dkw_devname, sizeof(p->gp_dev_name)); 1333 1.1 martin p->gp_flags |= GPEF_WEDGE; 1334 1.1 martin return true; 1335 1.1 martin } 1336 1.1 martin 1337 1.6.2.5 msaitoh static void 1338 1.6.2.5 msaitoh escape_spaces(char *dest, const char *src) 1339 1.6.2.5 msaitoh { 1340 1.6.2.5 msaitoh unsigned char c; 1341 1.6.2.5 msaitoh 1342 1.6.2.5 msaitoh while (*src) { 1343 1.6.2.5 msaitoh c = *src++; 1344 1.6.2.5 msaitoh if (isspace(c) || c == '\\') 1345 1.6.2.5 msaitoh *dest++ = '\\'; 1346 1.6.2.5 msaitoh *dest++ = c; 1347 1.6.2.5 msaitoh } 1348 1.6.2.5 msaitoh *dest = 0; 1349 1.6.2.5 msaitoh } 1350 1.6.2.5 msaitoh 1351 1.1 martin static bool 1352 1.1 martin gpt_get_part_device(const struct disk_partitions *arg, 1353 1.1 martin part_id id, char *devname, size_t max_devname_len, int *part, 1354 1.6.2.8 msaitoh enum dev_name_usage usage, bool with_path, bool life) 1355 1.1 martin { 1356 1.1 martin const struct gpt_disk_partitions *parts = 1357 1.1 martin (const struct gpt_disk_partitions*)arg; 1358 1.1 martin struct gpt_part_entry *p = parts->partitions; 1359 1.6.2.5 msaitoh char tmpname[GPT_LABEL_LEN*2]; 1360 1.1 martin part_id no; 1361 1.1 martin 1362 1.1 martin 1363 1.1 martin for (no = 0; p != NULL && no < id; no++) 1364 1.1 martin p = p->gp_next; 1365 1.1 martin 1366 1.1 martin if (no != id || p == NULL) 1367 1.1 martin return false; 1368 1.1 martin 1369 1.1 martin if (part) 1370 1.1 martin *part = -1; 1371 1.1 martin 1372 1.6.2.8 msaitoh if (usage == logical_name && p->gp_label[0] == 0 && p->gp_id[0] == 0) 1373 1.6.2.8 msaitoh usage = plain_name; 1374 1.6.2.8 msaitoh if (usage == plain_name || usage == raw_dev_name) 1375 1.6.2.8 msaitoh life = true; 1376 1.6.2.8 msaitoh if (!(p->gp_flags & GPEF_WEDGE) && life) 1377 1.1 martin gpt_add_wedge(arg->disk, p); 1378 1.1 martin 1379 1.1 martin switch (usage) { 1380 1.1 martin case logical_name: 1381 1.6.2.5 msaitoh if (p->gp_label[0] != 0) { 1382 1.6.2.5 msaitoh escape_spaces(tmpname, p->gp_label); 1383 1.1 martin snprintf(devname, max_devname_len, 1384 1.6.2.5 msaitoh "NAME=%s", tmpname); 1385 1.6.2.5 msaitoh } else { 1386 1.1 martin snprintf(devname, max_devname_len, 1387 1.1 martin "NAME=%s", p->gp_id); 1388 1.6.2.5 msaitoh } 1389 1.1 martin break; 1390 1.1 martin case plain_name: 1391 1.1 martin assert(p->gp_flags & GPEF_WEDGE); 1392 1.1 martin if (with_path) 1393 1.1 martin snprintf(devname, max_devname_len, _PATH_DEV "%s", 1394 1.1 martin p->gp_dev_name); 1395 1.1 martin else 1396 1.1 martin strlcpy(devname, p->gp_dev_name, max_devname_len); 1397 1.1 martin break; 1398 1.1 martin case raw_dev_name: 1399 1.1 martin assert(p->gp_flags & GPEF_WEDGE); 1400 1.1 martin if (with_path) 1401 1.1 martin snprintf(devname, max_devname_len, _PATH_DEV "r%s", 1402 1.1 martin p->gp_dev_name); 1403 1.1 martin else 1404 1.1 martin snprintf(devname, max_devname_len, "r%s", 1405 1.1 martin p->gp_dev_name); 1406 1.1 martin break; 1407 1.1 martin default: 1408 1.1 martin return false; 1409 1.1 martin } 1410 1.1 martin 1411 1.1 martin return true; 1412 1.1 martin } 1413 1.1 martin 1414 1.1 martin static bool 1415 1.1 martin gpt_write_to_disk(struct disk_partitions *arg) 1416 1.1 martin { 1417 1.1 martin struct gpt_disk_partitions *parts = (struct gpt_disk_partitions*)arg; 1418 1.1 martin struct gpt_part_entry *p, *n; 1419 1.6.2.5 msaitoh char label_arg[sizeof(p->gp_label) + 10]; 1420 1.1 martin char diskpath[MAXPATHLEN]; 1421 1.1 martin int fd, bits = 0; 1422 1.1 martin bool root_is_new = false, efi_is_new = false; 1423 1.1 martin part_id root_id = NO_PART, efi_id = NO_PART, pno; 1424 1.1 martin 1425 1.1 martin /* 1426 1.1 martin * Remove all wedges on this disk - they may become invalid and we 1427 1.1 martin * have no easy way to associate them with the partitioning data. 1428 1.1 martin * Instead we will explicitly request creation of wedges on demand 1429 1.1 martin * later. 1430 1.1 martin */ 1431 1.1 martin fd = opendisk(arg->disk, O_RDWR, diskpath, sizeof(diskpath), 0); 1432 1.1 martin if (fd < 0) 1433 1.1 martin return false; 1434 1.1 martin if (ioctl(fd, DIOCRMWEDGES, &bits) == -1) 1435 1.1 martin return false; 1436 1.1 martin close(fd); 1437 1.1 martin 1438 1.1 martin /* 1439 1.6.2.6 msaitoh * Collect first root and efi partition (if available), clear 1440 1.6.2.6 msaitoh * "have wedge" flags. 1441 1.1 martin */ 1442 1.1 martin for (pno = 0, p = parts->partitions; p != NULL; p = p->gp_next, pno++) { 1443 1.6.2.6 msaitoh p->gp_flags &= ~GPEF_WEDGE; 1444 1.5 martin if (root_id == NO_PART && p->gp_type != NULL) { 1445 1.1 martin if (p->gp_type->gent.generic_ptype == PT_root && 1446 1.1 martin p->gp_start == pm->ptstart) { 1447 1.1 martin root_id = pno; 1448 1.1 martin root_is_new = !(p->gp_flags & GPEF_ON_DISK); 1449 1.1 martin } else if (efi_id == NO_PART && 1450 1.1 martin p->gp_type->gent.generic_ptype == PT_EFI_SYSTEM) { 1451 1.1 martin efi_id = pno; 1452 1.1 martin efi_is_new = !(p->gp_flags & GPEF_ON_DISK); 1453 1.1 martin } 1454 1.1 martin } 1455 1.1 martin } 1456 1.1 martin 1457 1.1 martin /* 1458 1.1 martin * If no GPT on disk yet, create it. 1459 1.1 martin */ 1460 1.1 martin if (!parts->has_gpt) { 1461 1.1 martin char limit[30]; 1462 1.1 martin 1463 1.1 martin if (parts->max_num_parts > 0) 1464 1.1 martin sprintf(limit, "-p %zu", parts->max_num_parts); 1465 1.1 martin else 1466 1.1 martin limit[0] = 0; 1467 1.1 martin if (run_program(RUN_SILENT, "gpt create %s %s", 1468 1.1 martin limit, parts->dp.disk)) 1469 1.1 martin return false; 1470 1.1 martin parts->has_gpt = true; 1471 1.1 martin } 1472 1.1 martin 1473 1.1 martin /* 1474 1.1 martin * Delete all old partitions 1475 1.1 martin */ 1476 1.1 martin for (p = parts->obsolete; p != NULL; p = n) { 1477 1.1 martin run_program(RUN_SILENT, "gpt -n remove -b %" PRIu64 " %s", 1478 1.1 martin p->gp_start, arg->disk); 1479 1.1 martin n = p->gp_next; 1480 1.1 martin free(p); 1481 1.1 martin } 1482 1.1 martin parts->obsolete = NULL; 1483 1.1 martin 1484 1.1 martin /* 1485 1.1 martin * Modify existing but changed partitions 1486 1.1 martin */ 1487 1.1 martin for (p = parts->partitions; p != NULL; p = p->gp_next) { 1488 1.1 martin if (!(p->gp_flags & GPEF_ON_DISK)) 1489 1.1 martin continue; 1490 1.1 martin 1491 1.1 martin if (p->gp_flags & GPEF_RESIZED) { 1492 1.1 martin run_program(RUN_SILENT, 1493 1.1 martin "gpt -n resize -b %" PRIu64 " -s %" PRIu64 "s %s", 1494 1.1 martin p->gp_start, p->gp_size, arg->disk); 1495 1.1 martin p->gp_flags &= ~GPEF_RESIZED; 1496 1.1 martin } 1497 1.1 martin 1498 1.1 martin if (!(p->gp_flags & GPEF_MODIFIED)) 1499 1.1 martin continue; 1500 1.1 martin 1501 1.1 martin if (!gpt_modify_part(parts->dp.disk, p)) 1502 1.1 martin return false; 1503 1.1 martin } 1504 1.1 martin 1505 1.1 martin /* 1506 1.1 martin * Add new partitions 1507 1.1 martin */ 1508 1.1 martin for (p = parts->partitions; p != NULL; p = p->gp_next) { 1509 1.1 martin if (p->gp_flags & GPEF_ON_DISK) 1510 1.1 martin continue; 1511 1.1 martin if (!(p->gp_flags & GPEF_MODIFIED)) 1512 1.1 martin continue; 1513 1.1 martin 1514 1.1 martin if (p->gp_label[0] == 0) 1515 1.1 martin label_arg[0] = 0; 1516 1.1 martin else 1517 1.6.2.5 msaitoh sprintf(label_arg, "-l \'%s\'", p->gp_label); 1518 1.1 martin 1519 1.5 martin if (p->gp_type != NULL) 1520 1.5 martin run_program(RUN_SILENT, 1521 1.5 martin "gpt -n add -b %" PRIu64 " -s %" PRIu64 1522 1.5 martin "s -t %s %s %s", 1523 1.5 martin p->gp_start, p->gp_size, p->gp_type->tid, 1524 1.5 martin label_arg, arg->disk); 1525 1.5 martin else 1526 1.5 martin run_program(RUN_SILENT, 1527 1.5 martin "gpt -n add -b %" PRIu64 " -s %" PRIu64 1528 1.5 martin "s %s %s", 1529 1.5 martin p->gp_start, p->gp_size, label_arg, arg->disk); 1530 1.1 martin gpt_apply_attr(arg->disk, "set", p->gp_start, p->gp_attr); 1531 1.1 martin gpt_read_part(arg->disk, p->gp_start, p); 1532 1.1 martin p->gp_flags |= GPEF_ON_DISK; 1533 1.1 martin } 1534 1.1 martin 1535 1.1 martin /* 1536 1.1 martin * Additional MD bootloader magic... 1537 1.1 martin */ 1538 1.1 martin if (!md_gpt_post_write(&parts->dp, root_id, root_is_new, efi_id, 1539 1.1 martin efi_is_new)) 1540 1.1 martin return false; 1541 1.1 martin 1542 1.1 martin return true; 1543 1.1 martin } 1544 1.1 martin 1545 1.6.2.3 msaitoh static part_id 1546 1.6.2.3 msaitoh gpt_find_by_name(struct disk_partitions *arg, const char *name) 1547 1.6.2.3 msaitoh { 1548 1.6.2.3 msaitoh struct gpt_disk_partitions *parts = (struct gpt_disk_partitions*)arg; 1549 1.6.2.3 msaitoh struct gpt_part_entry *p; 1550 1.6.2.3 msaitoh part_id pno; 1551 1.6.2.3 msaitoh 1552 1.6.2.3 msaitoh for (pno = 0, p = parts->partitions; p != NULL; 1553 1.6.2.3 msaitoh p = p->gp_next, pno++) { 1554 1.6.2.3 msaitoh if (strcmp(p->gp_label, name) == 0) 1555 1.6.2.3 msaitoh return pno; 1556 1.6.2.3 msaitoh if (strcmp(p->gp_id, name) == 0) 1557 1.6.2.3 msaitoh return pno; 1558 1.6.2.3 msaitoh } 1559 1.6.2.3 msaitoh 1560 1.6.2.3 msaitoh return NO_PART; 1561 1.6.2.3 msaitoh } 1562 1.6.2.3 msaitoh 1563 1.1 martin bool 1564 1.1 martin gpt_parts_check(void) 1565 1.1 martin { 1566 1.1 martin 1567 1.1 martin check_available_binaries(); 1568 1.1 martin 1569 1.1 martin return have_gpt && have_dk; 1570 1.1 martin } 1571 1.1 martin 1572 1.1 martin static void 1573 1.1 martin gpt_free(struct disk_partitions *arg) 1574 1.1 martin { 1575 1.1 martin struct gpt_disk_partitions *parts = (struct gpt_disk_partitions*)arg; 1576 1.1 martin struct gpt_part_entry *p, *n; 1577 1.1 martin 1578 1.1 martin assert(parts != NULL); 1579 1.1 martin for (p = parts->partitions; p != NULL; p = n) { 1580 1.1 martin free(__UNCONST(p->last_mounted)); 1581 1.1 martin n = p->gp_next; 1582 1.1 martin free(p); 1583 1.1 martin } 1584 1.6.2.6 msaitoh free(__UNCONST(parts->dp.disk)); 1585 1.1 martin free(parts); 1586 1.1 martin } 1587 1.1 martin 1588 1.1 martin static bool 1589 1.1 martin gpt_custom_attribute_writable(const struct disk_partitions *arg, 1590 1.1 martin part_id ptn, size_t attr_no) 1591 1.1 martin { 1592 1.1 martin const struct gpt_disk_partitions *parts = 1593 1.1 martin (const struct gpt_disk_partitions*)arg; 1594 1.1 martin size_t i; 1595 1.1 martin struct gpt_part_entry *p; 1596 1.1 martin 1597 1.1 martin if (attr_no >= arg->pscheme->custom_attribute_count) 1598 1.1 martin return false; 1599 1.1 martin 1600 1.1 martin const msg label = arg->pscheme->custom_attributes[attr_no].label; 1601 1.1 martin 1602 1.1 martin /* we can not edit the uuid attribute */ 1603 1.1 martin if (label == MSG_ptn_uuid) 1604 1.1 martin return false; 1605 1.1 martin 1606 1.1 martin /* the label is always editable */ 1607 1.1 martin if (label == MSG_ptn_label) 1608 1.1 martin return true; 1609 1.1 martin 1610 1.1 martin /* the GPT type is read only */ 1611 1.1 martin if (label == MSG_ptn_gpt_type) 1612 1.1 martin return false; 1613 1.1 martin 1614 1.1 martin /* BOOTME makes no sense on swap partitions */ 1615 1.1 martin for (i = 0, p = parts->partitions; p != NULL; i++, p = p->gp_next) 1616 1.1 martin if (i == ptn) 1617 1.1 martin break; 1618 1.1 martin 1619 1.1 martin if (p == NULL) 1620 1.1 martin return false; 1621 1.1 martin 1622 1.5 martin if (p->fs_type == FS_SWAP || 1623 1.5 martin (p->gp_type != NULL && p->gp_type->gent.generic_ptype == PT_swap)) 1624 1.1 martin return false; 1625 1.1 martin 1626 1.1 martin return true; 1627 1.1 martin } 1628 1.1 martin 1629 1.6 martin static const char * 1630 1.6 martin gpt_get_label_str(const struct disk_partitions *arg, part_id ptn) 1631 1.6 martin { 1632 1.6 martin const struct gpt_disk_partitions *parts = 1633 1.6 martin (const struct gpt_disk_partitions*)arg; 1634 1.6 martin size_t i; 1635 1.6 martin struct gpt_part_entry *p; 1636 1.6 martin 1637 1.6 martin for (i = 0, p = parts->partitions; p != NULL; i++, p = p->gp_next) 1638 1.6 martin if (i == ptn) 1639 1.6 martin break; 1640 1.6 martin 1641 1.6 martin if (p == NULL) 1642 1.6 martin return NULL; 1643 1.6 martin 1644 1.6 martin if (p->gp_label[0] != 0) 1645 1.6 martin return p->gp_label; 1646 1.6 martin return p->gp_id; 1647 1.6 martin } 1648 1.6 martin 1649 1.1 martin static bool 1650 1.1 martin gpt_format_custom_attribute(const struct disk_partitions *arg, 1651 1.1 martin part_id ptn, size_t attr_no, const struct disk_part_info *info, 1652 1.1 martin char *out, size_t out_space) 1653 1.1 martin { 1654 1.1 martin const struct gpt_disk_partitions *parts = 1655 1.1 martin (const struct gpt_disk_partitions*)arg; 1656 1.1 martin size_t i; 1657 1.1 martin struct gpt_part_entry *p, data; 1658 1.1 martin 1659 1.1 martin for (i = 0, p = parts->partitions; p != NULL; i++, p = p->gp_next) 1660 1.1 martin if (i == ptn) 1661 1.1 martin break; 1662 1.1 martin 1663 1.1 martin if (p == NULL) 1664 1.1 martin return false; 1665 1.1 martin 1666 1.1 martin if (attr_no >= parts->dp.pscheme->custom_attribute_count) 1667 1.1 martin return false; 1668 1.1 martin 1669 1.1 martin const msg label = parts->dp.pscheme->custom_attributes[attr_no].label; 1670 1.1 martin 1671 1.1 martin if (info != NULL) { 1672 1.1 martin data = *p; 1673 1.1 martin gpt_info_to_part(&data, info, NULL); 1674 1.1 martin p = &data; 1675 1.1 martin } 1676 1.1 martin 1677 1.1 martin if (label == MSG_ptn_label) 1678 1.1 martin strlcpy(out, p->gp_label, out_space); 1679 1.1 martin else if (label == MSG_ptn_uuid) 1680 1.1 martin strlcpy(out, p->gp_id, out_space); 1681 1.5 martin else if (label == MSG_ptn_gpt_type) { 1682 1.5 martin if (p->gp_type != NULL) 1683 1.5 martin strlcpy(out, p->gp_type->gent.description, out_space); 1684 1.5 martin else if (out_space > 1) 1685 1.5 martin out[0] = 0; 1686 1.5 martin } else if (label == MSG_ptn_boot) 1687 1.1 martin strlcpy(out, msg_string(p->gp_attr & GPT_ATTR_BOOT ? 1688 1.1 martin MSG_Yes : MSG_No), out_space); 1689 1.1 martin else 1690 1.1 martin return false; 1691 1.1 martin 1692 1.1 martin return true; 1693 1.1 martin } 1694 1.1 martin 1695 1.1 martin static bool 1696 1.1 martin gpt_custom_attribute_toggle(struct disk_partitions *arg, 1697 1.1 martin part_id ptn, size_t attr_no) 1698 1.1 martin { 1699 1.1 martin const struct gpt_disk_partitions *parts = 1700 1.1 martin (const struct gpt_disk_partitions*)arg; 1701 1.1 martin size_t i; 1702 1.1 martin struct gpt_part_entry *p; 1703 1.1 martin 1704 1.1 martin for (i = 0, p = parts->partitions; p != NULL; i++, p = p->gp_next) 1705 1.1 martin if (i == ptn) 1706 1.1 martin break; 1707 1.1 martin 1708 1.1 martin if (p == NULL) 1709 1.1 martin return false; 1710 1.1 martin 1711 1.1 martin if (attr_no >= parts->dp.pscheme->custom_attribute_count) 1712 1.1 martin return false; 1713 1.1 martin 1714 1.1 martin const msg label = parts->dp.pscheme->custom_attributes[attr_no].label; 1715 1.1 martin if (label != MSG_ptn_boot) 1716 1.1 martin return false; 1717 1.1 martin 1718 1.1 martin if (p->gp_attr & GPT_ATTR_BOOT) { 1719 1.1 martin p->gp_attr &= ~GPT_ATTR_BOOT; 1720 1.1 martin } else { 1721 1.1 martin for (i = 0, p = parts->partitions; p != NULL; 1722 1.1 martin i++, p = p->gp_next) 1723 1.1 martin if (i == ptn) 1724 1.1 martin p->gp_attr |= GPT_ATTR_BOOT; 1725 1.1 martin else 1726 1.1 martin p->gp_attr &= ~GPT_ATTR_BOOT; 1727 1.1 martin } 1728 1.1 martin return true; 1729 1.1 martin } 1730 1.1 martin 1731 1.1 martin static bool 1732 1.1 martin gpt_custom_attribute_set_str(struct disk_partitions *arg, 1733 1.1 martin part_id ptn, size_t attr_no, const char *new_val) 1734 1.1 martin { 1735 1.1 martin const struct gpt_disk_partitions *parts = 1736 1.1 martin (const struct gpt_disk_partitions*)arg; 1737 1.1 martin size_t i; 1738 1.1 martin struct gpt_part_entry *p; 1739 1.1 martin 1740 1.1 martin for (i = 0, p = parts->partitions; p != NULL; i++, p = p->gp_next) 1741 1.1 martin if (i == ptn) 1742 1.1 martin break; 1743 1.1 martin 1744 1.1 martin if (p == NULL) 1745 1.1 martin return false; 1746 1.1 martin 1747 1.1 martin if (attr_no >= parts->dp.pscheme->custom_attribute_count) 1748 1.1 martin return false; 1749 1.1 martin 1750 1.1 martin const msg label = parts->dp.pscheme->custom_attributes[attr_no].label; 1751 1.1 martin 1752 1.1 martin if (label != MSG_ptn_label) 1753 1.1 martin return false; 1754 1.1 martin 1755 1.1 martin strlcpy(p->gp_label, new_val, sizeof(p->gp_label)); 1756 1.1 martin return true; 1757 1.1 martin } 1758 1.1 martin 1759 1.1 martin static bool 1760 1.1 martin gpt_have_boot_support(const char *disk) 1761 1.1 martin { 1762 1.1 martin #ifdef HAVE_GPT_BOOT 1763 1.1 martin return true; 1764 1.1 martin #else 1765 1.1 martin return false; 1766 1.1 martin #endif 1767 1.1 martin } 1768 1.1 martin 1769 1.1 martin const struct disk_part_custom_attribute gpt_custom_attrs[] = { 1770 1.1 martin { .label = MSG_ptn_label, .type = pet_str }, 1771 1.1 martin { .label = MSG_ptn_uuid, .type = pet_str }, 1772 1.1 martin { .label = MSG_ptn_gpt_type, .type = pet_str }, 1773 1.1 martin { .label = MSG_ptn_boot, .type = pet_bool }, 1774 1.1 martin }; 1775 1.1 martin 1776 1.1 martin const struct disk_partitioning_scheme 1777 1.1 martin gpt_parts = { 1778 1.1 martin .name = MSG_parttype_gpt, 1779 1.1 martin .short_name = MSG_parttype_gpt_short, 1780 1.1 martin .part_flag_desc = MSG_gpt_flag_desc, 1781 1.1 martin .custom_attribute_count = __arraycount(gpt_custom_attrs), 1782 1.1 martin .custom_attributes = gpt_custom_attrs, 1783 1.1 martin .get_part_types_count = gpt_type_count, 1784 1.1 martin .get_part_type = gpt_get_ptype, 1785 1.1 martin .get_generic_part_type = gpt_get_generic_type, 1786 1.1 martin .get_fs_part_type = gpt_get_fs_part_type, 1787 1.6.2.8 msaitoh .get_default_fstype = gpt_get_default_fstype, 1788 1.6.2.6 msaitoh .create_custom_part_type = gpt_create_custom_part_type, 1789 1.6.2.6 msaitoh .create_unknown_part_type = gpt_create_unknown_part_type, 1790 1.1 martin .get_part_alignment = gpt_get_part_alignment, 1791 1.1 martin .read_from_disk = gpt_read_from_disk, 1792 1.6.2.8 msaitoh .get_cylinder_size = gpt_cyl_size, 1793 1.1 martin .create_new_for_disk = gpt_create_new, 1794 1.1 martin .have_boot_support = gpt_have_boot_support, 1795 1.6.2.3 msaitoh .find_by_name = gpt_find_by_name, 1796 1.1 martin .can_add_partition = gpt_can_add_partition, 1797 1.1 martin .custom_attribute_writable = gpt_custom_attribute_writable, 1798 1.1 martin .format_custom_attribute = gpt_format_custom_attribute, 1799 1.1 martin .custom_attribute_toggle = gpt_custom_attribute_toggle, 1800 1.1 martin .custom_attribute_set_str = gpt_custom_attribute_set_str, 1801 1.6 martin .other_partition_identifier = gpt_get_label_str, 1802 1.1 martin .get_part_device = gpt_get_part_device, 1803 1.1 martin .max_free_space_at = gpt_max_free_space_at, 1804 1.1 martin .get_free_spaces = gpt_get_free_spaces, 1805 1.6.2.6 msaitoh .adapt_foreign_part_info = generic_adapt_foreign_part_info, 1806 1.1 martin .get_part_info = gpt_get_part_info, 1807 1.1 martin .get_part_attr_str = gpt_get_part_attr_str, 1808 1.1 martin .set_part_info = gpt_set_part_info, 1809 1.1 martin .add_partition = gpt_add_part, 1810 1.1 martin .delete_all_partitions = gpt_delete_all_partitions, 1811 1.1 martin .delete_partition = gpt_delete_partition, 1812 1.1 martin .write_to_disk = gpt_write_to_disk, 1813 1.1 martin .free = gpt_free, 1814 1.6.2.6 msaitoh .cleanup = gpt_cleanup, 1815 1.1 martin }; 1816
Indexes created Thu Oct 02 01:09:59 GMT 2025