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      1 /*
      2  * probe.c - identify a block device by its contents, and return a dev
      3  *           struct with the details
      4  *
      5  * Copyright (C) 1999 by Andries Brouwer
      6  * Copyright (C) 1999, 2000, 2003 by Theodore Ts'o
      7  * Copyright (C) 2001 by Andreas Dilger
      8  * Copyright (C) 2004 Kay Sievers <kay.sievers (at) vrfy.org>
      9  *
     10  * %Begin-Header%
     11  * This file may be redistributed under the terms of the
     12  * GNU Lesser General Public License.
     13  * %End-Header%
     14  */
     15 
     16 #include "config.h"
     17 #include <stdio.h>
     18 #include <string.h>
     19 #include <stdlib.h>
     20 #include <unistd.h>
     21 #include <fcntl.h>
     22 #include <ctype.h>
     23 #include <sys/types.h>
     24 #ifdef HAVE_SYS_STAT_H
     25 #include <sys/stat.h>
     26 #endif
     27 #ifdef HAVE_SYS_MKDEV_H
     28 #include <sys/mkdev.h>
     29 #endif
     30 #ifdef __linux__
     31 #include <sys/utsname.h>
     32 #endif
     33 #ifdef HAVE_ERRNO_H
     34 #include <errno.h>
     35 #endif
     36 #include "blkidP.h"
     37 #include "uuid/uuid.h"
     38 #include "probe.h"
     39 
     40 static int figure_label_len(const unsigned char *label, int len)
     41 {
     42 	const unsigned char *end = label + len - 1;
     43 
     44 	while (end >= label && (*end == ' ' || *end == 0))
     45 		--end;
     46 	if (end >= label)
     47 		return end - label + 1;
     48 	return 0;
     49 }
     50 
     51 static unsigned char *get_buffer(struct blkid_probe *pr,
     52 			  blkid_loff_t off, size_t len)
     53 {
     54 	ssize_t		ret_read;
     55 	unsigned char	*newbuf;
     56 
     57 	if (off + len <= SB_BUFFER_SIZE) {
     58 		if (!pr->sbbuf) {
     59 			pr->sbbuf = malloc(SB_BUFFER_SIZE);
     60 			if (!pr->sbbuf)
     61 				return NULL;
     62 			if (lseek(pr->fd, 0, SEEK_SET) < 0)
     63 				return NULL;
     64 			ret_read = read(pr->fd, pr->sbbuf, SB_BUFFER_SIZE);
     65 			if (ret_read < 0)
     66 				ret_read = 0;
     67 			pr->sb_valid = ret_read;
     68 		}
     69 		if (off+len > pr->sb_valid)
     70 			return NULL;
     71 		return pr->sbbuf + off;
     72 	} else {
     73 		if (len > pr->buf_max) {
     74 			newbuf = realloc(pr->buf, len);
     75 			if (newbuf == NULL)
     76 				return NULL;
     77 			pr->buf = newbuf;
     78 			pr->buf_max = len;
     79 		}
     80 		if (blkid_llseek(pr->fd, off, SEEK_SET) < 0)
     81 			return NULL;
     82 		ret_read = read(pr->fd, pr->buf, len);
     83 		if (ret_read != (ssize_t) len)
     84 			return NULL;
     85 		return pr->buf;
     86 	}
     87 }
     88 
     89 
     90 /*
     91  * This is a special case code to check for an MDRAID device.  We do
     92  * this special since it requires checking for a superblock at the end
     93  * of the device.
     94  */
     95 static int check_mdraid(int fd, unsigned char *ret_uuid)
     96 {
     97 	struct mdp_superblock_s *md;
     98 	blkid_loff_t		offset;
     99 	char			buf[4096];
    100 
    101 	if (fd < 0)
    102 		return -BLKID_ERR_PARAM;
    103 
    104 	offset = (blkid_get_dev_size(fd) & ~((blkid_loff_t)65535)) - 65536;
    105 
    106 	if (blkid_llseek(fd, offset, 0) < 0 ||
    107 	    read(fd, buf, 4096) != 4096)
    108 		return -BLKID_ERR_IO;
    109 	/* Check for magic number */
    110 	if (memcmp("\251+N\374", buf, 4) && memcmp("\374N+\251", buf, 4))
    111 		return -BLKID_ERR_PARAM;
    112 
    113 	if (!ret_uuid)
    114 		return 0;
    115 	*ret_uuid = 0;
    116 
    117 	/* The MD UUID is not contiguous in the superblock, make it so */
    118 	md = (struct mdp_superblock_s *)buf;
    119 	if (md->set_uuid0 || md->set_uuid1 || md->set_uuid2 || md->set_uuid3) {
    120 		memcpy(ret_uuid, &md->set_uuid0, 4);
    121 		memcpy(ret_uuid + 4, &md->set_uuid1, 12);
    122 	}
    123 	return 0;
    124 }
    125 
    126 static void set_uuid(blkid_dev dev, uuid_t uuid, const char *tag)
    127 {
    128 	char	str[37];
    129 
    130 	if (!uuid_is_null(uuid)) {
    131 		uuid_unparse(uuid, str);
    132 		blkid_set_tag(dev, tag ? tag : "UUID", str, sizeof(str));
    133 	}
    134 }
    135 
    136 static void get_ext2_info(blkid_dev dev, struct blkid_magic *id,
    137 			  unsigned char *buf)
    138 {
    139 	struct ext2_super_block *es = (struct ext2_super_block *) buf;
    140 	const char *label = 0;
    141 
    142 	DBG(DEBUG_PROBE, printf("ext2_sb.compat = %08X:%08X:%08X\n",
    143 		   blkid_le32(es->s_feature_compat),
    144 		   blkid_le32(es->s_feature_incompat),
    145 		   blkid_le32(es->s_feature_ro_compat)));
    146 
    147 	if (strlen(es->s_volume_name))
    148 		label = es->s_volume_name;
    149 	blkid_set_tag(dev, "LABEL", label, sizeof(es->s_volume_name));
    150 
    151 	set_uuid(dev, es->s_uuid, 0);
    152 
    153 	if ((es->s_feature_compat & EXT3_FEATURE_COMPAT_HAS_JOURNAL) &&
    154 	    !uuid_is_null(es->s_journal_uuid))
    155 		set_uuid(dev, es->s_journal_uuid, "EXT_JOURNAL");
    156 
    157 	if (strcmp(id->bim_type, "ext2") &&
    158 	    ((blkid_le32(es->s_feature_incompat) &
    159 	      EXT2_FEATURE_INCOMPAT_UNSUPPORTED) == 0))
    160 		blkid_set_tag(dev, "SEC_TYPE", "ext2", sizeof("ext2"));
    161 }
    162 
    163 /*
    164  * Check to see if a filesystem is in /proc/filesystems.
    165  * Returns 1 if found, 0 if not
    166  */
    167 static int fs_proc_check(const char *fs_name)
    168 {
    169 	FILE	*f;
    170 	char	buf[80], *cp, *t;
    171 
    172 	f = fopen("/proc/filesystems", "r");
    173 	if (!f)
    174 		return (0);
    175 	while (!feof(f)) {
    176 		if (!fgets(buf, sizeof(buf), f))
    177 			break;
    178 		cp = buf;
    179 		if (!isspace(*cp)) {
    180 			while (*cp && !isspace(*cp))
    181 				cp++;
    182 		}
    183 		while (*cp && isspace(*cp))
    184 			cp++;
    185 		if ((t = strchr(cp, '\n')) != NULL)
    186 			*t = 0;
    187 		if ((t = strchr(cp, '\t')) != NULL)
    188 			*t = 0;
    189 		if ((t = strchr(cp, ' ')) != NULL)
    190 			*t = 0;
    191 		if (!strcmp(fs_name, cp)) {
    192 			fclose(f);
    193 			return (1);
    194 		}
    195 	}
    196 	fclose(f);
    197 	return (0);
    198 }
    199 
    200 /*
    201  * Check to see if a filesystem is available as a module
    202  * Returns 1 if found, 0 if not
    203  */
    204 static int check_for_modules(const char *fs_name)
    205 {
    206 #ifdef __linux__
    207 	struct utsname	uts;
    208 	FILE		*f;
    209 	char		buf[1024], *cp;
    210 	int		namesz;
    211 
    212 	if (uname(&uts))
    213 		return (0);
    214 	snprintf(buf, sizeof(buf), "/lib/modules/%s/modules.dep", uts.release);
    215 
    216 	f = fopen(buf, "r");
    217 	if (!f)
    218 		return (0);
    219 
    220 	namesz = strlen(fs_name);
    221 
    222 	while (!feof(f)) {
    223 		if (!fgets(buf, sizeof(buf), f))
    224 			break;
    225 		if ((cp = strchr(buf, ':')) != NULL)
    226 			*cp = 0;
    227 		else
    228 			continue;
    229 		if ((cp = strrchr(buf, '/')) != NULL)
    230 			cp++;
    231 		else
    232 			cp = buf;
    233 		if (!strncmp(cp, fs_name, namesz) &&
    234 		    (!strcmp(cp + namesz, ".ko") ||
    235 		     !strcmp(cp + namesz, ".ko.gz"))) {
    236 			fclose(f);
    237 			return (1);
    238 		}
    239 	}
    240 	fclose(f);
    241 #endif
    242 	return (0);
    243 }
    244 
    245 static int linux_version_code(void)
    246 {
    247 #ifdef __linux__
    248 	struct utsname	ut;
    249 	static int	version_code = -1;
    250 	int		major, minor, rev;
    251 	char		*endptr;
    252 	const char 	*cp;
    253 
    254 	if (version_code > 0)
    255 		return version_code;
    256 
    257 	if (uname(&ut))
    258 		return 0;
    259 	cp = ut.release;
    260 
    261 	major = strtol(cp, &endptr, 10);
    262 	if (cp == endptr || *endptr != '.')
    263 		return 0;
    264 	cp = endptr + 1;
    265 	minor = strtol(cp, &endptr, 10);
    266 	if (cp == endptr || *endptr != '.')
    267 		return 0;
    268 	cp = endptr + 1;
    269 	rev = strtol(cp, &endptr, 10);
    270 	if (cp == endptr)
    271 		return 0;
    272 	version_code = (((major * 256) + minor) * 256) + rev;
    273 	return version_code;
    274 #else
    275 	return 0;
    276 #endif
    277 }
    278 
    279 #define EXT4_SUPPORTS_EXT2 (2 * 65536 + 6*256 + 29)
    280 
    281 static int system_supports_ext2(void)
    282 {
    283 	static time_t	last_check = 0;
    284 	static int	ret = -1;
    285 	time_t		now = time(0);
    286 
    287 	if (ret != -1 || (now - last_check) < 5)
    288 		return ret;
    289 	last_check = now;
    290 	ret = (fs_proc_check("ext2") || check_for_modules("ext2"));
    291 	return ret;
    292 }
    293 
    294 static int system_supports_ext4(void)
    295 {
    296 	static time_t	last_check = 0;
    297 	static int	ret = -1;
    298 	time_t		now = time(0);
    299 
    300 	if (ret != -1 || (now - last_check) < 5)
    301 		return ret;
    302 	last_check = now;
    303 	ret = (fs_proc_check("ext4") || check_for_modules("ext4"));
    304 	return ret;
    305 }
    306 
    307 static int system_supports_ext4dev(void)
    308 {
    309 	static time_t	last_check = 0;
    310 	static int	ret = -1;
    311 	time_t		now = time(0);
    312 
    313 	if (ret != -1 || (now - last_check) < 5)
    314 		return ret;
    315 	last_check = now;
    316 	ret = (fs_proc_check("ext4dev") || check_for_modules("ext4dev"));
    317 	return ret;
    318 }
    319 
    320 static int probe_ext4dev(struct blkid_probe *probe,
    321 			 struct blkid_magic *id,
    322 			 unsigned char *buf)
    323 {
    324 	struct ext2_super_block *es;
    325 	es = (struct ext2_super_block *)buf;
    326 
    327 	/* Distinguish from jbd */
    328 	if (blkid_le32(es->s_feature_incompat) &
    329 	    EXT3_FEATURE_INCOMPAT_JOURNAL_DEV)
    330 		return -BLKID_ERR_PARAM;
    331 
    332 	/*
    333 	 * If the filesystem does not have a journal and ext2 and ext4
    334 	 * is not present, then force this to be detected as an
    335 	 * ext4dev filesystem.
    336 	 */
    337 	if (!(blkid_le32(es->s_feature_compat) &
    338 	      EXT3_FEATURE_COMPAT_HAS_JOURNAL) &&
    339 	    !system_supports_ext2() && !system_supports_ext4() &&
    340 	    system_supports_ext4dev() &&
    341 	    linux_version_code() >= EXT4_SUPPORTS_EXT2)
    342 		goto force_ext4dev;
    343 
    344 	/*
    345 	 * If the filesystem is marked as OK for use by in-development
    346 	 * filesystem code, but ext4dev is not supported, and ext4 is,
    347 	 * then don't call ourselves ext4dev, since we should be
    348 	 * detected as ext4 in that case.
    349 	 *
    350 	 * If the filesystem is marked as in use by production
    351 	 * filesystem, then it can only be used by ext4 and NOT by
    352 	 * ext4dev, so always disclaim we are ext4dev in that case.
    353 	 */
    354 	if (blkid_le32(es->s_flags) & EXT2_FLAGS_TEST_FILESYS) {
    355 		if (!system_supports_ext4dev() && system_supports_ext4())
    356 			return -BLKID_ERR_PARAM;
    357 	} else
    358 		return -BLKID_ERR_PARAM;
    359 
    360 force_ext4dev:
    361     	get_ext2_info(probe->dev, id, buf);
    362 	return 0;
    363 }
    364 
    365 static int probe_ext4(struct blkid_probe *probe, struct blkid_magic *id,
    366 		      unsigned char *buf)
    367 {
    368 	struct ext2_super_block *es;
    369 	es = (struct ext2_super_block *)buf;
    370 
    371 	/* Distinguish from jbd */
    372 	if (blkid_le32(es->s_feature_incompat) &
    373 	    EXT3_FEATURE_INCOMPAT_JOURNAL_DEV)
    374 		return -BLKID_ERR_PARAM;
    375 
    376 	/*
    377 	 * If the filesystem does not have a journal and ext2 is not
    378 	 * present, then force this to be detected as an ext2
    379 	 * filesystem.
    380 	 */
    381 	if (!(blkid_le32(es->s_feature_compat) &
    382 	      EXT3_FEATURE_COMPAT_HAS_JOURNAL) &&
    383 	    !system_supports_ext2() && system_supports_ext4() &&
    384 	    linux_version_code() >= EXT4_SUPPORTS_EXT2)
    385 		goto force_ext4;
    386 
    387 	/* Ext4 has at least one feature which ext3 doesn't understand */
    388 	if (!(blkid_le32(es->s_feature_ro_compat) &
    389 	      EXT3_FEATURE_RO_COMPAT_UNSUPPORTED) &&
    390 	    !(blkid_le32(es->s_feature_incompat) &
    391 	      EXT3_FEATURE_INCOMPAT_UNSUPPORTED))
    392 		return -BLKID_ERR_PARAM;
    393 
    394 force_ext4:
    395 	/*
    396 	 * If the filesystem is a OK for use by in-development
    397 	 * filesystem code, and ext4dev is supported or ext4 is not
    398 	 * supported, then don't call ourselves ext4, so we can redo
    399 	 * the detection and mark the filesystem as ext4dev.
    400 	 *
    401 	 * If the filesystem is marked as in use by production
    402 	 * filesystem, then it can only be used by ext4 and NOT by
    403 	 * ext4dev.
    404 	 */
    405 	if (blkid_le32(es->s_flags) & EXT2_FLAGS_TEST_FILESYS) {
    406 		if (system_supports_ext4dev() || !system_supports_ext4())
    407 			return -BLKID_ERR_PARAM;
    408 	}
    409     	get_ext2_info(probe->dev, id, buf);
    410 	return 0;
    411 }
    412 
    413 static int probe_ext3(struct blkid_probe *probe, struct blkid_magic *id,
    414 		      unsigned char *buf)
    415 {
    416 	struct ext2_super_block *es;
    417 	es = (struct ext2_super_block *)buf;
    418 
    419 	/* ext3 requires journal */
    420 	if (!(blkid_le32(es->s_feature_compat) &
    421 	      EXT3_FEATURE_COMPAT_HAS_JOURNAL))
    422 		return -BLKID_ERR_PARAM;
    423 
    424 	/* Any features which ext3 doesn't understand */
    425 	if ((blkid_le32(es->s_feature_ro_compat) &
    426 	     EXT3_FEATURE_RO_COMPAT_UNSUPPORTED) ||
    427 	    (blkid_le32(es->s_feature_incompat) &
    428 	     EXT3_FEATURE_INCOMPAT_UNSUPPORTED))
    429 		return -BLKID_ERR_PARAM;
    430 
    431     	get_ext2_info(probe->dev, id, buf);
    432 	return 0;
    433 }
    434 
    435 static int probe_ext2(struct blkid_probe *probe, struct blkid_magic *id,
    436 		      unsigned char *buf)
    437 {
    438 	struct ext2_super_block *es;
    439 
    440 	es = (struct ext2_super_block *)buf;
    441 
    442 	/* Distinguish between ext3 and ext2 */
    443 	if ((blkid_le32(es->s_feature_compat) &
    444 	      EXT3_FEATURE_COMPAT_HAS_JOURNAL))
    445 		return -BLKID_ERR_PARAM;
    446 
    447 	/* Any features which ext2 doesn't understand */
    448 	if ((blkid_le32(es->s_feature_ro_compat) &
    449 	     EXT2_FEATURE_RO_COMPAT_UNSUPPORTED) ||
    450 	    (blkid_le32(es->s_feature_incompat) &
    451 	     EXT2_FEATURE_INCOMPAT_UNSUPPORTED))
    452 		return -BLKID_ERR_PARAM;
    453 
    454 	/*
    455 	 * If ext2 is not present, but ext4 or ext4dev are, then
    456 	 * disclaim we are ext2
    457 	 */
    458 	if (!system_supports_ext2() &&
    459 	    (system_supports_ext4() || system_supports_ext4dev()) &&
    460 	    linux_version_code() >= EXT4_SUPPORTS_EXT2)
    461 		return -BLKID_ERR_PARAM;
    462 
    463 	get_ext2_info(probe->dev, id, buf);
    464 	return 0;
    465 }
    466 
    467 static int probe_jbd(struct blkid_probe *probe, struct blkid_magic *id,
    468 		     unsigned char *buf)
    469 {
    470 	struct ext2_super_block *es = (struct ext2_super_block *) buf;
    471 
    472 	if (!(blkid_le32(es->s_feature_incompat) &
    473 	      EXT3_FEATURE_INCOMPAT_JOURNAL_DEV))
    474 		return -BLKID_ERR_PARAM;
    475 
    476 	get_ext2_info(probe->dev, id, buf);
    477 
    478 	return 0;
    479 }
    480 
    481 #define FAT_ATTR_VOLUME_ID		0x08
    482 #define FAT_ATTR_DIR			0x10
    483 #define FAT_ATTR_LONG_NAME		0x0f
    484 #define FAT_ATTR_MASK			0x3f
    485 #define FAT_ENTRY_FREE			0xe5
    486 
    487 static const char *no_name = "NO NAME    ";
    488 
    489 static unsigned char *search_fat_label(struct vfat_dir_entry *dir, int count)
    490 {
    491 	int i;
    492 
    493 	for (i = 0; i < count; i++) {
    494 		if (dir[i].name[0] == 0x00)
    495 			break;
    496 
    497 		if ((dir[i].name[0] == FAT_ENTRY_FREE) ||
    498 		    (dir[i].cluster_high != 0 || dir[i].cluster_low != 0) ||
    499 		    ((dir[i].attr & FAT_ATTR_MASK) == FAT_ATTR_LONG_NAME))
    500 			continue;
    501 
    502 		if ((dir[i].attr & (FAT_ATTR_VOLUME_ID | FAT_ATTR_DIR)) ==
    503 		    FAT_ATTR_VOLUME_ID) {
    504 			return dir[i].name;
    505 		}
    506 	}
    507 	return 0;
    508 }
    509 
    510 /* FAT label extraction from the root directory taken from Kay
    511  * Sievers's volume_id library */
    512 static int probe_fat(struct blkid_probe *probe,
    513 		      struct blkid_magic *id __BLKID_ATTR((unused)),
    514 		      unsigned char *buf)
    515 {
    516 	struct vfat_super_block *vs = (struct vfat_super_block *) buf;
    517 	struct msdos_super_block *ms = (struct msdos_super_block *) buf;
    518 	struct vfat_dir_entry *dir;
    519 	char serno[10];
    520 	const unsigned char *label = 0, *vol_label = 0, *tmp;
    521 	unsigned char	*vol_serno;
    522 	int label_len = 0, maxloop = 100;
    523 	__u16 sector_size, dir_entries, reserved;
    524 	__u32 sect_count, fat_size, dir_size, cluster_count, fat_length;
    525 	__u32 buf_size, start_data_sect, next, root_start, root_dir_entries;
    526 
    527 	/* sector size check */
    528 	tmp = (unsigned char *)&ms->ms_sector_size;
    529 	sector_size = tmp[0] + (tmp[1] << 8);
    530 	if (sector_size != 0x200 && sector_size != 0x400 &&
    531 	    sector_size != 0x800 && sector_size != 0x1000)
    532 		return 1;
    533 
    534 	tmp = (unsigned char *)&ms->ms_dir_entries;
    535 	dir_entries = tmp[0] + (tmp[1] << 8);
    536 	reserved =  blkid_le16(ms->ms_reserved);
    537 	tmp = (unsigned char *)&ms->ms_sectors;
    538 	sect_count = tmp[0] + (tmp[1] << 8);
    539 	if (sect_count == 0)
    540 		sect_count = blkid_le32(ms->ms_total_sect);
    541 
    542 	fat_length = blkid_le16(ms->ms_fat_length);
    543 	if (fat_length == 0)
    544 		fat_length = blkid_le32(vs->vs_fat32_length);
    545 
    546 	fat_size = fat_length * ms->ms_fats;
    547 	dir_size = ((dir_entries * sizeof(struct vfat_dir_entry)) +
    548 			(sector_size-1)) / sector_size;
    549 
    550 	cluster_count = sect_count - (reserved + fat_size + dir_size);
    551 	if (ms->ms_cluster_size == 0)
    552 		return 1;
    553 	cluster_count /= ms->ms_cluster_size;
    554 
    555 	if (cluster_count > FAT32_MAX)
    556 		return 1;
    557 
    558 	if (ms->ms_fat_length) {
    559 		/* the label may be an attribute in the root directory */
    560 		root_start = (reserved + fat_size) * sector_size;
    561 		root_dir_entries = vs->vs_dir_entries[0] +
    562 			(vs->vs_dir_entries[1] << 8);
    563 
    564 		buf_size = root_dir_entries * sizeof(struct vfat_dir_entry);
    565 		dir = (struct vfat_dir_entry *) get_buffer(probe, root_start,
    566 							   buf_size);
    567 		if (dir)
    568 			vol_label = search_fat_label(dir, root_dir_entries);
    569 
    570 		if (!vol_label || !memcmp(vol_label, no_name, 11))
    571 			vol_label = ms->ms_label;
    572 		vol_serno = ms->ms_serno;
    573 
    574 		blkid_set_tag(probe->dev, "SEC_TYPE", "msdos",
    575 			      sizeof("msdos"));
    576 	} else {
    577 		/* Search the FAT32 root dir for the label attribute */
    578 		buf_size = vs->vs_cluster_size * sector_size;
    579 		start_data_sect = reserved + fat_size;
    580 
    581 		next = blkid_le32(vs->vs_root_cluster);
    582 		while (next && --maxloop) {
    583 			__u32 next_sect_off;
    584 			__u64 next_off, fat_entry_off;
    585 			int count;
    586 
    587 			next_sect_off = (next - 2) * vs->vs_cluster_size;
    588 			next_off = (__u64) (start_data_sect + next_sect_off) *
    589 				sector_size;
    590 
    591 			dir = (struct vfat_dir_entry *)
    592 				get_buffer(probe, next_off, buf_size);
    593 			if (dir == NULL)
    594 				break;
    595 
    596 			count = buf_size / sizeof(struct vfat_dir_entry);
    597 
    598 			vol_label = search_fat_label(dir, count);
    599 			if (vol_label)
    600 				break;
    601 
    602 			/* get FAT entry */
    603 			fat_entry_off =
    604 				((unsigned int) reserved *
    605 				 (unsigned int) sector_size) +
    606 				(next * sizeof(__u32));
    607 			buf = get_buffer(probe, fat_entry_off, buf_size);
    608 			if (buf == NULL)
    609 				break;
    610 
    611 			/* set next cluster */
    612 			next = blkid_le32(*((__u32 *) buf) & 0x0fffffff);
    613 		}
    614 
    615 		if (!vol_label || !memcmp(vol_label, no_name, 11))
    616 			vol_label = vs->vs_label;
    617 		vol_serno = vs->vs_serno;
    618 	}
    619 
    620 	if (vol_label && memcmp(vol_label, no_name, 11)) {
    621 		if ((label_len = figure_label_len(vol_label, 11)))
    622 			label = vol_label;
    623 	}
    624 
    625 	/* We can't just print them as %04X, because they are unaligned */
    626 	sprintf(serno, "%02X%02X-%02X%02X", vol_serno[3], vol_serno[2],
    627 		vol_serno[1], vol_serno[0]);
    628 
    629 	blkid_set_tag(probe->dev, "LABEL", (const char *) label, label_len);
    630 	blkid_set_tag(probe->dev, "UUID", serno, sizeof(serno)-1);
    631 
    632 	return 0;
    633 }
    634 
    635 /*
    636  * The FAT filesystem could be without a magic string in superblock
    637  * (e.g. old floppies).  This heuristic for FAT detection is inspired
    638  * by http://vrfy.org/projects/volume_id/ and Linux kernel.
    639  * [7-Jul-2005, Karel Zak <kzak (at) redhat.com>]
    640  */
    641 static int probe_fat_nomagic(struct blkid_probe *probe,
    642 			     struct blkid_magic *id __BLKID_ATTR((unused)),
    643 			     unsigned char *buf)
    644 {
    645 	struct msdos_super_block *ms;
    646 
    647 	ms = (struct msdos_super_block *)buf;
    648 
    649 	/* heads check */
    650 	if (ms->ms_heads == 0)
    651 		return 1;
    652 
    653 	/* cluster size check*/
    654 	if (ms->ms_cluster_size == 0 ||
    655 	    (ms->ms_cluster_size & (ms->ms_cluster_size-1)))
    656 		return 1;
    657 
    658 	/* media check */
    659 	if (ms->ms_media < 0xf8 && ms->ms_media != 0xf0)
    660 		return 1;
    661 
    662 	/* fat counts(Linux kernel expects at least 1 FAT table) */
    663 	if (!ms->ms_fats)
    664 		return 1;
    665 
    666 	/*
    667 	 * OS/2 and apparently DFSee will place a FAT12/16-like
    668 	 * pseudo-superblock in the first 512 bytes of non-FAT
    669 	 * filesystems --- at least JFS and HPFS, and possibly others.
    670 	 * So we explicitly check for those filesystems at the
    671 	 * FAT12/16 filesystem magic field identifier, and if they are
    672 	 * present, we rule this out as a FAT filesystem, despite the
    673 	 * FAT-like pseudo-header.
    674          */
    675 	if ((memcmp(ms->ms_magic, "JFS     ", 8) == 0) ||
    676 	    (memcmp(ms->ms_magic, "HPFS    ", 8) == 0))
    677 		return 1;
    678 
    679 	return probe_fat(probe, id, buf);
    680 }
    681 
    682 static int probe_ntfs(struct blkid_probe *probe,
    683 		      struct blkid_magic *id __BLKID_ATTR((unused)),
    684 		      unsigned char *buf)
    685 {
    686 	struct ntfs_super_block *ns;
    687 	struct master_file_table_record *mft;
    688 	struct file_attribute *attr;
    689 	char		uuid_str[17], label_str[129], *cp;
    690 	int		bytes_per_sector, sectors_per_cluster;
    691 	int		mft_record_size, attr_off, attr_len;
    692 	unsigned int	i, attr_type, val_len;
    693 	int		val_off;
    694 	__u64		nr_clusters;
    695 	blkid_loff_t off;
    696 	unsigned char *buf_mft, *val;
    697 
    698 	ns = (struct ntfs_super_block *) buf;
    699 
    700 	bytes_per_sector = ns->bios_parameter_block[0] +
    701 		(ns->bios_parameter_block[1]  << 8);
    702 	sectors_per_cluster = ns->bios_parameter_block[2];
    703 
    704 	if ((bytes_per_sector < 512) || (sectors_per_cluster == 0))
    705 		return 1;
    706 
    707 	if (ns->cluster_per_mft_record < 0)
    708 		mft_record_size = 1 << (0-ns->cluster_per_mft_record);
    709 	else
    710 		mft_record_size = ns->cluster_per_mft_record *
    711 			sectors_per_cluster * bytes_per_sector;
    712 	nr_clusters = blkid_le64(ns->number_of_sectors) / sectors_per_cluster;
    713 
    714 	if ((blkid_le64(ns->mft_cluster_location) > nr_clusters) ||
    715 	    (blkid_le64(ns->mft_mirror_cluster_location) > nr_clusters))
    716 		return 1;
    717 
    718 	off = blkid_le64(ns->mft_mirror_cluster_location) *
    719 		bytes_per_sector * sectors_per_cluster;
    720 
    721 	buf_mft = get_buffer(probe, off, mft_record_size);
    722 	if (!buf_mft)
    723 		return 1;
    724 
    725 	if (memcmp(buf_mft, "FILE", 4))
    726 		return 1;
    727 
    728 	off = blkid_le64(ns->mft_cluster_location) * bytes_per_sector *
    729 		sectors_per_cluster;
    730 
    731 	buf_mft = get_buffer(probe, off, mft_record_size);
    732 	if (!buf_mft)
    733 		return 1;
    734 
    735 	if (memcmp(buf_mft, "FILE", 4))
    736 		return 1;
    737 
    738 	off += MFT_RECORD_VOLUME * mft_record_size;
    739 
    740 	buf_mft = get_buffer(probe, off, mft_record_size);
    741 	if (!buf_mft)
    742 		return 1;
    743 
    744 	if (memcmp(buf_mft, "FILE", 4))
    745 		return 1;
    746 
    747 	mft = (struct master_file_table_record *) buf_mft;
    748 
    749 	attr_off = blkid_le16(mft->attrs_offset);
    750 	label_str[0] = 0;
    751 
    752 	while (1) {
    753 		attr = (struct file_attribute *) (buf_mft + attr_off);
    754 		attr_len = blkid_le16(attr->len);
    755 		attr_type = blkid_le32(attr->type);
    756 		val_off = blkid_le16(attr->value_offset);
    757 		val_len = blkid_le32(attr->value_len);
    758 
    759 		attr_off += attr_len;
    760 
    761 		if ((attr_off > mft_record_size) ||
    762 		    (attr_len == 0))
    763 			break;
    764 
    765 		if (attr_type == MFT_RECORD_ATTR_END)
    766 			break;
    767 
    768 		if (attr_type == MFT_RECORD_ATTR_VOLUME_NAME) {
    769 			if (val_len > sizeof(label_str))
    770 				val_len = sizeof(label_str)-1;
    771 
    772 			for (i=0, cp=label_str; i < val_len; i+=2,cp++) {
    773 				val = ((__u8 *) attr) + val_off + i;
    774 				*cp = val[0];
    775 				if (val[1])
    776 					*cp = '?';
    777 			}
    778 			*cp = 0;
    779 		}
    780 	}
    781 
    782 	sprintf(uuid_str, "%016llX", blkid_le64(ns->volume_serial));
    783 	blkid_set_tag(probe->dev, "UUID", uuid_str, 0);
    784 	if (label_str[0])
    785 		blkid_set_tag(probe->dev, "LABEL", label_str, 0);
    786 	return 0;
    787 }
    788 
    789 
    790 static int probe_xfs(struct blkid_probe *probe,
    791 		     struct blkid_magic *id __BLKID_ATTR((unused)),
    792 		     unsigned char *buf)
    793 {
    794 	struct xfs_super_block *xs;
    795 	const char *label = 0;
    796 
    797 	xs = (struct xfs_super_block *)buf;
    798 
    799 	if (strlen(xs->xs_fname))
    800 		label = xs->xs_fname;
    801 	blkid_set_tag(probe->dev, "LABEL", label, sizeof(xs->xs_fname));
    802 	set_uuid(probe->dev, xs->xs_uuid, 0);
    803 	return 0;
    804 }
    805 
    806 static int probe_reiserfs(struct blkid_probe *probe,
    807 			  struct blkid_magic *id, unsigned char *buf)
    808 {
    809 	struct reiserfs_super_block *rs = (struct reiserfs_super_block *) buf;
    810 	unsigned int blocksize;
    811 	const char *label = 0;
    812 
    813 	blocksize = blkid_le16(rs->rs_blocksize);
    814 
    815 	/* The blocksize must be at least 1k */
    816 	if ((blocksize >> 10) == 0)
    817 		return -BLKID_ERR_PARAM;
    818 
    819 	/* If the superblock is inside the journal, we have the wrong one */
    820 	if (id->bim_kboff/(blocksize>>10) > blkid_le32(rs->rs_journal_block))
    821 		return -BLKID_ERR_BIG;
    822 
    823 	/* LABEL/UUID are only valid for later versions of Reiserfs v3.6. */
    824 	if (id->bim_magic[6] == '2' || id->bim_magic[6] == '3') {
    825 		if (strlen(rs->rs_label))
    826 			label = rs->rs_label;
    827 		set_uuid(probe->dev, rs->rs_uuid, 0);
    828 	}
    829 	blkid_set_tag(probe->dev, "LABEL", label, sizeof(rs->rs_label));
    830 
    831 	return 0;
    832 }
    833 
    834 static int probe_reiserfs4(struct blkid_probe *probe,
    835 			   struct blkid_magic *id __BLKID_ATTR((unused)),
    836 			   unsigned char *buf)
    837 {
    838 	struct reiser4_super_block *rs4 = (struct reiser4_super_block *) buf;
    839 	const unsigned char *label = 0;
    840 
    841 	if (strlen((char *) rs4->rs4_label))
    842 		label = rs4->rs4_label;
    843 	set_uuid(probe->dev, rs4->rs4_uuid, 0);
    844 	blkid_set_tag(probe->dev, "LABEL", (const char *) label,
    845 		      sizeof(rs4->rs4_label));
    846 
    847 	return 0;
    848 }
    849 
    850 static int probe_jfs(struct blkid_probe *probe,
    851 		     struct blkid_magic *id __BLKID_ATTR((unused)),
    852 		     unsigned char *buf)
    853 {
    854 	struct jfs_super_block *js;
    855 	const char *label = 0;
    856 
    857 	js = (struct jfs_super_block *)buf;
    858 
    859 	if (blkid_le32(js->js_bsize) != (1U << blkid_le16(js->js_l2bsize)))
    860 		return 1;
    861 
    862 	if (blkid_le32(js->js_pbsize) != (1U << blkid_le16(js->js_l2pbsize)))
    863 		return 1;
    864 
    865 	if ((blkid_le16(js->js_l2bsize) - blkid_le16(js->js_l2pbsize)) !=
    866 	    blkid_le16(js->js_l2bfactor))
    867 		return 1;
    868 
    869 	if (strlen((char *) js->js_label))
    870 		label = (char *) js->js_label;
    871 	blkid_set_tag(probe->dev, "LABEL", label, sizeof(js->js_label));
    872 	set_uuid(probe->dev, js->js_uuid, 0);
    873 	return 0;
    874 }
    875 
    876 static int probe_zfs(struct blkid_probe *probe __BLKID_ATTR((unused)),
    877 		     struct blkid_magic *id __BLKID_ATTR((unused)),
    878 		     unsigned char *buf __BLKID_ATTR((unused)))
    879 {
    880 #if 0
    881 	char *vdev_label;
    882 	const char *pool_name = 0;
    883 
    884 	/* read nvpair data for pool name, pool GUID (complex) */
    885 	blkid_set_tag(probe->dev, "LABEL", pool_name, sizeof(pool_name));
    886 	set_uuid(probe->dev, pool_guid, 0);
    887 #endif
    888 	return 0;
    889 }
    890 
    891 static int probe_luks(struct blkid_probe *probe,
    892 		       struct blkid_magic *id __BLKID_ATTR((unused)),
    893 		       unsigned char *buf)
    894 {
    895 	char uuid[40];
    896 
    897 	/* 168 is the offset to the 40 character uuid:
    898 	 * http://luks.endorphin.org/LUKS-on-disk-format.pdf */
    899 	strncpy(uuid, (char *) buf+168, 40);
    900 	blkid_set_tag(probe->dev, "UUID", uuid, sizeof(uuid));
    901 	return 0;
    902 }
    903 
    904 static int probe_romfs(struct blkid_probe *probe,
    905 		       struct blkid_magic *id __BLKID_ATTR((unused)),
    906 		       unsigned char *buf)
    907 {
    908 	struct romfs_super_block *ros;
    909 	const char *label = 0;
    910 
    911 	ros = (struct romfs_super_block *)buf;
    912 
    913 	if (strlen((char *) ros->ros_volume))
    914 		label = (char *) ros->ros_volume;
    915 	blkid_set_tag(probe->dev, "LABEL", label, 0);
    916 	return 0;
    917 }
    918 
    919 static int probe_cramfs(struct blkid_probe *probe,
    920 			struct blkid_magic *id __BLKID_ATTR((unused)),
    921 			unsigned char *buf)
    922 {
    923 	struct cramfs_super_block *csb;
    924 	const char *label = 0;
    925 
    926 	csb = (struct cramfs_super_block *)buf;
    927 
    928 	if (strlen((char *) csb->name))
    929 		label = (char *) csb->name;
    930 	blkid_set_tag(probe->dev, "LABEL", label, 0);
    931 	return 0;
    932 }
    933 
    934 static int probe_swap0(struct blkid_probe *probe,
    935 		       struct blkid_magic *id __BLKID_ATTR((unused)),
    936 		       unsigned char *buf __BLKID_ATTR((unused)))
    937 {
    938 	blkid_set_tag(probe->dev, "UUID", 0, 0);
    939 	blkid_set_tag(probe->dev, "LABEL", 0, 0);
    940 	return 0;
    941 }
    942 
    943 static int probe_swap1(struct blkid_probe *probe,
    944 		       struct blkid_magic *id,
    945 		       unsigned char *buf __BLKID_ATTR((unused)))
    946 {
    947 	struct swap_id_block *sws;
    948 
    949 	probe_swap0(probe, id, buf);
    950 	/*
    951 	 * Version 1 swap headers are always located at offset of 1024
    952 	 * bytes, although the swap signature itself is located at the
    953 	 * end of the page (which may vary depending on hardware
    954 	 * pagesize).
    955 	 */
    956 	sws = (struct swap_id_block *) get_buffer(probe, 1024, 1024);
    957 	if (!sws)
    958 		return 1;
    959 
    960 	/* check for wrong version or zeroed pagecount, for sanity */
    961 	if (!memcmp(id->bim_magic, "SWAPSPACE2", id->bim_len) &&
    962 			(sws->sws_version != 1 || sws->sws_lastpage == 0))
    963 		return 1;
    964 
    965 	/* arbitrary sanity check.. is there any garbage down there? */
    966 	if (sws->sws_pad[32] == 0 && sws->sws_pad[33] == 0)  {
    967 		if (sws->sws_volume[0])
    968 			blkid_set_tag(probe->dev, "LABEL", sws->sws_volume,
    969 				      sizeof(sws->sws_volume));
    970 		if (sws->sws_uuid[0])
    971 			set_uuid(probe->dev, sws->sws_uuid, 0);
    972 	}
    973 	return 0;
    974 }
    975 
    976 static int probe_iso9660(struct blkid_probe *probe,
    977 			 struct blkid_magic *id __BLKID_ATTR((unused)),
    978 			 unsigned char *buf)
    979 {
    980 	struct iso_volume_descriptor *iso;
    981 	const unsigned char *label;
    982 
    983 	iso = (struct iso_volume_descriptor *) buf;
    984 	label = iso->volume_id;
    985 
    986 	blkid_set_tag(probe->dev, "LABEL", (const char *) label,
    987 		      figure_label_len(label, 32));
    988 	return 0;
    989 }
    990 
    991 
    992 static const char
    993 *udf_magic[] = { "BEA01", "BOOT2", "CD001", "CDW02", "NSR02",
    994 		 "NSR03", "TEA01", 0 };
    995 
    996 static int probe_udf(struct blkid_probe *probe,
    997 		     struct blkid_magic *id __BLKID_ATTR((unused)),
    998 		     unsigned char *buf __BLKID_ATTR((unused)))
    999 {
   1000 	int j, bs;
   1001 	struct iso_volume_descriptor *isosb;
   1002 	const char ** m;
   1003 
   1004 	/* determine the block size by scanning in 2K increments
   1005 	   (block sizes larger than 2K will be null padded) */
   1006 	for (bs = 1; bs < 16; bs++) {
   1007 		isosb = (struct iso_volume_descriptor *)
   1008 			get_buffer(probe, (blkid_loff_t) bs*2048+32768,
   1009 				   sizeof(*isosb));
   1010 		if (!isosb)
   1011 			return 1;
   1012 		if (isosb->vd_id[0])
   1013 			break;
   1014 	}
   1015 
   1016 	/* Scan up to another 64 blocks looking for additional VSD's */
   1017 	for (j = 1; j < 64; j++) {
   1018 		if (j > 1) {
   1019 			isosb = (struct iso_volume_descriptor *)
   1020 				get_buffer(probe, j*bs*2048+32768,
   1021 					   sizeof(*isosb));
   1022 			if (!isosb)
   1023 				return 1;
   1024 		}
   1025 		/* If we find NSR0x then call it udf:
   1026 		   NSR01 for UDF 1.00
   1027 		   NSR02 for UDF 1.50
   1028 		   NSR03 for UDF 2.00 */
   1029 		if (!memcmp(isosb->vd_id, "NSR0", 4))
   1030 			return probe_iso9660(probe, id, buf);
   1031 		for (m = udf_magic; *m; m++)
   1032 			if (!memcmp(*m, isosb->vd_id, 5))
   1033 				break;
   1034 		if (*m == 0)
   1035 			return 1;
   1036 	}
   1037 	return 1;
   1038 }
   1039 
   1040 static int probe_ocfs(struct blkid_probe *probe,
   1041 		      struct blkid_magic *id __BLKID_ATTR((unused)),
   1042 		      unsigned char *buf)
   1043 {
   1044 	struct ocfs_volume_header ovh;
   1045 	struct ocfs_volume_label ovl;
   1046 	__u32 major;
   1047 
   1048 	memcpy(&ovh, buf, sizeof(ovh));
   1049 	memcpy(&ovl, buf+512, sizeof(ovl));
   1050 
   1051 	major = ocfsmajor(ovh);
   1052 	if (major == 1)
   1053 		blkid_set_tag(probe->dev,"SEC_TYPE","ocfs1",sizeof("ocfs1"));
   1054 	else if (major >= 9)
   1055 		blkid_set_tag(probe->dev,"SEC_TYPE","ntocfs",sizeof("ntocfs"));
   1056 
   1057 	blkid_set_tag(probe->dev, "LABEL", ovl.label, ocfslabellen(ovl));
   1058 	blkid_set_tag(probe->dev, "MOUNT", ovh.mount, ocfsmountlen(ovh));
   1059 	set_uuid(probe->dev, ovl.vol_id, 0);
   1060 	return 0;
   1061 }
   1062 
   1063 static int probe_ocfs2(struct blkid_probe *probe,
   1064 		       struct blkid_magic *id __BLKID_ATTR((unused)),
   1065 		       unsigned char *buf)
   1066 {
   1067 	struct ocfs2_super_block *osb;
   1068 
   1069 	osb = (struct ocfs2_super_block *)buf;
   1070 
   1071 	blkid_set_tag(probe->dev, "LABEL", osb->s_label, sizeof(osb->s_label));
   1072 	set_uuid(probe->dev, osb->s_uuid, 0);
   1073 	return 0;
   1074 }
   1075 
   1076 static int probe_oracleasm(struct blkid_probe *probe,
   1077 			   struct blkid_magic *id __BLKID_ATTR((unused)),
   1078 			   unsigned char *buf)
   1079 {
   1080 	struct oracle_asm_disk_label *dl;
   1081 
   1082 	dl = (struct oracle_asm_disk_label *)buf;
   1083 
   1084 	blkid_set_tag(probe->dev, "LABEL", dl->dl_id, sizeof(dl->dl_id));
   1085 	return 0;
   1086 }
   1087 
   1088 static int probe_gfs(struct blkid_probe *probe,
   1089 		     struct blkid_magic *id __BLKID_ATTR((unused)),
   1090 		     unsigned char *buf)
   1091 {
   1092 	struct gfs2_sb *sbd;
   1093 	const char *label = 0;
   1094 
   1095 	sbd = (struct gfs2_sb *)buf;
   1096 
   1097 	if (blkid_be32(sbd->sb_fs_format) == GFS_FORMAT_FS &&
   1098 	    blkid_be32(sbd->sb_multihost_format) == GFS_FORMAT_MULTI)
   1099 	{
   1100 		blkid_set_tag(probe->dev, "UUID", 0, 0);
   1101 
   1102 		if (strlen(sbd->sb_locktable))
   1103 			label = sbd->sb_locktable;
   1104 		blkid_set_tag(probe->dev, "LABEL", label, sizeof(sbd->sb_locktable));
   1105 		return 0;
   1106 	}
   1107 	return 1;
   1108 }
   1109 
   1110 static int probe_gfs2(struct blkid_probe *probe,
   1111 		     struct blkid_magic *id __BLKID_ATTR((unused)),
   1112 		     unsigned char *buf)
   1113 {
   1114 	struct gfs2_sb *sbd;
   1115 	const char *label = 0;
   1116 
   1117 	sbd = (struct gfs2_sb *)buf;
   1118 
   1119 	if (blkid_be32(sbd->sb_fs_format) == GFS2_FORMAT_FS &&
   1120 	    blkid_be32(sbd->sb_multihost_format) == GFS2_FORMAT_MULTI)
   1121 	{
   1122 		blkid_set_tag(probe->dev, "UUID", 0, 0);
   1123 
   1124 		if (strlen(sbd->sb_locktable))
   1125 			label = sbd->sb_locktable;
   1126 		blkid_set_tag(probe->dev, "LABEL", label, sizeof(sbd->sb_locktable));
   1127 		return 0;
   1128 	}
   1129 	return 1;
   1130 }
   1131 
   1132 static void unicode_16be_to_utf8(unsigned char *str, int out_len,
   1133 				 const unsigned char *buf, int in_len)
   1134 {
   1135 	int i, j;
   1136 	unsigned int c;
   1137 
   1138 	for (i = j = 0; i + 2 <= in_len; i += 2) {
   1139 		c = (buf[i] << 8) | buf[i+1];
   1140 		if (c == 0) {
   1141 			str[j] = '\0';
   1142 			break;
   1143 		} else if (c < 0x80) {
   1144 			if (j+1 >= out_len)
   1145 				break;
   1146 			str[j++] = (unsigned char) c;
   1147 		} else if (c < 0x800) {
   1148 			if (j+2 >= out_len)
   1149 				break;
   1150 			str[j++] = (unsigned char) (0xc0 | (c >> 6));
   1151 			str[j++] = (unsigned char) (0x80 | (c & 0x3f));
   1152 		} else {
   1153 			if (j+3 >= out_len)
   1154 				break;
   1155 			str[j++] = (unsigned char) (0xe0 | (c >> 12));
   1156 			str[j++] = (unsigned char) (0x80 | ((c >> 6) & 0x3f));
   1157 			str[j++] = (unsigned char) (0x80 | (c & 0x3f));
   1158 		}
   1159 	}
   1160 	str[j] = '\0';
   1161 }
   1162 
   1163 static void unicode_16le_to_utf8(unsigned char *str, int out_len,
   1164 				 const unsigned char *buf, int in_len)
   1165 {
   1166 	int i, j;
   1167 	unsigned int c;
   1168 
   1169 	for (i = j = 0; i + 2 <= in_len; i += 2) {
   1170 		c = (buf[i+1] << 8) | buf[i];
   1171 		if (c == 0) {
   1172 			str[j] = '\0';
   1173 			break;
   1174 		} else if (c < 0x80) {
   1175 			if (j+1 >= out_len)
   1176 				break;
   1177 			str[j++] = (unsigned char) c;
   1178 		} else if (c < 0x800) {
   1179 			if (j+2 >= out_len)
   1180 				break;
   1181 			str[j++] = (unsigned char) (0xc0 | (c >> 6));
   1182 			str[j++] = (unsigned char) (0x80 | (c & 0x3f));
   1183 		} else {
   1184 			if (j+3 >= out_len)
   1185 				break;
   1186 			str[j++] = (unsigned char) (0xe0 | (c >> 12));
   1187 			str[j++] = (unsigned char) (0x80 | ((c >> 6) & 0x3f));
   1188 			str[j++] = (unsigned char) (0x80 | (c & 0x3f));
   1189 		}
   1190 	}
   1191 	str[j] = '\0';
   1192 }
   1193 
   1194 static int probe_hfs(struct blkid_probe *probe __BLKID_ATTR((unused)),
   1195 			 struct blkid_magic *id __BLKID_ATTR((unused)),
   1196 			 unsigned char *buf)
   1197 {
   1198 	struct hfs_mdb *hfs = (struct hfs_mdb *)buf;
   1199 	unsigned long long *uuid_ptr;
   1200 	char	uuid_str[17];
   1201 	__u64	uuid;
   1202 
   1203 	if ((memcmp(hfs->embed_sig, "H+", 2) == 0) ||
   1204 	    (memcmp(hfs->embed_sig, "HX", 2) == 0))
   1205 		return 1;	/* Not hfs, but an embedded HFS+ */
   1206 
   1207 	uuid_ptr = (unsigned long long *)hfs->finder_info.id;
   1208 	uuid = blkid_le64(*uuid_ptr);
   1209 	if (uuid) {
   1210 		sprintf(uuid_str, "%016llX", uuid);
   1211 		blkid_set_tag(probe->dev, "UUID", uuid_str, 0);
   1212 	}
   1213 	blkid_set_tag(probe->dev, "LABEL", (char *)hfs->label, hfs->label_len);
   1214 	return 0;
   1215 }
   1216 
   1217 
   1218 #define HFSPLUS_SECTOR_SIZE        512
   1219 
   1220 static int probe_hfsplus(struct blkid_probe *probe,
   1221 			 struct blkid_magic *id,
   1222 			 unsigned char *buf)
   1223 {
   1224 	struct hfsplus_extent extents[HFSPLUS_EXTENT_COUNT];
   1225 	struct hfsplus_bnode_descriptor *descr;
   1226 	struct hfsplus_bheader_record *bnode;
   1227 	struct hfsplus_catalog_key *key;
   1228 	struct hfsplus_vol_header *hfsplus;
   1229 	struct hfs_mdb *sbd = (struct hfs_mdb *) buf;
   1230 	unsigned int alloc_block_size;
   1231 	unsigned int alloc_first_block;
   1232 	unsigned int embed_first_block;
   1233 	unsigned int off = 0;
   1234 	unsigned int blocksize;
   1235 	unsigned int cat_block;
   1236 	unsigned int ext_block_start;
   1237 	unsigned int ext_block_count;
   1238 	unsigned int record_count;
   1239 	unsigned int leaf_node_head;
   1240 	unsigned int leaf_node_count;
   1241 	unsigned int leaf_node_size;
   1242 	unsigned int leaf_block;
   1243 	unsigned int label_len;
   1244 	unsigned long long *uuid_ptr;
   1245 	__u64 leaf_off, uuid;
   1246 	char	uuid_str[17], label[512];
   1247 	int ext;
   1248 
   1249 	/* Check for a HFS+ volume embedded in a HFS volume */
   1250 	if (memcmp(sbd->signature, "BD", 2) == 0) {
   1251 		if ((memcmp(sbd->embed_sig, "H+", 2) != 0) &&
   1252 		    (memcmp(sbd->embed_sig, "HX", 2) != 0))
   1253 			/* This must be an HFS volume, so fail */
   1254 			return 1;
   1255 
   1256 		alloc_block_size = blkid_be32(sbd->al_blk_size);
   1257 		alloc_first_block = blkid_be16(sbd->al_bl_st);
   1258 		embed_first_block = blkid_be16(sbd->embed_startblock);
   1259 		off = (alloc_first_block * 512) +
   1260 			(embed_first_block * alloc_block_size);
   1261 		buf = get_buffer(probe, off + (id->bim_kboff * 1024),
   1262 				 sizeof(*sbd));
   1263 		if (!buf)
   1264 			return 1;
   1265 
   1266 		hfsplus = (struct hfsplus_vol_header *) buf;
   1267 	}
   1268 
   1269 	hfsplus = (struct hfsplus_vol_header *) buf;
   1270 
   1271 	if ((memcmp(hfsplus->signature, "H+", 2) != 0) &&
   1272 	    (memcmp(hfsplus->signature, "HX", 2) != 0))
   1273 		return 1;
   1274 
   1275 	uuid_ptr = (unsigned long long *)hfsplus->finder_info.id;
   1276 	uuid = blkid_le64(*uuid_ptr);
   1277 	if (uuid) {
   1278 		sprintf(uuid_str, "%016llX", uuid);
   1279 		blkid_set_tag(probe->dev, "UUID", uuid_str, 0);
   1280 	}
   1281 
   1282 	blocksize = blkid_be32(hfsplus->blocksize);
   1283 	if (blocksize < HFSPLUS_SECTOR_SIZE)
   1284 		return 1;
   1285 
   1286 	memcpy(extents, hfsplus->cat_file.extents, sizeof(extents));
   1287 	cat_block = blkid_be32(extents[0].start_block);
   1288 
   1289 	buf = get_buffer(probe, off + ((__u64) cat_block * blocksize), 0x2000);
   1290 	if (!buf)
   1291 		return 0;
   1292 
   1293 	bnode = (struct hfsplus_bheader_record *)
   1294 		&buf[sizeof(struct hfsplus_bnode_descriptor)];
   1295 
   1296 	leaf_node_head = blkid_be32(bnode->leaf_head);
   1297 	leaf_node_size = blkid_be16(bnode->node_size);
   1298 	leaf_node_count = blkid_be32(bnode->leaf_count);
   1299 	if (leaf_node_count == 0)
   1300 		return 0;
   1301 
   1302 	leaf_block = (leaf_node_head * leaf_node_size) / blocksize;
   1303 
   1304 	/* get physical location */
   1305 	for (ext = 0; ext < HFSPLUS_EXTENT_COUNT; ext++) {
   1306 		ext_block_start = blkid_be32(extents[ext].start_block);
   1307 		ext_block_count = blkid_be32(extents[ext].block_count);
   1308 		if (ext_block_count == 0)
   1309 			return 0;
   1310 
   1311 		/* this is our extent */
   1312 		if (leaf_block < ext_block_count)
   1313 			break;
   1314 
   1315 		leaf_block -= ext_block_count;
   1316 	}
   1317 	if (ext == HFSPLUS_EXTENT_COUNT)
   1318 		return 0;
   1319 
   1320 	leaf_off = (__u64) (ext_block_start + leaf_block) * blocksize;
   1321 
   1322 	buf = get_buffer(probe, off + leaf_off, leaf_node_size);
   1323 	if (!buf)
   1324 		return 0;
   1325 
   1326 	descr = (struct hfsplus_bnode_descriptor *) buf;
   1327 	record_count = blkid_be16(descr->num_recs);
   1328 	if (record_count == 0)
   1329 		return 0;
   1330 
   1331 	if (descr->type != HFS_NODE_LEAF)
   1332 		return 0;
   1333 
   1334 	key = (struct hfsplus_catalog_key *)
   1335 		&buf[sizeof(struct hfsplus_bnode_descriptor)];
   1336 
   1337 	if (blkid_be32(key->parent_id) != HFSPLUS_POR_CNID)
   1338 		return 0;
   1339 
   1340 	label_len = blkid_be16(key->unicode_len) * 2;
   1341 	unicode_16be_to_utf8((unsigned char *)label, sizeof(label),
   1342 			     key->unicode, label_len);
   1343 	blkid_set_tag(probe->dev, "LABEL", label, 0);
   1344 	return 0;
   1345 }
   1346 
   1347 #define LVM2_LABEL_SIZE 512
   1348 static unsigned int lvm2_calc_crc(const void *buf, unsigned int size)
   1349 {
   1350 	static const unsigned int crctab[] = {
   1351 		0x00000000, 0x1db71064, 0x3b6e20c8, 0x26d930ac,
   1352 		0x76dc4190, 0x6b6b51f4, 0x4db26158, 0x5005713c,
   1353 		0xedb88320, 0xf00f9344, 0xd6d6a3e8, 0xcb61b38c,
   1354 		0x9b64c2b0, 0x86d3d2d4, 0xa00ae278, 0xbdbdf21c
   1355 	};
   1356 	unsigned int i, crc = 0xf597a6cf;
   1357 	const __u8 *data = (const __u8 *) buf;
   1358 
   1359 	for (i = 0; i < size; i++) {
   1360 		crc ^= *data++;
   1361 		crc = (crc >> 4) ^ crctab[crc & 0xf];
   1362 		crc = (crc >> 4) ^ crctab[crc & 0xf];
   1363 	}
   1364 	return crc;
   1365 }
   1366 
   1367 static int probe_lvm2(struct blkid_probe *probe,
   1368 			struct blkid_magic *id,
   1369 			unsigned char *buf)
   1370 {
   1371 	int sector = (id->bim_kboff) << 1;
   1372 	struct lvm2_pv_label_header *label= (struct lvm2_pv_label_header *)buf;
   1373 	char *p, *q, uuid[40];
   1374 	unsigned int i, b;
   1375 
   1376 	/* buf is at 0k or 1k offset; find label inside */
   1377 	if (memcmp(buf, "LABELONE", 8) == 0) {
   1378 		label = (struct lvm2_pv_label_header *)buf;
   1379 	} else if (memcmp(buf + 512, "LABELONE", 8) == 0) {
   1380 		label = (struct lvm2_pv_label_header *)(buf + 512);
   1381 		sector++;
   1382 	} else {
   1383 		return 1;
   1384 	}
   1385 
   1386 	if (blkid_le64(label->sector_xl) != (unsigned) sector) {
   1387 		DBG(DEBUG_PROBE,
   1388 		    printf("LVM2: label for sector %llu found at sector %d\n",
   1389 			   blkid_le64(label->sector_xl), sector));
   1390 		return 1;
   1391 	}
   1392 
   1393 	if (lvm2_calc_crc(&label->offset_xl, LVM2_LABEL_SIZE -
   1394 			  ((char *)&label->offset_xl - (char *)label)) !=
   1395 			blkid_le32(label->crc_xl)) {
   1396 		DBG(DEBUG_PROBE,
   1397 		    printf("LVM2: label checksum incorrect at sector %d\n",
   1398 			   sector));
   1399 		return 1;
   1400 	}
   1401 
   1402 	for (i=0, b=1, p=uuid, q= (char *) label->pv_uuid; i < LVM2_ID_LEN;
   1403 	     i++, b <<= 1) {
   1404 		if (b & 0x4444440)
   1405 			*p++ = '-';
   1406 		*p++ = *q++;
   1407 	}
   1408 
   1409 	blkid_set_tag(probe->dev, "UUID", uuid, LVM2_ID_LEN+6);
   1410 
   1411 	return 0;
   1412 }
   1413 
   1414 static int probe_btrfs(struct blkid_probe *probe,
   1415 			struct blkid_magic *id __BLKID_ATTR((unused)),
   1416 			unsigned char *buf)
   1417 {
   1418 	struct btrfs_super_block *bs;
   1419 	const char *label = 0;
   1420 
   1421 	bs = (struct btrfs_super_block *)buf;
   1422 
   1423 	if (strlen(bs->label))
   1424 		label = bs->label;
   1425 	blkid_set_tag(probe->dev, "LABEL", label, sizeof(bs->label));
   1426 	set_uuid(probe->dev, bs->fsid, 0);
   1427 	return 0;
   1428 }
   1429 
   1430 static int probe_f2fs(struct blkid_probe *probe,
   1431             struct blkid_magic *id __BLKID_ATTR((unused)),
   1432             unsigned char *buf)
   1433 {
   1434     struct f2fs_super_block *bs;
   1435 
   1436     bs = (struct f2fs_super_block *)buf;
   1437     set_uuid(probe->dev, bs->uuid, 0);
   1438     return 0;
   1439 }
   1440 
   1441 static uint64_t exfat_block_to_offset(const struct exfat_super_block *sb,
   1442                                       uint64_t block)
   1443 {
   1444     return block << sb->block_bits;
   1445 }
   1446 
   1447 static uint64_t exfat_cluster_to_block(const struct exfat_super_block *sb,
   1448                                        uint32_t cluster)
   1449 {
   1450     return sb->cluster_block_start +
   1451             ((uint64_t)(cluster - EXFAT_FIRST_DATA_CLUSTER) << sb->bpc_bits);
   1452 }
   1453 
   1454 static uint64_t exfat_cluster_to_offset(const struct exfat_super_block *sb,
   1455                                         uint32_t cluster)
   1456 {
   1457     return exfat_block_to_offset(sb, exfat_cluster_to_block(sb, cluster));
   1458 }
   1459 
   1460 static uint32_t exfat_next_cluster(struct blkid_probe *probe,
   1461                                    const struct exfat_super_block *sb,
   1462                                    uint32_t cluster)
   1463 {
   1464     uint32_t *next;
   1465     uint64_t offset;
   1466 
   1467     offset = exfat_block_to_offset(sb, sb->fat_block_start)
   1468             + (uint64_t) cluster * sizeof (cluster);
   1469     next = (uint32_t *)get_buffer(probe, offset, sizeof (uint32_t));
   1470 
   1471     return next ? *next : 0;
   1472 }
   1473 
   1474 static struct exfat_entry_label *find_exfat_entry_label(
   1475     struct blkid_probe *probe, const struct exfat_super_block *sb)
   1476 {
   1477     uint32_t cluster = sb->rootdir_cluster;
   1478     uint64_t offset = exfat_cluster_to_offset(sb, cluster);
   1479     uint8_t *entry;
   1480     const size_t max_iter = 10000;
   1481     size_t i = 0;
   1482 
   1483     for (; i < max_iter; ++i) {
   1484         entry = (uint8_t *)get_buffer(probe, offset, EXFAT_ENTRY_SIZE);
   1485         if (!entry)
   1486             return NULL;
   1487         if (entry[0] == EXFAT_ENTRY_EOD)
   1488             return NULL;
   1489         if (entry[0] == EXFAT_ENTRY_LABEL)
   1490             return (struct exfat_entry_label*) entry;
   1491 
   1492         offset += EXFAT_ENTRY_SIZE;
   1493         if (offset % CLUSTER_SIZE(sb) == 0) {
   1494             cluster = exfat_next_cluster(probe, sb, cluster);
   1495             if (cluster < EXFAT_FIRST_DATA_CLUSTER)
   1496                 return NULL;
   1497             if (cluster > EXFAT_LAST_DATA_CLUSTER)
   1498                 return NULL;
   1499             offset = exfat_cluster_to_offset(sb, cluster);
   1500         }
   1501     }
   1502 
   1503     return NULL;
   1504 }
   1505 
   1506 static int probe_exfat(struct blkid_probe *probe, struct blkid_magic *id,
   1507                        unsigned char *buf)
   1508 {
   1509     struct exfat_super_block *sb;
   1510     struct exfat_entry_label *label;
   1511     uuid_t uuid;
   1512 
   1513     sb = (struct exfat_super_block *)buf;
   1514     if (!sb || !CLUSTER_SIZE(sb)) {
   1515         DBG(DEBUG_PROBE, printf("bad exfat superblock.\n"));
   1516         return errno ? - errno : 1;
   1517     }
   1518 
   1519     label = find_exfat_entry_label(probe, sb);
   1520     if (label) {
   1521         char utf8_label[128];
   1522         unicode_16le_to_utf8(utf8_label, sizeof(utf8_label), label->name, label->length * 2);
   1523         blkid_set_tag(probe->dev, "LABEL", utf8_label, 0);
   1524     } else {
   1525         blkid_set_tag(probe->dev, "LABEL", "disk", 4);
   1526     }
   1527 
   1528     memset(uuid, 0, sizeof (uuid));
   1529     snprintf(uuid, sizeof (uuid), "%02hhX%02hhX-%02hhX%02hhX",
   1530              sb->volume_serial[3], sb->volume_serial[2],
   1531              sb->volume_serial[1], sb->volume_serial[0]);
   1532     blkid_set_tag(probe->dev, "UUID", uuid, strlen(uuid));
   1533 
   1534     return 0;
   1535 }
   1536 
   1537 /*
   1538  * Various filesystem magics that we can check for.  Note that kboff and
   1539  * sboff are in kilobytes and bytes respectively.  All magics are in
   1540  * byte strings so we don't worry about endian issues.
   1541  */
   1542 static struct blkid_magic type_array[] = {
   1543 /*  type     kboff   sboff len  magic			probe */
   1544   { "oracleasm", 0,	32,  8, "ORCLDISK",		probe_oracleasm },
   1545   { "ntfs",	 0,	 3,  8, "NTFS    ",		probe_ntfs },
   1546   { "jbd",	 1,   0x38,  2, "\123\357",		probe_jbd },
   1547   { "ext4dev",	 1,   0x38,  2, "\123\357",		probe_ext4dev },
   1548   { "ext4",	 1,   0x38,  2, "\123\357",		probe_ext4 },
   1549   { "ext3",	 1,   0x38,  2, "\123\357",		probe_ext3 },
   1550   { "ext2",	 1,   0x38,  2, "\123\357",		probe_ext2 },
   1551   { "reiserfs",	 8,   0x34,  8, "ReIsErFs",		probe_reiserfs },
   1552   { "reiserfs", 64,   0x34,  9, "ReIsEr2Fs",		probe_reiserfs },
   1553   { "reiserfs", 64,   0x34,  9, "ReIsEr3Fs",		probe_reiserfs },
   1554   { "reiserfs", 64,   0x34,  8, "ReIsErFs",		probe_reiserfs },
   1555   { "reiserfs",	 8,	20,  8, "ReIsErFs",		probe_reiserfs },
   1556   { "reiser4",  64,	 0,  7, "ReIsEr4",		probe_reiserfs4 },
   1557   { "gfs2",     64,      0,  4, "\x01\x16\x19\x70",     probe_gfs2 },
   1558   { "gfs",      64,      0,  4, "\x01\x16\x19\x70",     probe_gfs },
   1559   { "vfat",      0,   0x52,  5, "MSWIN",                probe_fat },
   1560   { "vfat",      0,   0x52,  8, "FAT32   ",             probe_fat },
   1561   { "vfat",      0,   0x36,  5, "MSDOS",                probe_fat },
   1562   { "vfat",      0,   0x36,  8, "FAT16   ",             probe_fat },
   1563   { "vfat",      0,   0x36,  8, "FAT12   ",             probe_fat },
   1564   { "vfat",      0,      0,  1, "\353",                 probe_fat_nomagic },
   1565   { "vfat",      0,      0,  1, "\351",                 probe_fat_nomagic },
   1566   { "vfat",      0,  0x1fe,  2, "\125\252",             probe_fat_nomagic },
   1567   { "minix",     1,   0x10,  2, "\177\023",             0 },
   1568   { "minix",     1,   0x10,  2, "\217\023",             0 },
   1569   { "minix",	 1,   0x10,  2, "\150\044",		0 },
   1570   { "minix",	 1,   0x10,  2, "\170\044",		0 },
   1571   { "vxfs",	 1,	 0,  4, "\365\374\001\245",	0 },
   1572   { "xfs",	 0,	 0,  4, "XFSB",			probe_xfs },
   1573   { "romfs",	 0,	 0,  8, "-rom1fs-",		probe_romfs },
   1574   { "bfs",	 0,	 0,  4, "\316\372\173\033",	0 },
   1575   { "cramfs",	 0,	 0,  4, "E=\315\050",		probe_cramfs },
   1576   { "qnx4",	 0,	 4,  6, "QNX4FS",		0 },
   1577   { "udf",	32,	 1,  5, "BEA01",		probe_udf },
   1578   { "udf",	32,	 1,  5, "BOOT2",		probe_udf },
   1579   { "udf",	32,	 1,  5, "CD001",		probe_udf },
   1580   { "udf",	32,	 1,  5, "CDW02",		probe_udf },
   1581   { "udf",	32,	 1,  5, "NSR02",		probe_udf },
   1582   { "udf",	32,	 1,  5, "NSR03",		probe_udf },
   1583   { "udf",	32,	 1,  5, "TEA01",		probe_udf },
   1584   { "iso9660",	32,	 1,  5, "CD001",		probe_iso9660 },
   1585   { "iso9660",	32,	 9,  5, "CDROM",		probe_iso9660 },
   1586   { "jfs",	32,	 0,  4, "JFS1",			probe_jfs },
   1587   /* ZFS has 128 root blocks (#4 is the first used), check only 6 of them */
   1588   { "zfs",     128,	 0,  8, "\0\0\0\0\0\xba\xb1\x0c", probe_zfs },
   1589   { "zfs",     128,	 0,  8, "\x0c\xb1\xba\0\0\0\0\0", probe_zfs },
   1590   { "zfs",     132,	 0,  8, "\0\0\0\0\0\xba\xb1\x0c", probe_zfs },
   1591   { "zfs",     132,	 0,  8, "\x0c\xb1\xba\0\0\0\0\0", probe_zfs },
   1592   { "zfs",     136,	 0,  8, "\0\0\0\0\0\xba\xb1\x0c", probe_zfs },
   1593   { "zfs",     136,	 0,  8, "\x0c\xb1\xba\0\0\0\0\0", probe_zfs },
   1594   { "zfs",     384,	 0,  8, "\0\0\0\0\0\xba\xb1\x0c", probe_zfs },
   1595   { "zfs",     384,	 0,  8, "\x0c\xb1\xba\0\0\0\0\0", probe_zfs },
   1596   { "zfs",     388,	 0,  8, "\0\0\0\0\0\xba\xb1\x0c", probe_zfs },
   1597   { "zfs",     388,	 0,  8, "\x0c\xb1\xba\0\0\0\0\0", probe_zfs },
   1598   { "zfs",     392,	 0,  8, "\0\0\0\0\0\xba\xb1\x0c", probe_zfs },
   1599   { "zfs",     392,	 0,  8, "\x0c\xb1\xba\0\0\0\0\0", probe_zfs },
   1600   { "hfsplus",	 1,	 0,  2, "BD",			probe_hfsplus },
   1601   { "hfsplus",	 1,	 0,  2, "H+",			probe_hfsplus },
   1602   { "hfsplus",	 1,	 0,  2, "HX",			probe_hfsplus },
   1603   { "hfs",	 1,	 0,  2, "BD",			probe_hfs },
   1604   { "ufs",	 8,  0x55c,  4, "T\031\001\000",	0 },
   1605   { "hpfs",	 8,	 0,  4, "I\350\225\371",	0 },
   1606   { "sysv",	 0,  0x3f8,  4, "\020~\030\375",	0 },
   1607   { "swap",	 0,  0xff6, 10, "SWAP-SPACE",		probe_swap0 },
   1608   { "swap",	 0,  0xff6, 10, "SWAPSPACE2",		probe_swap1 },
   1609   { "swsuspend", 0,  0xff6,  9, "S1SUSPEND",		probe_swap1 },
   1610   { "swsuspend", 0,  0xff6,  9, "S2SUSPEND",		probe_swap1 },
   1611   { "swsuspend", 0,  0xff6,  9, "ULSUSPEND",		probe_swap1 },
   1612   { "swap",	 0, 0x1ff6, 10, "SWAP-SPACE",		probe_swap0 },
   1613   { "swap",	 0, 0x1ff6, 10, "SWAPSPACE2",		probe_swap1 },
   1614   { "swsuspend", 0, 0x1ff6,  9, "S1SUSPEND",		probe_swap1 },
   1615   { "swsuspend", 0, 0x1ff6,  9, "S2SUSPEND",		probe_swap1 },
   1616   { "swsuspend", 0, 0x1ff6,  9, "ULSUSPEND",		probe_swap1 },
   1617   { "swap",	 0, 0x3ff6, 10, "SWAP-SPACE",		probe_swap0 },
   1618   { "swap",	 0, 0x3ff6, 10, "SWAPSPACE2",		probe_swap1 },
   1619   { "swsuspend", 0, 0x3ff6,  9, "S1SUSPEND",		probe_swap1 },
   1620   { "swsuspend", 0, 0x3ff6,  9, "S2SUSPEND",		probe_swap1 },
   1621   { "swsuspend", 0, 0x3ff6,  9, "ULSUSPEND",		probe_swap1 },
   1622   { "swap",	 0, 0x7ff6, 10, "SWAP-SPACE",		probe_swap0 },
   1623   { "swap",	 0, 0x7ff6, 10, "SWAPSPACE2",		probe_swap1 },
   1624   { "swsuspend", 0, 0x7ff6,  9, "S1SUSPEND",		probe_swap1 },
   1625   { "swsuspend", 0, 0x7ff6,  9, "S2SUSPEND",		probe_swap1 },
   1626   { "swsuspend", 0, 0x7ff6,  9, "ULSUSPEND",		probe_swap1 },
   1627   { "swap",	 0, 0xfff6, 10, "SWAP-SPACE",		probe_swap0 },
   1628   { "swap",	 0, 0xfff6, 10, "SWAPSPACE2",		probe_swap1 },
   1629   { "swsuspend", 0, 0xfff6,  9, "S1SUSPEND",		probe_swap1 },
   1630   { "swsuspend", 0, 0xfff6,  9, "S2SUSPEND",		probe_swap1 },
   1631   { "swsuspend", 0, 0xfff6,  9, "ULSUSPEND",		probe_swap1 },
   1632   { "ocfs",	 0,	 8,  9,	"OracleCFS",		probe_ocfs },
   1633   { "ocfs2",	 1,	 0,  6,	"OCFSV2",		probe_ocfs2 },
   1634   { "ocfs2",	 2,	 0,  6,	"OCFSV2",		probe_ocfs2 },
   1635   { "ocfs2",	 4,	 0,  6,	"OCFSV2",		probe_ocfs2 },
   1636   { "ocfs2",	 8,	 0,  6,	"OCFSV2",		probe_ocfs2 },
   1637   { "crypt_LUKS", 0,	 0,  6,	"LUKS\xba\xbe",		probe_luks },
   1638   { "squashfs",	 0,	 0,  4,	"sqsh",			0 },
   1639   { "squashfs",	 0,	 0,  4,	"hsqs",			0 },
   1640   { "lvm2pv",	 0,  0x218,  8, "LVM2 001",		probe_lvm2 },
   1641   { "lvm2pv",	 0,  0x018,  8, "LVM2 001",		probe_lvm2 },
   1642   { "lvm2pv",	 1,  0x018,  8, "LVM2 001",		probe_lvm2 },
   1643   { "lvm2pv",	 1,  0x218,  8, "LVM2 001",		probe_lvm2 },
   1644   { "btrfs",	 64,  0x40,  8, "_BHRfS_M",		probe_btrfs },
   1645   { "f2fs",	 1,      0,  4, "\x10\x20\xf5\xf2",	probe_f2fs },
   1646   { "exfat",     0,      3,  8, "EXFAT   ",             probe_exfat },
   1647   {   NULL,	 0,	 0,  0, NULL,			NULL }
   1648 };
   1649 
   1650 /*
   1651  * Verify that the data in dev is consistent with what is on the actual
   1652  * block device (using the devname field only).  Normally this will be
   1653  * called when finding items in the cache, but for long running processes
   1654  * is also desirable to revalidate an item before use.
   1655  *
   1656  * If we are unable to revalidate the data, we return the old data and
   1657  * do not set the BLKID_BID_FL_VERIFIED flag on it.
   1658  */
   1659 blkid_dev blkid_verify(blkid_cache cache, blkid_dev dev)
   1660 {
   1661 	struct blkid_magic *id;
   1662 	struct blkid_probe probe;
   1663 	blkid_tag_iterate iter;
   1664 	unsigned char *buf;
   1665 	const char *type, *value;
   1666 	struct stat st;
   1667 	time_t now;
   1668 	double diff;
   1669 	int idx;
   1670 
   1671 	if (!dev)
   1672 		return NULL;
   1673 
   1674 	now = time(0);
   1675 	diff = difftime(now, dev->bid_time);
   1676 
   1677 	if (stat(dev->bid_name, &st) < 0) {
   1678 		DBG(DEBUG_PROBE,
   1679 		    printf("blkid_verify: error %s (%d) while "
   1680 			   "trying to stat %s\n", strerror(errno), errno,
   1681 			   dev->bid_name));
   1682 	open_err:
   1683 		if ((errno == EPERM) || (errno == EACCES) || (errno == ENOENT)) {
   1684 			/* We don't have read permission, just return cache data. */
   1685 			DBG(DEBUG_PROBE, printf("returning unverified data for %s\n",
   1686 						dev->bid_name));
   1687 			return dev;
   1688 		}
   1689 		blkid_free_dev(dev);
   1690 		return NULL;
   1691 	}
   1692 
   1693 	if ((now >= dev->bid_time) &&
   1694 	    (st.st_mtime <= dev->bid_time) &&
   1695 	    ((diff < BLKID_PROBE_MIN) ||
   1696 	     (dev->bid_flags & BLKID_BID_FL_VERIFIED &&
   1697 	      diff < BLKID_PROBE_INTERVAL)))
   1698 		return dev;
   1699 
   1700 	DBG(DEBUG_PROBE,
   1701 	    printf("need to revalidate %s (cache time %lu, stat time %lu,\n\t"
   1702 		   "time since last check %lu)\n",
   1703 		   dev->bid_name, (unsigned long)dev->bid_time,
   1704 		   (unsigned long)st.st_mtime, (unsigned long)diff));
   1705 
   1706 	if ((probe.fd = open(dev->bid_name, O_RDONLY)) < 0) {
   1707 		DBG(DEBUG_PROBE, printf("blkid_verify: error %s (%d) while "
   1708 					"opening %s\n", strerror(errno), errno,
   1709 					dev->bid_name));
   1710 		goto open_err;
   1711 	}
   1712 
   1713 	probe.cache = cache;
   1714 	probe.dev = dev;
   1715 	probe.sbbuf = 0;
   1716 	probe.buf = 0;
   1717 	probe.buf_max = 0;
   1718 
   1719 	/*
   1720 	 * Iterate over the type array.  If we already know the type,
   1721 	 * then try that first.  If it doesn't work, then blow away
   1722 	 * the type information, and try again.
   1723 	 *
   1724 	 */
   1725 try_again:
   1726 	type = 0;
   1727 	if (!dev->bid_type || !strcmp(dev->bid_type, "mdraid")) {
   1728 		uuid_t	uuid;
   1729 
   1730 		if (check_mdraid(probe.fd, uuid) == 0) {
   1731 			set_uuid(dev, uuid, 0);
   1732 			type = "mdraid";
   1733 			goto found_type;
   1734 		}
   1735 	}
   1736 	for (id = type_array; id->bim_type; id++) {
   1737 		if (dev->bid_type &&
   1738 		    strcmp(id->bim_type, dev->bid_type))
   1739 			continue;
   1740 
   1741 		idx = id->bim_kboff + (id->bim_sboff >> 10);
   1742 		buf = get_buffer(&probe, (__u64) idx << 10, 1024);
   1743 		if (!buf)
   1744 			continue;
   1745 
   1746 		if (memcmp(id->bim_magic, buf + (id->bim_sboff & 0x3ff),
   1747 			   id->bim_len))
   1748 			continue;
   1749 
   1750 		if ((id->bim_probe == NULL) ||
   1751 		    (id->bim_probe(&probe, id, buf) == 0)) {
   1752 			type = id->bim_type;
   1753 			goto found_type;
   1754 		}
   1755 	}
   1756 
   1757 	if (!id->bim_type && dev->bid_type) {
   1758 		/*
   1759 		 * Zap the device filesystem information and try again
   1760 		 */
   1761 		DBG(DEBUG_PROBE,
   1762 		    printf("previous fs type %s not valid, "
   1763 			   "trying full probe\n", dev->bid_type));
   1764 		iter = blkid_tag_iterate_begin(dev);
   1765 		while (blkid_tag_next(iter, &type, &value) == 0)
   1766 			blkid_set_tag(dev, type, 0, 0);
   1767 		blkid_tag_iterate_end(iter);
   1768 		goto try_again;
   1769 	}
   1770 
   1771 	if (!dev->bid_type) {
   1772 		blkid_free_dev(dev);
   1773 		dev = 0;
   1774 		goto found_type;
   1775 	}
   1776 
   1777 found_type:
   1778 	if (dev && type) {
   1779 		dev->bid_devno = st.st_rdev;
   1780 		dev->bid_time = time(0);
   1781 		dev->bid_flags |= BLKID_BID_FL_VERIFIED;
   1782 		cache->bic_flags |= BLKID_BIC_FL_CHANGED;
   1783 
   1784 		blkid_set_tag(dev, "TYPE", type, 0);
   1785 
   1786 		DBG(DEBUG_PROBE, printf("%s: devno 0x%04llx, type %s\n",
   1787 			   dev->bid_name, (long long)st.st_rdev, type));
   1788 	}
   1789 
   1790 	free(probe.sbbuf);
   1791 	free(probe.buf);
   1792 	if (probe.fd >= 0)
   1793 		close(probe.fd);
   1794 
   1795 	return dev;
   1796 }
   1797 
   1798 int blkid_known_fstype(const char *fstype)
   1799 {
   1800 	struct blkid_magic *id;
   1801 
   1802 	for (id = type_array; id->bim_type; id++) {
   1803 		if (strcmp(fstype, id->bim_type) == 0)
   1804 			return 1;
   1805 	}
   1806 	return 0;
   1807 }
   1808 
   1809 #ifdef TEST_PROGRAM
   1810 int main(int argc, char **argv)
   1811 {
   1812 	blkid_dev dev;
   1813 	blkid_cache cache;
   1814 	int ret;
   1815 
   1816 	if (argc != 2) {
   1817 		fprintf(stderr, "Usage: %s device\n"
   1818 			"Probe a single device to determine type\n", argv[0]);
   1819 		exit(1);
   1820 	}
   1821 	if ((ret = blkid_get_cache(&cache, "/dev/null")) != 0) {
   1822 		fprintf(stderr, "%s: error creating cache (%d)\n",
   1823 			argv[0], ret);
   1824 		exit(1);
   1825 	}
   1826 	dev = blkid_get_dev(cache, argv[1], BLKID_DEV_NORMAL);
   1827 	if (!dev) {
   1828 		printf("%s: %s has an unsupported type\n", argv[0], argv[1]);
   1829 		return (1);
   1830 	}
   1831 	printf("TYPE='%s'\n", dev->bid_type ? dev->bid_type : "(null)");
   1832 	if (dev->bid_label)
   1833 		printf("LABEL='%s'\n", dev->bid_label);
   1834 	if (dev->bid_uuid)
   1835 		printf("UUID='%s'\n", dev->bid_uuid);
   1836 
   1837 	blkid_free_dev(dev);
   1838 	return (0);
   1839 }
   1840 #endif
   1841