| blob | 58bf744dbf392b51d05fedf979118cddd5b50663 |
1 /*
2 * linux/fs/fat/dir.c
3 *
4 * directory handling functions for fat-based filesystems
5 *
6 * Written 1992,1993 by Werner Almesberger
7 *
8 * Hidden files 1995 by Albert Cahalan <albert@ccs.neu.edu> <adc@coe.neu.edu>
9 *
10 * VFAT extensions by Gordon Chaffee <chaffee@plateau.cs.berkeley.edu>
11 * Merged with msdos fs by Henrik Storner <storner@osiris.ping.dk>
12 * Rewritten for constant inumbers. Plugged buffer overrun in readdir(). AV
13 * Short name translation 1999, 2001 by Wolfram Pienkoss <wp@bszh.de>
14 */
16 #include <linux/module.h>
17 #include <linux/slab.h>
18 #include <linux/time.h>
19 #include <linux/buffer_head.h>
20 #include <linux/compat.h>
21 #include <linux/uaccess.h>
22 #include <linux/kernel.h>
25 /*
26 * Maximum buffer size of short name.
27 * [(MSDOS_NAME + '.') * max one char + nul]
28 * For msdos style, ['.' (hidden) + MSDOS_NAME + '.' + nul]
29 */
30 #define FAT_MAX_SHORT_SIZE ((MSDOS_NAME + 1) * NLS_MAX_CHARSET_SIZE + 1)
31 /*
32 * Maximum buffer size of unicode chars from slots.
33 * [(max longname slots * 13 (size in a slot) + nul) * sizeof(wchar_t)]
34 */
35 #define FAT_MAX_UNI_CHARS ((MSDOS_SLOTS - 1) * 13 + 1)
36 #define FAT_MAX_UNI_SIZE (FAT_MAX_UNI_CHARS * sizeof(wchar_t))
39 {
41 }
46 {
49 }
52 sector_t phys)
53 {
59 /* This is not a first sector of cluster, or sec_per_clus == 1 */
62 /* root dir of FAT12/FAT16 */
70 }
72 }
74 /* Returns the inode number of the directory entry at offset pos. If bh is
75 non-NULL, it is brelse'd before. Pos is incremented. The buffer header is
76 returned in bh.
77 AV. Most often we do it item-by-item. Makes sense to optimize.
78 AV. OK, there we go: if both bh and de are non-NULL we assume that we just
79 AV. want the next entry (took one explicit de=NULL in vfat/namei.c).
80 AV. It's done in fat_get_entry() (inlined), here the slow case lives.
81 AV. Additionally, when we return -1 (i.e. reached the end of directory)
82 AV. we make bh NULL.
83 */
86 {
92 next:
108 /* skip this block */
111 }
118 }
123 {
124 /* Fast stuff first */
131 }
133 }
135 /*
136 * Convert Unicode 16 to UTF-8, translated Unicode, or ASCII.
137 * If uni_xlate is enabled and we can't get a 1:1 conversion, use a
138 * colon as an escape character since it is normally invalid on the vfat
139 * filesystem. The following four characters are the hexadecimal digits
140 * of Unicode value. This lets us do a full dump and restore of Unicode
141 * filenames. We could get into some trouble with long Unicode names,
142 * but ignore that right now.
143 * Ahem... Stack smashing in ring 0 isn't fun. Fixed.
144 */
147 {
171 len--;
172 }
173 }
174 }
179 }
183 }
187 {
192 else
194 }
198 {
205 }
207 }
212 {
230 }
235 }
240 {
250 else
256 }
261 {
267 else
269 }
273 /**
274 * fat_parse_long - Parse extended directory entry.
275 *
276 * This function returns zero on success, negative value on error, or one of
277 * the following:
278 *
279 * %PARSE_INVALID - Directory entry is invalid.
280 * %PARSE_NOT_LONGNAME - Directory entry does not contain longname.
281 * %PARSE_EOF - Directory has no more entries.
282 */
286 {
295 }
296 }
297 parse_long:
313 slot--;
332 }
343 }
345 /**
346 * fat_parse_short - Parse MS-DOS (short) directory entry.
347 * @sb: superblock
348 * @de: directory entry to parse
349 * @name: FAT_MAX_SHORT_SIZE array in which to place extracted name
350 * @dot_hidden: Nonzero == prepend '.' to names with ATTR_HIDDEN
351 *
352 * Returns the number of characters extracted into 'name'.
353 */
357 {
373 }
376 /* see namei.c, msdos_format_name */
380 /* Filename */
391 i++;
395 }
403 }
406 }
407 }
414 i++;
416 /* Extension */
425 k++;
428 i++;
432 }
443 }
444 }
447 }
448 }
456 FAT_MAX_SHORT_SIZE);
457 }
458 }
461 }
463 /*
464 * Return values: negative -> error/not found, 0 -> found.
465 */
468 {
483 parse_record:
503 }
505 /* Never prepend '.' to hidden files here.
506 * That is done only for msdos mounts (and only when
507 * 'dotsOK=yes'); if we are executing here, it is in the
508 * context of a vfat mount.
509 */
514 /* Compare shortname */
522 /* Compare longname */
526 }
527 }
529 found:
537 end_of_dir:
542 }
548 /* for dir ioctl */
553 };
557 {
569 loff_t cpos;
576 /* Fake . and .. for the root directory. */
582 cpos++;
584 }
589 }
590 }
594 }
597 get_new:
600 parse_record:
602 /*
603 * Check for long filename entry, but if short_only, we don't
604 * need to parse long filename.
605 */
616 }
639 /* !both && !short_only, so we don't need shortname. */
642 }
643 }
650 /* hack for fat_ioctl_filldir() */
662 }
664 start_filldir:
678 }
684 record_end:
688 end_of_dir:
690 fill_failed:
694 out:
697 }
700 {
703 }
705 #define FAT_IOCTL_FILLDIR_FUNC(func, dirent_type) \
706 static int func(void *__buf, const char *name, int name_len, \
707 loff_t offset, u64 ino, unsigned int d_type) \
708 { \
709 struct fat_ioctl_filldir_callback *buf = __buf; \
710 struct dirent_type __user *d1 = buf->dirent; \
711 struct dirent_type __user *d2 = d1 + 1; \
712 \
713 if (buf->result) \
714 return -EINVAL; \
715 buf->result++; \
716 \
717 if (name != NULL) { \
719 if (name_len >= sizeof(d1->d_name)) \
720 name_len = sizeof(d1->d_name) - 1; \
721 \
722 if (put_user(0, d2->d_name) || \
723 put_user(0, &d2->d_reclen) || \
724 copy_to_user(d1->d_name, name, name_len) || \
725 put_user(0, d1->d_name + name_len) || \
726 put_user(name_len, &d1->d_reclen)) \
727 goto efault; \
728 } else { \
730 const char *longname = buf->longname; \
731 int long_len = buf->long_len; \
732 const char *shortname = buf->shortname; \
733 int short_len = buf->short_len; \
734 \
735 if (long_len >= sizeof(d1->d_name)) \
736 long_len = sizeof(d1->d_name) - 1; \
737 if (short_len >= sizeof(d1->d_name)) \
738 short_len = sizeof(d1->d_name) - 1; \
739 \
740 if (copy_to_user(d2->d_name, longname, long_len) || \
741 put_user(0, d2->d_name + long_len) || \
742 put_user(long_len, &d2->d_reclen) || \
743 put_user(ino, &d2->d_ino) || \
744 put_user(offset, &d2->d_off) || \
745 copy_to_user(d1->d_name, shortname, short_len) || \
746 put_user(0, d1->d_name + short_len) || \
747 put_user(short_len, &d1->d_reclen)) \
748 goto efault; \
749 } \
750 return 0; \
751 efault: \
752 buf->result = -EFAULT; \
753 return -EFAULT; \
754 }
761 {
772 }
777 }
781 {
797 }
801 /*
802 * Yes, we don't need this put_user() absolutely. However old
803 * code didn't return the right value. So, app use this value,
804 * in order to check whether it is EOF.
805 */
811 }
813 #ifdef CONFIG_COMPAT
821 {
837 }
841 /*
842 * Yes, we don't need this put_user() absolutely. However old
843 * code didn't return the right value. So, app use this value,
844 * in order to check whether it is EOF.
845 */
851 }
859 #ifdef CONFIG_COMPAT
861 #endif
863 };
868 {
870 /* free entry or long name entry or volume label */
873 }
875 }
877 /*
878 * The ".." entry can not provide the "struct fat_slot_info" information
879 * for inode, nor a usable i_pos. So, this function provides some information
880 * only.
881 *
882 * Since this function walks through the on-disk inodes within a directory,
883 * callers are responsible for taking any locks necessary to prevent the
884 * directory from changing.
885 */
888 {
895 }
897 }
900 /* See if directory is empty */
902 {
905 loff_t cpos;
915 }
916 }
919 }
922 /*
923 * fat_subdirs counts the number of sub-directories of dir. It can be run
924 * on directories being created.
925 */
927 {
930 loff_t cpos;
937 count++;
938 }
941 }
943 /*
944 * Scans a directory for a given file (name points to its formatted name).
945 * Returns an error code or zero.
946 */
949 {
961 }
962 }
964 }
968 {
979 }
985 de++;
986 nr_slots--;
987 }
995 /* pos is *next* de's position, so this does `- sizeof(de)' */
997 }
1000 }
1003 {
1009 /*
1010 * First stage: Remove the shortname. By this, the directory
1011 * entry is removed.
1012 */
1020 de--;
1021 nr_slots--;
1022 }
1032 /*
1033 * Second stage: remove the remaining longname slots.
1034 * (This directory entry is already removed, and so return
1035 * the success)
1036 */
1041 }
1042 }
1047 else
1051 }
1056 {
1061 /* Zeroing the unused blocks on this cluster */
1069 }
1074 n++;
1075 blknr++;
1081 }
1085 }
1086 }
1091 }
1097 error:
1101 }
1104 {
1109 sector_t blknr;
1111 u8 time_cs;
1123 }
1128 /* filling the new directory slots ("." and ".." entries) */
1136 /* extra timestamps */
1144 }
1158 error_free:
1160 error:
1162 }
1168 {
1176 /*
1177 * The minimum cluster size is 512bytes, and maximum entry
1178 * size is 32*slots (672bytes). So, iff the cluster size is
1179 * 512bytes, we may need two clusters.
1180 */
1189 /*
1190 * First stage: Fill the directory entry. NOTE: This cluster
1191 * is not referenced from any inode yet, so updates order is
1192 * not important.
1193 */
1203 }
1205 /* fill the directory entry */
1214 n++;
1215 blknr++;
1216 }
1226 /* Second stage: clear the rest of cluster, and write outs */
1233 error_free:
1237 error_nomem:
1241 error:
1243 }
1247 {
1257 /* First stage: search free directory entries */
1263 /* check the maximum size of directory */
1271 nr_bhs++;
1272 }
1273 free_slots++;
1281 }
1282 }
1291 }
1293 found:
1298 /*
1299 * Second stage: filling the free entries with new entries.
1300 * NOTE: If this slots has shortname, first, we write
1301 * the long name slots, then write the short name.
1302 */
1307 /* Fill the long name slots. */
1315 }
1319 /* Fill the short name slot. */
1325 }
1330 }
1335 /*
1336 * Third stage: allocate the cluster for new entries.
1337 * And initialize the cluster with new entries, then
1338 * add the cluster to dir.
1339 */
1345 }
1350 }
1355 }
1358 }
1366 error:
1372 error_remove:
1377 }