2 * Copyright (C) 2010 The Android Open Source Project
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
16 #include "ext4_utils.h"
17 #include "make_ext4fs.h"
18 #include "ext4_extents.h"
20 #include "ext4fixup.h"
22 #include <sparse/sparse.h>
24 #include <sys/types.h>
26 #include <sys/types.h>
31 #if defined(__APPLE__) && defined(__MACH__)
36 /* The inode block count for a file/directory is in units of 512 byte blocks,
37 * _NOT_ the filesystem block size!
39 #define INODE_BLOCK_SIZE 512
41 #define MAX_EXT4_BLOCK_SIZE 4096
43 /* The two modes the recurse_dir() can be in */
44 #define SANITY_CHECK_PASS 1
45 #define MARK_INODE_NUMS 2
46 #define UPDATE_INODE_NUMS 3
48 /* Magic numbers to indicate what state the update process is in */
49 #define MAGIC_STATE_MARKING_INUMS 0x7000151515565512ll
50 #define MAGIC_STATE_UPDATING_INUMS 0x6121131211735123ll
51 #define MAGIC_STATE_UPDATING_SB 0x15e1715151558477ll
53 /* Internal state variables corresponding to the magic numbers */
55 #define STATE_MARKING_INUMS 1
56 #define STATE_UPDATING_INUMS 2
57 #define STATE_UPDATING_SB 3
59 /* Used for automated testing of this programs ability to stop and be restarted wthout error */
60 static int bail_phase
= 0;
61 static int bail_loc
= 0;
62 static int bail_count
= 0;
66 static int verbose
= 0;
67 static int no_write
= 0;
69 static int new_inodes_per_group
= 0;
71 static int no_write_fixup_state
= 0;
73 static int compute_new_inum(unsigned int old_inum
)
75 unsigned int group
, offset
;
77 group
= (old_inum
- 1) / info
.inodes_per_group
;
78 offset
= (old_inum
-1) % info
.inodes_per_group
;
80 return (group
* new_inodes_per_group
) + offset
+ 1;
83 static int get_fs_fixup_state(int fd
)
85 unsigned long long magic
;
89 return no_write_fixup_state
;
92 lseek64(fd
, 0, SEEK_SET
);
93 len
= read(fd
, &magic
, sizeof(magic
));
94 if (len
!= sizeof(magic
)) {
95 critical_error("cannot read fixup_state\n");
99 case MAGIC_STATE_MARKING_INUMS
:
100 ret
= STATE_MARKING_INUMS
;
102 case MAGIC_STATE_UPDATING_INUMS
:
103 ret
= STATE_UPDATING_INUMS
;
105 case MAGIC_STATE_UPDATING_SB
:
106 ret
= STATE_UPDATING_SB
;
114 static int set_fs_fixup_state(int fd
, int state
)
116 unsigned long long magic
;
117 struct ext4_super_block sb
;
121 no_write_fixup_state
= state
;
126 case STATE_MARKING_INUMS
:
127 magic
= MAGIC_STATE_MARKING_INUMS
;
129 case STATE_UPDATING_INUMS
:
130 magic
= MAGIC_STATE_UPDATING_INUMS
;
132 case STATE_UPDATING_SB
:
133 magic
= MAGIC_STATE_UPDATING_SB
;
141 lseek64(fd
, 0, SEEK_SET
);
142 len
= write(fd
, &magic
, sizeof(magic
));
143 if (len
!= sizeof(magic
)) {
144 critical_error("cannot write fixup_state\n");
149 /* If we are in the process of updating the filesystem, make it unmountable */
152 /* we are done, so make the filesystem mountable again */
153 sb
.s_desc_size
&= ~1;
157 write_sb(fd
, 1024, &sb
);
163 static int read_inode(int fd
, unsigned int inum
, struct ext4_inode
*inode
)
165 unsigned int bg_num
, bg_offset
;
166 off64_t inode_offset
;
169 bg_num
= (inum
-1) / info
.inodes_per_group
;
170 bg_offset
= (inum
-1) % info
.inodes_per_group
;
172 inode_offset
= ((unsigned long long)aux_info
.bg_desc
[bg_num
].bg_inode_table
* info
.block_size
) +
173 (bg_offset
* info
.inode_size
);
175 if (lseek64(fd
, inode_offset
, SEEK_SET
) < 0) {
176 critical_error_errno("failed to seek to inode %d\n", inum
);
179 len
=read(fd
, inode
, sizeof(*inode
));
180 if (len
!= sizeof(*inode
)) {
181 critical_error_errno("failed to read inode %d\n", inum
);
187 static int read_block(int fd
, unsigned long long block_num
, void *block
)
192 off
= block_num
* info
.block_size
;
194 if (lseek64(fd
, off
, SEEK_SET
) , 0) {
195 critical_error_errno("failed to seek to block %lld\n", block_num
);
198 len
=read(fd
, block
, info
.block_size
);
199 if (len
!= info
.block_size
) {
200 critical_error_errno("failed to read block %lld\n", block_num
);
206 static int write_block(int fd
, unsigned long long block_num
, void *block
)
215 off
= block_num
* info
.block_size
;
217 if (lseek64(fd
, off
, SEEK_SET
) < 0) {
218 critical_error_errno("failed to seek to block %lld\n", block_num
);
221 len
=write(fd
, block
, info
.block_size
);
222 if (len
!= info
.block_size
) {
223 critical_error_errno("failed to write block %lld\n", block_num
);
229 static void check_inode_bitmap(int fd
, unsigned int bg_num
)
231 unsigned int inode_bitmap_block_num
;
232 unsigned char block
[MAX_EXT4_BLOCK_SIZE
];
233 int i
, bitmap_updated
= 0;
235 /* Using the bg_num, aux_info.bg_desc[], info.inodes_per_group and
236 * new_inodes_per_group, retrieve the inode bitmap, and make sure
237 * the bits between the old and new size are clear
239 inode_bitmap_block_num
= aux_info
.bg_desc
[bg_num
].bg_inode_bitmap
;
241 read_block(fd
, inode_bitmap_block_num
, block
);
243 for (i
= info
.inodes_per_group
; i
< new_inodes_per_group
; i
++) {
244 if (bitmap_get_bit(block
, i
)) {
245 bitmap_clear_bit(block
, i
);
250 if (bitmap_updated
) {
252 printf("Warning: updated inode bitmap for block group %d\n", bg_num
);
254 write_block(fd
, inode_bitmap_block_num
, block
);
260 /* Update the superblock and bgdesc of the specified block group */
261 static int update_superblocks_and_bg_desc(int fd
, int state
)
264 struct ext4_super_block sb
;
265 unsigned int num_block_groups
, total_new_inodes
;
271 /* Compute how many more inodes are now available */
272 num_block_groups
= DIV_ROUND_UP(aux_info
.len_blocks
, info
.blocks_per_group
);
273 total_new_inodes
= num_block_groups
* (new_inodes_per_group
- sb
.s_inodes_per_group
);
276 printf("created %d additional inodes\n", total_new_inodes
);
279 /* Update the free inodes count in each block group descriptor */
280 for (i
= 0; i
< num_block_groups
; i
++) {
281 if (state
== STATE_UPDATING_SB
) {
282 aux_info
.bg_desc
[i
].bg_free_inodes_count
+= (new_inodes_per_group
- sb
.s_inodes_per_group
);
284 check_inode_bitmap(fd
, i
);
287 /* First some sanity checks */
288 if ((sb
.s_inodes_count
+ total_new_inodes
) != (new_inodes_per_group
* num_block_groups
)) {
289 critical_error("Failed sanity check on new inode count\n");
291 if (new_inodes_per_group
% (info
.block_size
/info
.inode_size
)) {
292 critical_error("Failed sanity check on new inode per group alignment\n");
295 /* Update the free inodes count in the superblock */
296 sb
.s_inodes_count
+= total_new_inodes
;
297 sb
.s_free_inodes_count
+= total_new_inodes
;
298 sb
.s_inodes_per_group
= new_inodes_per_group
;
300 for (i
= 0; i
< aux_info
.groups
; i
++) {
301 if (ext4_bg_has_super_block(i
)) {
302 unsigned int sb_offset
;
305 /* The first superblock is offset by 1K to leave room for boot sectors */
311 sb
.s_block_group_nr
= i
;
312 /* Don't write out the backup superblocks with the bit set in the s_desc_size
313 * which prevents the filesystem from mounting. The bit for the primary
314 * superblock will be cleared on the final call to set_fs_fixup_state() */
316 sb
.s_desc_size
&= ~1;
321 (unsigned long long)i
322 * info
.blocks_per_group
* info
.block_size
327 ret
= lseek64(fd
, ((unsigned long long)i
* info
.blocks_per_group
* info
.block_size
) +
328 (info
.block_size
* (aux_info
.first_data_block
+ 1)), SEEK_SET
);
330 critical_error_errno("failed to seek to block group descriptors");
333 ret
= write(fd
, aux_info
.bg_desc
, info
.block_size
* aux_info
.bg_desc_blocks
);
335 critical_error_errno("failed to write block group descriptors");
336 if (ret
!= (int)info
.block_size
* (int)aux_info
.bg_desc_blocks
)
337 critical_error("failed to write all of block group descriptors");
340 if ((bail_phase
== 4) && ((unsigned int)bail_count
== i
)) {
341 critical_error("bailing at phase 4\n");
349 static int get_direct_blocks(struct ext4_inode
*inode
, unsigned long long *block_list
,
353 unsigned int ret
= 0;
354 unsigned int sectors_per_block
;
356 sectors_per_block
= info
.block_size
/ INODE_BLOCK_SIZE
;
357 while ((i
< (inode
->i_blocks_lo
/ sectors_per_block
)) && (i
< EXT4_NDIR_BLOCKS
)) {
358 block_list
[i
] = inode
->i_block
[i
];
364 if ((inode
->i_blocks_lo
/ sectors_per_block
) > EXT4_NDIR_BLOCKS
) {
371 static int get_indirect_blocks(int fd
, struct ext4_inode
*inode
,
372 unsigned long long *block_list
, unsigned int *count
)
375 unsigned int *indirect_block
;
376 unsigned int sectors_per_block
;
378 sectors_per_block
= info
.block_size
/ INODE_BLOCK_SIZE
;
380 indirect_block
= (unsigned int *)malloc(info
.block_size
);
381 if (indirect_block
== 0) {
382 critical_error("failed to allocate memory for indirect_block\n");
385 read_block(fd
, inode
->i_block
[EXT4_NDIR_BLOCKS
], indirect_block
);
387 for(i
= 0; i
< (inode
->i_blocks_lo
/ sectors_per_block
- EXT4_NDIR_BLOCKS
); i
++) {
388 block_list
[EXT4_NDIR_BLOCKS
+i
] = indirect_block
[i
];
393 free(indirect_block
);
398 static int get_block_list_indirect(int fd
, struct ext4_inode
*inode
, unsigned long long *block_list
)
400 unsigned int count
=0;
402 if (get_direct_blocks(inode
, block_list
, &count
)) {
403 get_indirect_blocks(fd
, inode
, block_list
, &count
);
409 static int get_extent_ents(struct ext4_extent_header
*ext_hdr
, unsigned long long *block_list
)
412 struct ext4_extent
*extent
;
413 off64_t fs_block_num
;
415 if (ext_hdr
->eh_depth
!= 0) {
416 critical_error("get_extent_ents called with eh_depth != 0\n");
419 /* The extent entries immediately follow the header, so add 1 to the pointer
420 * and cast it to an extent pointer.
422 extent
= (struct ext4_extent
*)(ext_hdr
+ 1);
424 for (i
= 0; i
< ext_hdr
->eh_entries
; i
++) {
425 fs_block_num
= ((off64_t
)extent
->ee_start_hi
<< 32) | extent
->ee_start_lo
;
426 for (j
= 0; j
< extent
->ee_len
; j
++) {
427 block_list
[extent
->ee_block
+j
] = fs_block_num
+j
;
435 static int get_extent_idx(int fd
, struct ext4_extent_header
*ext_hdr
, unsigned long long *block_list
)
438 struct ext4_extent_idx
*extent_idx
;
439 struct ext4_extent_header
*tmp_ext_hdr
;
440 off64_t fs_block_num
;
441 unsigned char block
[MAX_EXT4_BLOCK_SIZE
];
444 if (ext_hdr
->eh_depth
== 0) {
445 critical_error("get_extent_idx called with eh_depth == 0\n");
448 /* The extent entries immediately follow the header, so add 1 to the pointer
449 * and cast it to an extent pointer.
451 extent_idx
= (struct ext4_extent_idx
*)(ext_hdr
+ 1);
453 for (i
= 0; i
< ext_hdr
->eh_entries
; i
++) {
454 fs_block_num
= ((off64_t
)extent_idx
->ei_leaf_hi
<< 32) | extent_idx
->ei_leaf_lo
;
455 read_block(fd
, fs_block_num
, block
);
456 tmp_ext_hdr
= (struct ext4_extent_header
*)block
;
458 if (tmp_ext_hdr
->eh_depth
== 0) {
459 get_extent_ents(tmp_ext_hdr
, block_list
); /* leaf node, fill in block_list */
461 get_extent_idx(fd
, tmp_ext_hdr
, block_list
); /* recurse down the tree */
468 static int get_block_list_extents(int fd
, struct ext4_inode
*inode
, unsigned long long *block_list
)
470 struct ext4_extent_header
*extent_hdr
;
472 extent_hdr
= (struct ext4_extent_header
*)inode
->i_block
;
474 if (extent_hdr
->eh_magic
!= EXT4_EXT_MAGIC
) {
475 critical_error("extent header has unexpected magic value 0x%4.4x\n",
476 extent_hdr
->eh_magic
);
479 if (extent_hdr
->eh_depth
== 0) {
480 get_extent_ents((struct ext4_extent_header
*)inode
->i_block
, block_list
);
484 get_extent_idx(fd
, (struct ext4_extent_header
*)inode
->i_block
, block_list
);
489 static int is_entry_dir(int fd
, struct ext4_dir_entry_2
*dirp
, int pass
)
491 struct ext4_inode inode
;
494 if (dirp
->file_type
== EXT4_FT_DIR
) {
496 } else if (dirp
->file_type
== EXT4_FT_UNKNOWN
) {
497 /* Somebody was too lazy to fill in the dir entry,
498 * so we have to go fetch it from the inode. Grrr.
500 /* if UPDATE_INODE_NUMS pass and the inode high bit is not
501 * set return false so we don't recurse down the tree that is
502 * already updated. Otherwise, fetch inode, and return answer.
504 if ((pass
== UPDATE_INODE_NUMS
) && !(dirp
->inode
& 0x80000000)) {
507 read_inode(fd
, (dirp
->inode
& 0x7fffffff), &inode
);
508 if (S_ISDIR(inode
.i_mode
)) {
517 static int recurse_dir(int fd
, struct ext4_inode
*inode
, char *dirbuf
, int dirsize
, int mode
)
519 unsigned long long *block_list
;
520 unsigned int num_blocks
;
521 struct ext4_dir_entry_2
*dirp
, *prev_dirp
= 0;
523 unsigned int i
, leftover_space
, is_dir
;
524 struct ext4_inode tmp_inode
;
529 case SANITY_CHECK_PASS
:
530 case MARK_INODE_NUMS
:
531 case UPDATE_INODE_NUMS
:
534 critical_error("recurse_dir() called witn unknown mode!\n");
537 if (dirsize
% info
.block_size
) {
538 critical_error("dirsize %d not a multiple of block_size %d. This is unexpected!\n",
539 dirsize
, info
.block_size
);
542 num_blocks
= dirsize
/ info
.block_size
;
544 block_list
= malloc((num_blocks
+ 1) * sizeof(*block_list
));
545 if (block_list
== 0) {
546 critical_error("failed to allocate memory for block_list\n");
549 if (inode
->i_flags
& EXT4_EXTENTS_FL
) {
550 get_block_list_extents(fd
, inode
, block_list
);
552 /* A directory that requires doubly or triply indirect blocks in huge indeed,
553 * and will almost certainly not exist, especially since make_ext4fs only creates
554 * directories with extents, and the kernel will too, but check to make sure the
555 * directory is not that big and give an error if so. Our limit is 12 direct blocks,
556 * plus block_size/4 singly indirect blocks, which for a filesystem with 4K blocks
557 * is a directory 1036 blocks long, or 4,243,456 bytes long! Assuming an average
558 * filename length of 20 (which I think is generous) thats 20 + 8 bytes overhead
559 * per entry, or 151,552 entries in the directory!
561 if (num_blocks
> (info
.block_size
/ 4 + EXT4_NDIR_BLOCKS
)) {
562 critical_error("Non-extent based directory is too big!\n");
564 get_block_list_indirect(fd
, inode
, block_list
);
567 /* Read in all the blocks for this directory */
568 for (i
= 0; i
< num_blocks
; i
++) {
569 read_block(fd
, block_list
[i
], dirbuf
+ (i
* info
.block_size
));
572 dirp
= (struct ext4_dir_entry_2
*)dirbuf
;
573 while (dirp
< (struct ext4_dir_entry_2
*)(dirbuf
+ dirsize
)) {
575 leftover_space
= (char *)(dirbuf
+ dirsize
) - (char *)dirp
;
576 if (((mode
== SANITY_CHECK_PASS
) || (mode
== UPDATE_INODE_NUMS
)) &&
577 (leftover_space
<= 8) && prev_dirp
) {
578 /* This is a bug in an older version of make_ext4fs, where it
579 * didn't properly include the rest of the block in rec_len.
580 * Update rec_len on the previous entry to include the rest of
581 * the block and exit the loop.
584 printf("fixing up short rec_len for diretory entry for %s\n", name
);
586 prev_dirp
->rec_len
+= leftover_space
;
590 if (dirp
->inode
== 0) {
591 /* This is the last entry in the directory */
595 strncpy(name
, dirp
->name
, dirp
->name_len
);
596 name
[dirp
->name_len
]='\0';
598 /* Only recurse on pass UPDATE_INODE_NUMS if the high bit is set.
599 * Otherwise, this inode entry has already been updated
600 * and we'll do the wrong thing. Also don't recurse on . or ..,
601 * and certainly not on non-directories!
603 /* Hrm, looks like filesystems made by fastboot on stingray set the file_type
604 * flag, but the lost+found directory has the type set to Unknown, which
605 * seems to imply I need to read the inode and get it.
607 is_dir
= is_entry_dir(fd
, dirp
, mode
);
608 if ( is_dir
&& (strcmp(name
, ".") && strcmp(name
, "..")) &&
609 ((mode
== SANITY_CHECK_PASS
) || (mode
== MARK_INODE_NUMS
) ||
610 ((mode
== UPDATE_INODE_NUMS
) && (dirp
->inode
& 0x80000000))) ) {
611 /* A directory! Recurse! */
612 read_inode(fd
, dirp
->inode
& 0x7fffffff, &tmp_inode
);
614 if (!S_ISDIR(tmp_inode
.i_mode
)) {
615 critical_error("inode %d for name %s does not point to a directory\n",
616 dirp
->inode
& 0x7fffffff, name
);
619 printf("inode %d %s use extents\n", dirp
->inode
& 0x7fffffff,
620 (tmp_inode
.i_flags
& EXT4_EXTENTS_FL
) ? "does" : "does not");
623 tmp_dirsize
= tmp_inode
.i_blocks_lo
* INODE_BLOCK_SIZE
;
625 printf("dir size = %d bytes\n", tmp_dirsize
);
628 tmp_dirbuf
= malloc(tmp_dirsize
);
629 if (tmp_dirbuf
== 0) {
630 critical_error("failed to allocate memory for tmp_dirbuf\n");
633 recurse_dir(fd
, &tmp_inode
, tmp_dirbuf
, tmp_dirsize
, mode
);
640 printf("Directory %s\n", name
);
642 printf("Non-directory %s\n", name
);
646 /* Process entry based on current mode. Either set high bit or change inode number */
647 if (mode
== MARK_INODE_NUMS
) {
648 dirp
->inode
|= 0x80000000;
649 } else if (mode
== UPDATE_INODE_NUMS
) {
650 if (dirp
->inode
& 0x80000000) {
651 dirp
->inode
= compute_new_inum(dirp
->inode
& 0x7fffffff);
655 if ((bail_phase
== mode
) && (bail_loc
== 1) && (bail_count
== count
)) {
656 critical_error("Bailing at phase %d, loc 1 and count %d\n", mode
, count
);
659 /* Point dirp at the next entry */
661 dirp
= (struct ext4_dir_entry_2
*)((char *)dirp
+ dirp
->rec_len
);
664 /* Write out all the blocks for this directory */
665 for (i
= 0; i
< num_blocks
; i
++) {
666 write_block(fd
, block_list
[i
], dirbuf
+ (i
* info
.block_size
));
667 if ((bail_phase
== mode
) && (bail_loc
== 2) && (bail_count
<= count
)) {
668 critical_error("Bailing at phase %d, loc 2 and count %d\n", mode
, count
);
677 int ext4fixup(char *fsdev
)
679 return ext4fixup_internal(fsdev
, 0, 0, 0, 0, 0);
682 int ext4fixup_internal(char *fsdev
, int v_flag
, int n_flag
,
683 int stop_phase
, int stop_loc
, int stop_count
)
686 struct ext4_inode root_inode
;
687 unsigned int dirsize
;
690 if (setjmp(setjmp_env
))
691 return EXIT_FAILURE
; /* Handle a call to longjmp() */
696 bail_phase
= stop_phase
;
698 bail_count
= stop_count
;
700 fd
= open(fsdev
, O_RDWR
);
703 critical_error_errno("failed to open filesystem image");
705 read_ext(fd
, verbose
);
707 if (info
.feat_incompat
& EXT4_FEATURE_INCOMPAT_RECOVER
) {
708 critical_error("Filesystem needs recovery first, mount and unmount to do that\n");
711 /* Clear the low bit which is set while this tool is in progress.
712 * If the tool crashes, it will still be set when we restart.
713 * The low bit is set to make the filesystem unmountable while
714 * it is being fixed up. Also allow 0, which means the old ext2
717 if (((aux_info
.sb
->s_desc_size
& ~1) != sizeof(struct ext2_group_desc
)) &&
718 ((aux_info
.sb
->s_desc_size
& ~1) != 0))
719 critical_error("error: bg_desc_size != sizeof(struct ext2_group_desc)\n");
721 if ((info
.feat_incompat
& EXT4_FEATURE_INCOMPAT_FILETYPE
) == 0) {
722 critical_error("Expected filesystem to have filetype flag set\n");
725 #if 0 // If we have to fix the directory rec_len issue, we can't use this check
726 /* Check to see if the inodes/group is copacetic */
727 if (info
.inodes_per_blockgroup
% (info
.block_size
/info
.inode_size
) == 0) {
728 /* This filesystem has either already been updated, or was
732 printf("%s: filesystem correct, no work to do\n", me
);
738 /* Compute what the new value of inodes_per_blockgroup will be when we're done */
739 new_inodes_per_group
=EXT4_ALIGN(info
.inodes_per_group
,(info
.block_size
/info
.inode_size
));
741 read_inode(fd
, EXT4_ROOT_INO
, &root_inode
);
743 if (!S_ISDIR(root_inode
.i_mode
)) {
744 critical_error("root inode %d does not point to a directory\n", EXT4_ROOT_INO
);
747 printf("inode %d %s use extents\n", EXT4_ROOT_INO
,
748 (root_inode
.i_flags
& EXT4_EXTENTS_FL
) ? "does" : "does not");
751 dirsize
= root_inode
.i_blocks_lo
* INODE_BLOCK_SIZE
;
753 printf("root dir size = %d bytes\n", dirsize
);
756 dirbuf
= malloc(dirsize
);
758 critical_error("failed to allocate memory for dirbuf\n");
761 /* Perform a sanity check pass first, try to catch any errors that will occur
762 * before we actually change anything, so we don't leave a filesystem in a
763 * corrupted, unrecoverable state. Set no_write, make it quiet, and do a recurse
764 * pass and a update_superblock pass. Set flags back to requested state when done.
765 * Only perform sanity check if the state is unset. If the state is _NOT_ unset,
766 * then the tool has already been run and interrupted, and it presumably ran and
767 * passed sanity checked before it got interrupted. It is _NOT_ safe to run sanity
768 * check if state is unset because it assumes inodes are to be computed using the
769 * old inodes/group, but some inode numbers may be updated to the new number.
771 if (get_fs_fixup_state(fd
) == STATE_UNSET
) {
774 recurse_dir(fd
, &root_inode
, dirbuf
, dirsize
, SANITY_CHECK_PASS
);
775 update_superblocks_and_bg_desc(fd
, STATE_UNSET
);
779 set_fs_fixup_state(fd
, STATE_MARKING_INUMS
);
782 if (get_fs_fixup_state(fd
) == STATE_MARKING_INUMS
) {
783 count
= 0; /* Reset debugging counter */
784 if (!recurse_dir(fd
, &root_inode
, dirbuf
, dirsize
, MARK_INODE_NUMS
)) {
785 set_fs_fixup_state(fd
, STATE_UPDATING_INUMS
);
789 if (get_fs_fixup_state(fd
) == STATE_UPDATING_INUMS
) {
790 count
= 0; /* Reset debugging counter */
791 if (!recurse_dir(fd
, &root_inode
, dirbuf
, dirsize
, UPDATE_INODE_NUMS
)) {
792 set_fs_fixup_state(fd
, STATE_UPDATING_SB
);
796 if (get_fs_fixup_state(fd
) == STATE_UPDATING_SB
) {
797 /* set the new inodes/blockgroup number,
798 * and sets the state back to 0.
800 if (!update_superblocks_and_bg_desc(fd
, STATE_UPDATING_SB
)) {
801 set_fs_fixup_state(fd
, STATE_UNSET
);