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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [redboot/] [v2_0/] [src/] [fs/] [e2fs.c] - Blame information for rev 563

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//==========================================================================
2
//
3
//      e2fs.c
4
//
5
//      RedBoot support for second extended filesystem
6
//
7
//==========================================================================
8
//####ECOSGPLCOPYRIGHTBEGIN####
9
// -------------------------------------------
10
// This file is part of eCos, the Embedded Configurable Operating System.
11
// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
12
// Copyright (C) 2003 Gary Thomas <gary@mind.be>
13
//
14
// eCos is free software; you can redistribute it and/or modify it under
15
// the terms of the GNU General Public License as published by the Free
16
// Software Foundation; either version 2 or (at your option) any later version.
17
//
18
// eCos is distributed in the hope that it will be useful, but WITHOUT ANY
19
// WARRANTY; without even the implied warranty of MERCHANTABILITY or
20
// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
21
// for more details.
22
//
23
// You should have received a copy of the GNU General Public License along
24
// with eCos; if not, write to the Free Software Foundation, Inc.,
25
// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
26
//
27
// As a special exception, if other files instantiate templates or use macros
28
// or inline functions from this file, or you compile this file and link it
29
// with other works to produce a work based on this file, this file does not
30
// by itself cause the resulting work to be covered by the GNU General Public
31
// License. However the source code for this file must still be made available
32
// in accordance with section (3) of the GNU General Public License.
33
//
34
// This exception does not invalidate any other reasons why a work based on
35
// this file might be covered by the GNU General Public License.
36
//
37
// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.
38
// at http://sources.redhat.com/ecos/ecos-license/
39
// -------------------------------------------
40
//####ECOSGPLCOPYRIGHTEND####
41
//==========================================================================
42
//#####DESCRIPTIONBEGIN####
43
//
44
// Author(s):    msalter
45
// Contributors: msalter
46
// Date:         2001-07-14
47
// Purpose:      
48
// Description:  
49
//              
50
// This code is part of RedBoot (tm).
51
//
52
//####DESCRIPTIONEND####
53
//
54
//==========================================================================
55
 
56
#include <redboot.h>
57
#include <fs/disk.h>
58
#include <fs/e2fs.h>
59
 
60
#define DEBUG_E2FS 0
61
 
62
#if DEBUG_E2FS > 4
63
static void dump_sb(struct e2fs_super_block *s);
64
static void dump_inode(struct e2fs_inode *i);
65
#endif
66
 
67
static void *e2fs_open(partition_t *p, const char *path);
68
static int  e2fs_read(void *fp, char *buf, cyg_uint32 nbytes);
69
 
70
// This structure is the only thing exported by this module.
71
// These filesystem function pointers are attached to disk
72
// partitions in the generic disk handling code.
73
//
74
fs_funs_t redboot_e2fs_funs = {
75
    e2fs_open,
76
    e2fs_read
77
};
78
 
79
// A single block buffer to be shared carefully.
80
static cyg_uint32 blockbuf[E2FS_MAX_BLOCK_SIZE/sizeof(cyg_uint32)];
81
 
82
#define __READ_BLOCK(n)                                          \
83
  PARTITION_READ(e2fs->part, E2FS_BLOCK_TO_SECTOR(e2fs, (n)),    \
84
                      blockbuf, e2fs->blocksize/SECTOR_SIZE)
85
 
86
// Get a group descriptor. Returns non-zero for success.
87
//
88
static int
89
e2fs_get_gdesc(e2fs_desc_t *e2fs, cyg_uint32 group_nr, e2fs_group_t *gdesc)
90
{
91
    cyg_uint32 sec_nr;
92
 
93
    if (group_nr < e2fs->gdesc_first ||
94
        group_nr >= (e2fs->gdesc_first + E2FS_GDESC_CACHE_SIZE)) {
95
 
96
        // cache miss
97
        sec_nr = E2FS_BLOCK_TO_SECTOR(e2fs, e2fs->gdesc_block);
98
        sec_nr += (group_nr / E2FS_GDESC_PER_SECTOR);
99
 
100
#if DEBUG_E2FS > 2
101
        diag_printf("%s: group[%d] cache miss, sec_nr[%d]\n",
102
                    __FUNCTION__, group_nr, sec_nr);
103
#endif
104
        if (!PARTITION_READ(e2fs->part, sec_nr, (cyg_uint32 *)e2fs->gdesc_cache,
105
                            sizeof(e2fs->gdesc_cache)/SECTOR_SIZE))
106
            return 0;
107
 
108
        e2fs->gdesc_first = (group_nr / E2FS_GDESC_CACHE_SIZE) * E2FS_GDESC_CACHE_SIZE;
109
    }
110
    *gdesc = e2fs->gdesc_cache[group_nr - e2fs->gdesc_first];
111
 
112
    return 1;
113
}
114
 
115
// Read the requested inode from disk. Return non-zero if successful
116
//
117
static int
118
e2fs_get_inode(e2fs_desc_t *e2fs, int ino, e2fs_inode_t *ip)
119
{
120
    cyg_uint32 offset, sec_nr, buf[SECTOR_SIZE/sizeof(cyg_uint32)];
121
    e2fs_group_t gdesc;
122
 
123
    // get descriptor for group which this inode belongs to
124
    if (!e2fs_get_gdesc(e2fs, (ino - 1) / e2fs->inodes_per_group, &gdesc))
125
        return 0;
126
    if (gdesc.inode_table == 0)
127
        return 0;
128
 
129
    // byte offset within group inode table
130
    offset = ((ino - 1) % e2fs->inodes_per_group) * sizeof(struct e2fs_inode);
131
 
132
    // figure out which sector holds the inode
133
    sec_nr = E2FS_BLOCK_TO_SECTOR(e2fs, SWAB_LE32(gdesc.inode_table));
134
    sec_nr += offset / SECTOR_SIZE;
135
 
136
    // and the offset within that sector.
137
    offset %= SECTOR_SIZE;
138
 
139
#if DEBUG_E2FS > 0x08
140
    diag_printf("%s: ino[%d], sec_nr[%d] offset[%d]\n", __FUNCTION__,
141
                ino, sec_nr, offset);
142
#endif
143
 
144
    if (!PARTITION_READ(e2fs->part, sec_nr, buf, 1))
145
        return 0;
146
 
147
    *ip = *(e2fs_inode_t *)((char *)buf + offset);
148
 
149
#if DEBUG_E2FS > 0
150
    diag_printf("%s: inode size[%d]\n", __FUNCTION__, SWAB_LE32(ip->size));
151
#endif
152
 
153
    return 1;
154
}
155
 
156
// Mount an e2fs filesystem on the given partition.
157
// Return 0 if successful.
158
//
159
static int
160
e2fs_mount(partition_t *part, e2fs_desc_t *e2fs)
161
{
162
    int sb_block = 1;
163
    cyg_uint32  sb_buf[E2FS_MIN_BLOCK_SIZE/sizeof(cyg_uint32)];
164
    struct e2fs_super_block *sb = (struct e2fs_super_block *)sb_buf;
165
 
166
    e2fs->part = part;
167
 
168
    if (!PARTITION_READ(part, sb_block*(E2FS_MIN_BLOCK_SIZE/SECTOR_SIZE),
169
                        (cyg_uint32 *)sb, E2FS_MIN_BLOCK_SIZE/SECTOR_SIZE))
170
        return -1;
171
 
172
    if (SWAB_LE16(sb->magic) != E2FS_SUPER_MAGIC) {
173
        diag_printf("ext2_mount: bad magic 0x%x\n", SWAB_LE16(sb->magic));
174
        return -1;
175
    }
176
 
177
    // save some stuff for easy access
178
    e2fs->blocksize = E2FS_BLOCK_SIZE(sb);
179
    e2fs->nr_ind_blocks = (e2fs)->blocksize / sizeof(cyg_uint32);
180
    e2fs->nr_dind_blocks = e2fs->nr_ind_blocks * ((e2fs)->blocksize / sizeof(cyg_uint32));
181
    e2fs->nr_tind_blocks = e2fs->nr_dind_blocks * ((e2fs)->blocksize / sizeof(cyg_uint32));
182
    e2fs->blocks_per_group = SWAB_LE32(sb->blocks_per_group);
183
    e2fs->ngroups = (SWAB_LE32(sb->blocks_count) + e2fs->blocks_per_group - 1) /
184
                     e2fs->blocks_per_group;
185
    e2fs->inodes_per_group = SWAB_LE32(sb->inodes_per_group);
186
 
187
    // Find the group descriptors which follow superblock
188
    e2fs->gdesc_block = ((sb_block * E2FS_MIN_BLOCK_SIZE) / e2fs->blocksize) + 1;
189
    e2fs->gdesc_first = 0; // cache group 0 initially
190
 
191
    if (!PARTITION_READ(part, E2FS_BLOCK_TO_SECTOR(e2fs,e2fs->gdesc_block),
192
                        (cyg_uint32 *)e2fs->gdesc_cache, 1))
193
        return -1;
194
 
195
#if DEBUG_E2FS > 1
196
    diag_printf("E2FS superblock:\n");
197
    diag_printf("   [%d] inodes\n", SWAB_LE32(sb->inodes_count));
198
    diag_printf("   [%d] blocks\n", SWAB_LE32(sb->blocks_count));
199
    diag_printf("   [%d] blocksize\n", e2fs->blocksize);
200
    diag_printf("   [%d] blocks per group\n", e2fs->blocks_per_group);
201
    diag_printf("   [%d] ngroups\n", e2fs->ngroups);
202
#endif
203
 
204
#if DEBUG_E2FS > 4
205
    dump_sb(sb);
206
#endif
207
 
208
    return 0;
209
}
210
 
211
// Convert a block index into inode data into a block_nr.
212
// If successful, store block number in pblknr and return non-zero.
213
//
214
// NB: This needs some block/sector caching to be speedier. But
215
//     that takes memory and speed is not too bad now for files
216
//     small enough to avoid double and triple indirection.
217
//
218
static int
219
e2fs_inode_block(e2fs_desc_t *e2fs, e2fs_inode_t *inode,
220
                 cyg_uint32 bindex, cyg_uint32 *pblknr)
221
{
222
    if (bindex < E2FS_NR_DIR_BLOCKS) {
223
        *pblknr = SWAB_LE32(inode->block[bindex]);
224
        return 1;
225
    }
226
    bindex -= E2FS_NR_DIR_BLOCKS;
227
 
228
    if (bindex < e2fs->nr_ind_blocks) {
229
        // Indirect block
230
        if (!__READ_BLOCK(SWAB_LE32(inode->block[E2FS_IND_BLOCK])))
231
            return 0;
232
        *pblknr = SWAB_LE32(blockbuf[bindex]);
233
        return 1;
234
    }
235
    bindex -= e2fs->nr_ind_blocks;
236
 
237
    if (bindex < e2fs->nr_dind_blocks) {
238
        // Double indirect block
239
        if (!__READ_BLOCK(SWAB_LE32(inode->block[E2FS_DIND_BLOCK])))
240
            return 0;
241
        if (!__READ_BLOCK(SWAB_LE32(blockbuf[bindex / e2fs->nr_ind_blocks])))
242
            return 0;
243
        *pblknr  = SWAB_LE32(blockbuf[bindex % e2fs->nr_ind_blocks]);
244
        return 1;
245
    }
246
    bindex -= e2fs->nr_dind_blocks;
247
 
248
    // Triple indirect block
249
    if (!__READ_BLOCK(SWAB_LE32(inode->block[E2FS_TIND_BLOCK])))
250
        return 0;
251
    if (!__READ_BLOCK(SWAB_LE32(blockbuf[bindex / e2fs->nr_dind_blocks])))
252
        return 0;
253
    bindex %= e2fs->nr_dind_blocks;
254
    if (!__READ_BLOCK(SWAB_LE32(blockbuf[bindex / e2fs->nr_ind_blocks])))
255
        return 0;
256
    *pblknr = SWAB_LE32(blockbuf[bindex % e2fs->nr_ind_blocks]);
257
    return 1;
258
}
259
 
260
 
261
// search a single directory block in memory looking for an
262
// entry with the given name. Return pointer to entry if
263
// found, NULL if not.
264
//
265
static e2fs_dir_entry_t *
266
search_dir_block(e2fs_desc_t *e2fs, cyg_uint32 *blkbuf,
267
                 const char *name, int namelen)
268
{
269
    e2fs_dir_entry_t *dir;
270
    cyg_uint16 reclen, len;
271
    cyg_uint32 offset;
272
 
273
#if DEBUG_E2FS > 0
274
    diag_dump_buf(blkbuf, e2fs->blocksize);
275
#endif
276
    offset = 0;
277
    while (offset < e2fs->blocksize) {
278
        dir = (e2fs_dir_entry_t *)((char *)blkbuf + offset);
279
        reclen = SWAB_LE16(dir->reclen);
280
        offset += reclen;
281
        len = dir->namelen;
282
 
283
        // terminate on anything which doesn't make sense
284
        if (reclen < 8 || (len + 8) > reclen || offset > (e2fs->blocksize + 1))
285
            return NULL;
286
 
287
        if (dir->inode && len == namelen && !strncmp(dir->name, name, len))
288
            return dir;
289
    }
290
    return NULL;
291
}
292
 
293
 
294
// Look in the given directory for an entry with the given name.
295
// If found, return a pointer to that entry. Return NULL if not
296
// found.
297
//
298
static e2fs_dir_entry_t *
299
e2fs_dir_lookup(e2fs_desc_t *e2fs, cyg_uint32  dir_ino,
300
                const char  *name, int         namelen)
301
{
302
    e2fs_inode_t inode;
303
    e2fs_dir_entry_t *dir;
304
    cyg_uint32 nblocks, last_block_size, i, block_nr, nbytes;
305
 
306
#if DEBUG_E2FS > 0
307
    diag_printf("%s: looking for %s [%d] in ino[%d]\n",
308
                __FUNCTION__, name, namelen, dir_ino);
309
#endif
310
 
311
    if (!e2fs_get_inode(e2fs, dir_ino, &inode)) {
312
#if DEBUG_E2FS > 0
313
        diag_printf("%s: e2fs_get_inode [%d] failed\n", __FUNCTION__, dir_ino);
314
#endif
315
        return NULL;
316
    }
317
 
318
    nbytes = SWAB_LE32(inode.size);
319
    nblocks = (nbytes + e2fs->blocksize - 1) / e2fs->blocksize;
320
 
321
    last_block_size = nbytes % e2fs->blocksize;
322
    if (last_block_size == 0)
323
        last_block_size = e2fs->blocksize;
324
 
325
    for (i = 0; i < nblocks; i++) {
326
        if (!e2fs_inode_block(e2fs, &inode, i, &block_nr))
327
            return NULL;
328
 
329
        if (block_nr) {
330
            if (!__READ_BLOCK(block_nr))
331
                return NULL;
332
        } else
333
            memset(blockbuf, 0, e2fs->blocksize);
334
 
335
        dir = search_dir_block(e2fs, blockbuf, name, namelen);
336
 
337
        if (dir != NULL)
338
            return dir;
339
    }
340
    return NULL;
341
}
342
 
343
typedef struct ino_info {
344
    cyg_uint32  ino;
345
    cyg_uint32  parent_ino;
346
    cyg_uint8   filetype;
347
} ino_info_t;
348
 
349
static int e2fs_inode_lookup(e2fs_desc_t *e2fs, cyg_uint32 dir_ino,
350
                             const char *pathname, ino_info_t *info);
351
 
352
// Starting from the given directory, find the inode number, filetype, and
353
// parent inode for the file pointed to by the given symbolic link inode.
354
// If successful, fills out ino_info_t and return true.
355
//
356
static int
357
e2fs_follow_symlink(e2fs_desc_t *e2fs, cyg_uint32 dir_ino, cyg_uint32 sym_ino, ino_info_t *info)
358
{
359
#define MAX_SYMLINK_NAME 255
360
    char symlink[MAX_SYMLINK_NAME+1];
361
    int  pathlen;
362
    cyg_uint32 block_nr;
363
    e2fs_inode_t inode;
364
 
365
    if (!e2fs_get_inode(e2fs, sym_ino, &inode)) {
366
#if DEBUG_E2FS > 0
367
        diag_printf("%s: e2fs_get_inode [%d] failed\n", __FUNCTION__, sym_ino);
368
#endif
369
        return 0;
370
    }
371
 
372
    pathlen = SWAB_LE32(inode.size);
373
    if (pathlen > MAX_SYMLINK_NAME)
374
        return 0;
375
 
376
    if (inode.blocks) {
377
        if (!e2fs_inode_block(e2fs, &inode, 0, &block_nr))
378
            return 0;
379
        if (block_nr) {
380
            if (!PARTITION_READ(e2fs->part, E2FS_BLOCK_TO_SECTOR(e2fs, block_nr),
381
                                blockbuf, e2fs->blocksize/SECTOR_SIZE))
382
                return 0;
383
            memcpy(symlink, blockbuf, pathlen);
384
        } else
385
            return 0;
386
    } else {
387
        // small enough path to fit in inode struct
388
        memcpy(symlink, (char *)&inode.block[0], pathlen);
389
    }
390
    symlink[pathlen] = 0;
391
 
392
    return e2fs_inode_lookup(e2fs, dir_ino, symlink, info);
393
}
394
 
395
 
396
// Starting from the given directory, find the inode number, filetype, and
397
// parent inode for the given file pathname.
398
// If successful, fills out ino_info_t and return true.
399
//
400
static int
401
e2fs_inode_lookup(e2fs_desc_t *e2fs, cyg_uint32 dir_ino, const char *pathname, ino_info_t *info)
402
{
403
    int len, pathlen;
404
    const char *p;
405
    e2fs_dir_entry_t *dir = NULL;
406
 
407
    if (!pathname || (pathlen = strlen(pathname)) == 0)
408
        return 0;
409
 
410
    if (*pathname == '/') {
411
        if (--pathlen == 0) {
412
            info->ino = info->parent_ino = E2FS_ROOT_INO;
413
            info->filetype = E2FS_FTYPE_DIR;
414
            return 1;
415
        }
416
        ++pathname;
417
        dir_ino = E2FS_ROOT_INO;
418
    }
419
 
420
    while (pathlen) {
421
        // find next delimiter in path.
422
        for (p = pathname, len = 0; len < pathlen; len++, p++) {
423
            // skip delimiter if found.
424
            if (*p == '/') {
425
                ++p;
426
                --pathlen;
427
                break;
428
            }
429
        }
430
        dir = e2fs_dir_lookup(e2fs, dir_ino, pathname, len);
431
        if (dir == NULL)
432
            return 0;
433
 
434
        pathlen -= len;
435
        pathname = p;
436
 
437
        switch (dir->filetype) {
438
          case E2FS_FTYPE_SYMLINK:
439
            // follow the symbolic link (this will cause recursion)
440
            if (!e2fs_follow_symlink(e2fs, dir_ino, SWAB_LE32(dir->inode), info))
441
                return 0;
442
            if (pathlen == 0)
443
                return 1;
444
            // must be a dir if we want to continue
445
            if (info->filetype != E2FS_FTYPE_DIR)
446
                return 0;
447
            dir_ino = info->ino;
448
            break;
449
 
450
          case E2FS_FTYPE_DIR:
451
            if (pathlen)
452
                dir_ino = SWAB_LE32(dir->inode);
453
            break;
454
 
455
          case E2FS_FTYPE_REG_FILE:
456
            if (pathlen)
457
                return 0;  // regular file embedded in middle of path
458
            break;
459
 
460
          case E2FS_FTYPE_UNKNOWN:
461
          case E2FS_FTYPE_CHRDEV:
462
          case E2FS_FTYPE_BLKDEV:
463
          case E2FS_FTYPE_FIFO:
464
          case E2FS_FTYPE_SOCK:
465
          default:
466
            return 0;
467
        }
468
    }
469
    info->ino = SWAB_LE32(dir->inode);
470
    info->parent_ino = dir_ino;
471
    info->filetype = dir->filetype;
472
    return 1;
473
}
474
 
475
struct read_info {
476
    e2fs_desc_t  e2fs_desc;
477
    e2fs_inode_t inode;
478
    cyg_uint32   fsize;
479
    cyg_uint32   fpos;
480
};
481
 
482
static void *
483
e2fs_open(partition_t *p, const char *filepath)
484
{
485
    static struct read_info rinfo;
486
    ino_info_t    ino_info;
487
 
488
    // mount partition
489
    if (e2fs_mount(p, &rinfo.e2fs_desc) != 0) {
490
        diag_printf("mount failed.\n");
491
        return NULL;
492
    }
493
 
494
    // find file inode
495
    if (!e2fs_inode_lookup(&rinfo.e2fs_desc, E2FS_ROOT_INO, filepath, &ino_info)) {
496
        diag_printf("%s: e2fs_inode_lookup failed\n", __FUNCTION__);
497
        return NULL;
498
    }
499
 
500
    // read inode
501
    if (!e2fs_get_inode(&rinfo.e2fs_desc, ino_info.ino, &rinfo.inode)) {
502
        diag_printf("%s: e2fs_get_inode failed for ino[%d]\n", __FUNCTION__, ino_info.ino);
503
        return NULL;
504
    }
505
 
506
    rinfo.fsize = SWAB_LE32(rinfo.inode.size);
507
    rinfo.fpos  = 0;
508
 
509
    return &rinfo;
510
}
511
 
512
static int
513
e2fs_read(void *fp, char *buf, cyg_uint32 nbytes)
514
{
515
    struct read_info *info = fp;
516
    e2fs_desc_t *e2fs;
517
    cyg_uint32 nread = 0, rem, block_nr, bindex, to_read;
518
 
519
    if ((info->fpos + nbytes) > info->fsize)
520
        nbytes = info->fsize - info->fpos;
521
 
522
    e2fs = &info->e2fs_desc;
523
 
524
    // see if we need to copy leftover data from last read call
525
    rem = e2fs->blocksize - (info->fpos % e2fs->blocksize);
526
    if (rem != e2fs->blocksize) {
527
        char *p = (char *)blockbuf + e2fs->blocksize - rem;
528
 
529
        if (rem > nbytes)
530
            rem = nbytes;
531
 
532
        memcpy(buf, p, rem);
533
 
534
        nread += rem;
535
        buf  += rem;
536
        info->fpos += rem;
537
    }
538
 
539
    // now loop through blocks if we're not done
540
    bindex = info->fpos / e2fs->blocksize;
541
    while (nread < nbytes) {
542
        if (!e2fs_inode_block(e2fs, &info->inode, bindex, &block_nr))
543
            return -1;
544
 
545
        if (block_nr) {
546
            if (!PARTITION_READ(e2fs->part, E2FS_BLOCK_TO_SECTOR(e2fs, block_nr),
547
                                blockbuf, e2fs->blocksize/SECTOR_SIZE))
548
                return 0;
549
        } else
550
            memset(blockbuf, 0, e2fs->blocksize);
551
 
552
        to_read = nbytes - nread;
553
        if (to_read > e2fs->blocksize)
554
            to_read = e2fs->blocksize;
555
 
556
        memcpy(buf, blockbuf, to_read);
557
 
558
        nread += to_read;
559
        buf += to_read;
560
        info->fpos += to_read;
561
        ++bindex;
562
    }
563
 
564
    return nread;
565
}
566
 
567
#if DEBUG_E2FS > 4
568
static void dump_sb(struct e2fs_super_block *s)
569
{
570
    diag_printf("inode_count: %d\n", SWAB_LE32(s->inodes_count));
571
    diag_printf("blocks_count: %d\n", SWAB_LE32(s->blocks_count));
572
    diag_printf("r_blocks_count: %d\n", SWAB_LE32(s->r_blocks_count));
573
    diag_printf("free_blocks_count: %d\n", SWAB_LE32(s->free_blocks_count));
574
    diag_printf("free_inodes_count: %d\n", SWAB_LE32(s->free_inodes_count));
575
    diag_printf("first_data_block: %d\n", SWAB_LE32(s->first_data_block));
576
    diag_printf("log_block_size: %d\n", SWAB_LE32(s->log_block_size));
577
    diag_printf("log_frag_size: %d\n", SWAB_LE32(s->log_frag_size));
578
    diag_printf("blocks_per_group: %d\n", SWAB_LE32(s->blocks_per_group));
579
    diag_printf("frags_per_group: %d\n", SWAB_LE32(s->frags_per_group));
580
    diag_printf("inodes_per_group: %d\n", SWAB_LE32(s->inodes_per_group));
581
    diag_printf("mnt_count: %d\n", SWAB_LE16(s->mnt_count));
582
    diag_printf("max_mnt_count: %d\n", SWAB_LE16(s->max_mnt_count));
583
    diag_printf("magic: %d\n", SWAB_LE16(s->magic));
584
    diag_printf("state: %d\n", SWAB_LE16(s->state));
585
    diag_printf("errors: %d\n", SWAB_LE16(s->errors));
586
    diag_printf("minor_rev_level: %d\n", SWAB_LE16(s->minor_rev_level));
587
    diag_printf("lastcheck: %d\n", SWAB_LE32(s->lastcheck));
588
    diag_printf("checkinterval: %d\n", SWAB_LE32(s->checkinterval));
589
    diag_printf("creator_os: %d\n", SWAB_LE32(s->creator_os));
590
    diag_printf("rev_level: %d\n", SWAB_LE32(s->rev_level));
591
}
592
 
593
static void dump_inode(struct e2fs_inode *i)
594
{
595
    int j, n;
596
 
597
    diag_printf("mode: %o\n", SWAB_LE16(i->mode));
598
    diag_printf("uid: %o\n", SWAB_LE16(i->uid));
599
    diag_printf("size: %d\n", SWAB_LE32(i->size));
600
    diag_printf("gid: %o\n", SWAB_LE16(i->gid));
601
    diag_printf("links: %d\n", SWAB_LE16(i->links_count));
602
    diag_printf("blocks: %d\n", SWAB_LE32(i->blocks));
603
 
604
    n = i->blocks;
605
    if (n > E2FS_N_BLOCKS)
606
        n = E2FS_N_BLOCKS;
607
 
608
    for (j = 0; j < n; j++)
609
        diag_printf("  block: %d\n", SWAB_LE32(i->block[j]));
610
}
611
#endif
612
 
613
 

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