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pcie: utilize pcie transaction pending bit
[linux-2.6/linux-acpi-2.6/ibm-acpi-2.6.git] / fs / reiserfs / prints.c
blob5e7388b32d020f17b6b22fb515bbe04a8a3ee67c
1 /*
2 * Copyright 2000 by Hans Reiser, licensing governed by reiserfs/README
3 */
4
5 #include <linux/time.h>
6 #include <linux/fs.h>
7 #include <linux/reiserfs_fs.h>
8 #include <linux/string.h>
9 #include <linux/buffer_head.h>
10
11 #include <stdarg.h>
12
13 static char error_buf[1024];
14 static char fmt_buf[1024];
15 static char off_buf[80];
16
17 static char *reiserfs_cpu_offset(struct cpu_key *key)
18 {
19 if (cpu_key_k_type(key) == TYPE_DIRENTRY)
20 sprintf(off_buf, "%Lu(%Lu)",
21 (unsigned long long)
22 GET_HASH_VALUE(cpu_key_k_offset(key)),
23 (unsigned long long)
24 GET_GENERATION_NUMBER(cpu_key_k_offset(key)));
25 else
26 sprintf(off_buf, "0x%Lx",
27 (unsigned long long)cpu_key_k_offset(key));
28 return off_buf;
29 }
30
31 static char *le_offset(struct reiserfs_key *key)
32 {
33 int version;
34
35 version = le_key_version(key);
36 if (le_key_k_type(version, key) == TYPE_DIRENTRY)
37 sprintf(off_buf, "%Lu(%Lu)",
38 (unsigned long long)
39 GET_HASH_VALUE(le_key_k_offset(version, key)),
40 (unsigned long long)
41 GET_GENERATION_NUMBER(le_key_k_offset(version, key)));
42 else
43 sprintf(off_buf, "0x%Lx",
44 (unsigned long long)le_key_k_offset(version, key));
45 return off_buf;
46 }
47
48 static char *cpu_type(struct cpu_key *key)
49 {
50 if (cpu_key_k_type(key) == TYPE_STAT_DATA)
51 return "SD";
52 if (cpu_key_k_type(key) == TYPE_DIRENTRY)
53 return "DIR";
54 if (cpu_key_k_type(key) == TYPE_DIRECT)
55 return "DIRECT";
56 if (cpu_key_k_type(key) == TYPE_INDIRECT)
57 return "IND";
58 return "UNKNOWN";
59 }
60
61 static char *le_type(struct reiserfs_key *key)
62 {
63 int version;
64
65 version = le_key_version(key);
66
67 if (le_key_k_type(version, key) == TYPE_STAT_DATA)
68 return "SD";
69 if (le_key_k_type(version, key) == TYPE_DIRENTRY)
70 return "DIR";
71 if (le_key_k_type(version, key) == TYPE_DIRECT)
72 return "DIRECT";
73 if (le_key_k_type(version, key) == TYPE_INDIRECT)
74 return "IND";
75 return "UNKNOWN";
76 }
77
78 /* %k */
79 static void sprintf_le_key(char *buf, struct reiserfs_key *key)
80 {
81 if (key)
82 sprintf(buf, "[%d %d %s %s]", le32_to_cpu(key->k_dir_id),
83 le32_to_cpu(key->k_objectid), le_offset(key),
84 le_type(key));
85 else
86 sprintf(buf, "[NULL]");
87 }
88
89 /* %K */
90 static void sprintf_cpu_key(char *buf, struct cpu_key *key)
91 {
92 if (key)
93 sprintf(buf, "[%d %d %s %s]", key->on_disk_key.k_dir_id,
94 key->on_disk_key.k_objectid, reiserfs_cpu_offset(key),
95 cpu_type(key));
96 else
97 sprintf(buf, "[NULL]");
98 }
99
100 static void sprintf_de_head(char *buf, struct reiserfs_de_head *deh)
101 {
102 if (deh)
103 sprintf(buf,
104 "[offset=%d dir_id=%d objectid=%d location=%d state=%04x]",
105 deh_offset(deh), deh_dir_id(deh), deh_objectid(deh),
106 deh_location(deh), deh_state(deh));
107 else
108 sprintf(buf, "[NULL]");
109
110 }
111
112 static void sprintf_item_head(char *buf, struct item_head *ih)
113 {
114 if (ih) {
115 strcpy(buf,
116 (ih_version(ih) == KEY_FORMAT_3_6) ? "*3.6* " : "*3.5*");
117 sprintf_le_key(buf + strlen(buf), &(ih->ih_key));
118 sprintf(buf + strlen(buf), ", item_len %d, item_location %d, "
119 "free_space(entry_count) %d",
120 ih_item_len(ih), ih_location(ih), ih_free_space(ih));
121 } else
122 sprintf(buf, "[NULL]");
123 }
124
125 static void sprintf_direntry(char *buf, struct reiserfs_dir_entry *de)
126 {
127 char name[20];
128
129 memcpy(name, de->de_name, de->de_namelen > 19 ? 19 : de->de_namelen);
130 name[de->de_namelen > 19 ? 19 : de->de_namelen] = 0;
131 sprintf(buf, "\"%s\"==>[%d %d]", name, de->de_dir_id, de->de_objectid);
132 }
133
134 static void sprintf_block_head(char *buf, struct buffer_head *bh)
135 {
136 sprintf(buf, "level=%d, nr_items=%d, free_space=%d rdkey ",
137 B_LEVEL(bh), B_NR_ITEMS(bh), B_FREE_SPACE(bh));
138 }
139
140 static void sprintf_buffer_head(char *buf, struct buffer_head *bh)
141 {
142 char b[BDEVNAME_SIZE];
143
144 sprintf(buf,
145 "dev %s, size %zd, blocknr %llu, count %d, state 0x%lx, page %p, (%s, %s, %s)",
146 bdevname(bh->b_bdev, b), bh->b_size,
147 (unsigned long long)bh->b_blocknr, atomic_read(&(bh->b_count)),
148 bh->b_state, bh->b_page,
149 buffer_uptodate(bh) ? "UPTODATE" : "!UPTODATE",
150 buffer_dirty(bh) ? "DIRTY" : "CLEAN",
151 buffer_locked(bh) ? "LOCKED" : "UNLOCKED");
152 }
153
154 static void sprintf_disk_child(char *buf, struct disk_child *dc)
155 {
156 sprintf(buf, "[dc_number=%d, dc_size=%u]", dc_block_number(dc),
157 dc_size(dc));
158 }
159
160 static char *is_there_reiserfs_struct(char *fmt, int *what, int *skip)
161 {
162 char *k = fmt;
163
164 *skip = 0;
165
166 while ((k = strchr(k, '%')) != NULL) {
167 if (k[1] == 'k' || k[1] == 'K' || k[1] == 'h' || k[1] == 't' ||
168 k[1] == 'z' || k[1] == 'b' || k[1] == 'y' || k[1] == 'a') {
169 *what = k[1];
170 break;
171 }
172 (*skip)++;
173 k++;
174 }
175 return k;
176 }
177
178 /* debugging reiserfs we used to print out a lot of different
179 variables, like keys, item headers, buffer heads etc. Values of
180 most fields matter. So it took a long time just to write
181 appropriative printk. With this reiserfs_warning you can use format
182 specification for complex structures like you used to do with
183 printfs for integers, doubles and pointers. For instance, to print
184 out key structure you have to write just:
185 reiserfs_warning ("bad key %k", key);
186 instead of
187 printk ("bad key %lu %lu %lu %lu", key->k_dir_id, key->k_objectid,
188 key->k_offset, key->k_uniqueness);
189 */
190
191 static void prepare_error_buf(const char *fmt, va_list args)
192 {
193 char *fmt1 = fmt_buf;
194 char *k;
195 char *p = error_buf;
196 int i, j, what, skip;
197
198 strcpy(fmt1, fmt);
199
200 while ((k = is_there_reiserfs_struct(fmt1, &what, &skip)) != NULL) {
201 *k = 0;
202
203 p += vsprintf(p, fmt1, args);
204
205 for (i = 0; i < skip; i++)
206 j = va_arg(args, int);
207
208 switch (what) {
209 case 'k':
210 sprintf_le_key(p, va_arg(args, struct reiserfs_key *));
211 break;
212 case 'K':
213 sprintf_cpu_key(p, va_arg(args, struct cpu_key *));
214 break;
215 case 'h':
216 sprintf_item_head(p, va_arg(args, struct item_head *));
217 break;
218 case 't':
219 sprintf_direntry(p,
220 va_arg(args,
221 struct reiserfs_dir_entry *));
222 break;
223 case 'y':
224 sprintf_disk_child(p,
225 va_arg(args, struct disk_child *));
226 break;
227 case 'z':
228 sprintf_block_head(p,
229 va_arg(args, struct buffer_head *));
230 break;
231 case 'b':
232 sprintf_buffer_head(p,
233 va_arg(args, struct buffer_head *));
234 break;
235 case 'a':
236 sprintf_de_head(p,
237 va_arg(args,
238 struct reiserfs_de_head *));
239 break;
240 }
241
242 p += strlen(p);
243 fmt1 = k + 2;
244 }
245 vsprintf(p, fmt1, args);
246
247 }
248
249 /* in addition to usual conversion specifiers this accepts reiserfs
250 specific conversion specifiers:
251 %k to print little endian key,
252 %K to print cpu key,
253 %h to print item_head,
254 %t to print directory entry
255 %z to print block head (arg must be struct buffer_head *
256 %b to print buffer_head
257 */
258
259 #define do_reiserfs_warning(fmt)\
260 {\
261 va_list args;\
262 va_start( args, fmt );\
263 prepare_error_buf( fmt, args );\
264 va_end( args );\
265 }
266
267 void reiserfs_warning(struct super_block *sb, const char *fmt, ...)
268 {
269 do_reiserfs_warning(fmt);
270 if (sb)
271 printk(KERN_WARNING "ReiserFS: %s: warning: %s\n",
272 reiserfs_bdevname(sb), error_buf);
273 else
274 printk(KERN_WARNING "ReiserFS: warning: %s\n", error_buf);
275 }
276
277 /* No newline.. reiserfs_info calls can be followed by printk's */
278 void reiserfs_info(struct super_block *sb, const char *fmt, ...)
279 {
280 do_reiserfs_warning(fmt);
281 if (sb)
282 printk(KERN_NOTICE "ReiserFS: %s: %s",
283 reiserfs_bdevname(sb), error_buf);
284 else
285 printk(KERN_NOTICE "ReiserFS: %s", error_buf);
286 }
287
288 /* No newline.. reiserfs_printk calls can be followed by printk's */
289 static void reiserfs_printk(const char *fmt, ...)
290 {
291 do_reiserfs_warning(fmt);
292 printk(error_buf);
293 }
294
295 void reiserfs_debug(struct super_block *s, int level, const char *fmt, ...)
296 {
297 #ifdef CONFIG_REISERFS_CHECK
298 do_reiserfs_warning(fmt);
299 if (s)
300 printk(KERN_DEBUG "ReiserFS: %s: %s\n",
301 reiserfs_bdevname(s), error_buf);
302 else
303 printk(KERN_DEBUG "ReiserFS: %s\n", error_buf);
304 #endif
305 }
306
307 /* The format:
308
309 maintainer-errorid: [function-name:] message
310
311 where errorid is unique to the maintainer and function-name is
312 optional, is recommended, so that anyone can easily find the bug
313 with a simple grep for the short to type string
314 maintainer-errorid. Don't bother with reusing errorids, there are
315 lots of numbers out there.
316
317 Example:
318
319 reiserfs_panic(
320 p_sb, "reiser-29: reiserfs_new_blocknrs: "
321 "one of search_start or rn(%d) is equal to MAX_B_NUM,"
322 "which means that we are optimizing location based on the bogus location of a temp buffer (%p).",
323 rn, bh
324 );
325
326 Regular panic()s sometimes clear the screen before the message can
327 be read, thus the need for the while loop.
328
329 Numbering scheme for panic used by Vladimir and Anatoly( Hans completely ignores this scheme, and considers it
330 pointless complexity):
331
332 panics in reiserfs_fs.h have numbers from 1000 to 1999
333 super.c 2000 to 2999
334 preserve.c (unused) 3000 to 3999
335 bitmap.c 4000 to 4999
336 stree.c 5000 to 5999
337 prints.c 6000 to 6999
338 namei.c 7000 to 7999
339 fix_nodes.c 8000 to 8999
340 dir.c 9000 to 9999
341 lbalance.c 10000 to 10999
342 ibalance.c 11000 to 11999 not ready
343 do_balan.c 12000 to 12999
344 inode.c 13000 to 13999
345 file.c 14000 to 14999
346 objectid.c 15000 - 15999
347 buffer.c 16000 - 16999
348 symlink.c 17000 - 17999
349
350 . */
351
352 #ifdef CONFIG_REISERFS_CHECK
353 extern struct tree_balance *cur_tb;
354 #endif
355
356 void reiserfs_panic(struct super_block *sb, const char *fmt, ...)
357 {
358 do_reiserfs_warning(fmt);
359
360 dump_stack();
361
362 panic(KERN_EMERG "REISERFS: panic (device %s): %s\n",
363 reiserfs_bdevname(sb), error_buf);
364 }
365
366 void reiserfs_abort(struct super_block *sb, int errno, const char *fmt, ...)
367 {
368 do_reiserfs_warning(fmt);
369
370 if (reiserfs_error_panic(sb)) {
371 panic(KERN_CRIT "REISERFS: panic (device %s): %s\n",
372 reiserfs_bdevname(sb), error_buf);
373 }
374
375 if (sb->s_flags & MS_RDONLY)
376 return;
377
378 printk(KERN_CRIT "REISERFS: abort (device %s): %s\n",
379 reiserfs_bdevname(sb), error_buf);
380
381 sb->s_flags |= MS_RDONLY;
382 reiserfs_journal_abort(sb, errno);
383 }
384
385 /* this prints internal nodes (4 keys/items in line) (dc_number,
386 dc_size)[k_dirid, k_objectid, k_offset, k_uniqueness](dc_number,
387 dc_size)...*/
388 static int print_internal(struct buffer_head *bh, int first, int last)
389 {
390 struct reiserfs_key *key;
391 struct disk_child *dc;
392 int i;
393 int from, to;
394
395 if (!B_IS_KEYS_LEVEL(bh))
396 return 1;
397
398 check_internal(bh);
399
400 if (first == -1) {
401 from = 0;
402 to = B_NR_ITEMS(bh);
403 } else {
404 from = first;
405 to = last < B_NR_ITEMS(bh) ? last : B_NR_ITEMS(bh);
406 }
407
408 reiserfs_printk("INTERNAL NODE (%ld) contains %z\n", bh->b_blocknr, bh);
409
410 dc = B_N_CHILD(bh, from);
411 reiserfs_printk("PTR %d: %y ", from, dc);
412
413 for (i = from, key = B_N_PDELIM_KEY(bh, from), dc++; i < to;
414 i++, key++, dc++) {
415 reiserfs_printk("KEY %d: %k PTR %d: %y ", i, key, i + 1, dc);
416 if (i && i % 4 == 0)
417 printk("\n");
418 }
419 printk("\n");
420 return 0;
421 }
422
423 static int print_leaf(struct buffer_head *bh, int print_mode, int first,
424 int last)
425 {
426 struct block_head *blkh;
427 struct item_head *ih;
428 int i, nr;
429 int from, to;
430
431 if (!B_IS_ITEMS_LEVEL(bh))
432 return 1;
433
434 check_leaf(bh);
435
436 blkh = B_BLK_HEAD(bh);
437 ih = B_N_PITEM_HEAD(bh, 0);
438 nr = blkh_nr_item(blkh);
439
440 printk
441 ("\n===================================================================\n");
442 reiserfs_printk("LEAF NODE (%ld) contains %z\n", bh->b_blocknr, bh);
443
444 if (!(print_mode & PRINT_LEAF_ITEMS)) {
445 reiserfs_printk("FIRST ITEM_KEY: %k, LAST ITEM KEY: %k\n",
446 &(ih->ih_key), &((ih + nr - 1)->ih_key));
447 return 0;
448 }
449
450 if (first < 0 || first > nr - 1)
451 from = 0;
452 else
453 from = first;
454
455 if (last < 0 || last > nr)
456 to = nr;
457 else
458 to = last;
459
460 ih += from;
461 printk
462 ("-------------------------------------------------------------------------------\n");
463 printk
464 ("|##| type | key | ilen | free_space | version | loc |\n");
465 for (i = from; i < to; i++, ih++) {
466 printk
467 ("-------------------------------------------------------------------------------\n");
468 reiserfs_printk("|%2d| %h |\n", i, ih);
469 if (print_mode & PRINT_LEAF_ITEMS)
470 op_print_item(ih, B_I_PITEM(bh, ih));
471 }
472
473 printk
474 ("===================================================================\n");
475
476 return 0;
477 }
478
479 char *reiserfs_hashname(int code)
480 {
481 if (code == YURA_HASH)
482 return "rupasov";
483 if (code == TEA_HASH)
484 return "tea";
485 if (code == R5_HASH)
486 return "r5";
487
488 return "unknown";
489 }
490
491 /* return 1 if this is not super block */
492 static int print_super_block(struct buffer_head *bh)
493 {
494 struct reiserfs_super_block *rs =
495 (struct reiserfs_super_block *)(bh->b_data);
496 int skipped, data_blocks;
497 char *version;
498 char b[BDEVNAME_SIZE];
499
500 if (is_reiserfs_3_5(rs)) {
501 version = "3.5";
502 } else if (is_reiserfs_3_6(rs)) {
503 version = "3.6";
504 } else if (is_reiserfs_jr(rs)) {
505 version = ((sb_version(rs) == REISERFS_VERSION_2) ?
506 "3.6" : "3.5");
507 } else {
508 return 1;
509 }
510
511 printk("%s\'s super block is in block %llu\n", bdevname(bh->b_bdev, b),
512 (unsigned long long)bh->b_blocknr);
513 printk("Reiserfs version %s\n", version);
514 printk("Block count %u\n", sb_block_count(rs));
515 printk("Blocksize %d\n", sb_blocksize(rs));
516 printk("Free blocks %u\n", sb_free_blocks(rs));
517 // FIXME: this would be confusing if
518 // someone stores reiserfs super block in some data block ;)
519 // skipped = (bh->b_blocknr * bh->b_size) / sb_blocksize(rs);
520 skipped = bh->b_blocknr;
521 data_blocks = sb_block_count(rs) - skipped - 1 - sb_bmap_nr(rs) -
522 (!is_reiserfs_jr(rs) ? sb_jp_journal_size(rs) +
523 1 : sb_reserved_for_journal(rs)) - sb_free_blocks(rs);
524 printk
525 ("Busy blocks (skipped %d, bitmaps - %d, journal (or reserved) blocks - %d\n"
526 "1 super block, %d data blocks\n", skipped, sb_bmap_nr(rs),
527 (!is_reiserfs_jr(rs) ? (sb_jp_journal_size(rs) + 1) :
528 sb_reserved_for_journal(rs)), data_blocks);
529 printk("Root block %u\n", sb_root_block(rs));
530 printk("Journal block (first) %d\n", sb_jp_journal_1st_block(rs));
531 printk("Journal dev %d\n", sb_jp_journal_dev(rs));
532 printk("Journal orig size %d\n", sb_jp_journal_size(rs));
533 printk("FS state %d\n", sb_fs_state(rs));
534 printk("Hash function \"%s\"\n",
535 reiserfs_hashname(sb_hash_function_code(rs)));
536
537 printk("Tree height %d\n", sb_tree_height(rs));
538 return 0;
539 }
540
541 static int print_desc_block(struct buffer_head *bh)
542 {
543 struct reiserfs_journal_desc *desc;
544
545 if (memcmp(get_journal_desc_magic(bh), JOURNAL_DESC_MAGIC, 8))
546 return 1;
547
548 desc = (struct reiserfs_journal_desc *)(bh->b_data);
549 printk("Desc block %llu (j_trans_id %d, j_mount_id %d, j_len %d)",
550 (unsigned long long)bh->b_blocknr, get_desc_trans_id(desc),
551 get_desc_mount_id(desc), get_desc_trans_len(desc));
552
553 return 0;
554 }
555
556 void print_block(struct buffer_head *bh, ...) //int print_mode, int first, int last)
557 {
558 va_list args;
559 int mode, first, last;
560
561 va_start(args, bh);
562
563 if (!bh) {
564 printk("print_block: buffer is NULL\n");
565 return;
566 }
567
568 mode = va_arg(args, int);
569 first = va_arg(args, int);
570 last = va_arg(args, int);
571 if (print_leaf(bh, mode, first, last))
572 if (print_internal(bh, first, last))
573 if (print_super_block(bh))
574 if (print_desc_block(bh))
575 printk
576 ("Block %llu contains unformatted data\n",
577 (unsigned long long)bh->b_blocknr);
578 }
579
580 static char print_tb_buf[2048];
581
582 /* this stores initial state of tree balance in the print_tb_buf */
583 void store_print_tb(struct tree_balance *tb)
584 {
585 int h = 0;
586 int i;
587 struct buffer_head *tbSh, *tbFh;
588
589 if (!tb)
590 return;
591
592 sprintf(print_tb_buf, "\n"
593 "BALANCING %d\n"
594 "MODE=%c, ITEM_POS=%d POS_IN_ITEM=%d\n"
595 "=====================================================================\n"
596 "* h * S * L * R * F * FL * FR * CFL * CFR *\n",
597 REISERFS_SB(tb->tb_sb)->s_do_balance,
598 tb->tb_mode, PATH_LAST_POSITION(tb->tb_path),
599 tb->tb_path->pos_in_item);
600
601 for (h = 0; h < ARRAY_SIZE(tb->insert_size); h++) {
602 if (PATH_H_PATH_OFFSET(tb->tb_path, h) <=
603 tb->tb_path->path_length
604 && PATH_H_PATH_OFFSET(tb->tb_path,
605 h) > ILLEGAL_PATH_ELEMENT_OFFSET) {
606 tbSh = PATH_H_PBUFFER(tb->tb_path, h);
607 tbFh = PATH_H_PPARENT(tb->tb_path, h);
608 } else {
609 tbSh = NULL;
610 tbFh = NULL;
611 }
612 sprintf(print_tb_buf + strlen(print_tb_buf),
613 "* %d * %3lld(%2d) * %3lld(%2d) * %3lld(%2d) * %5lld * %5lld * %5lld * %5lld * %5lld *\n",
614 h,
615 (tbSh) ? (long long)(tbSh->b_blocknr) : (-1LL),
616 (tbSh) ? atomic_read(&(tbSh->b_count)) : -1,
617 (tb->L[h]) ? (long long)(tb->L[h]->b_blocknr) : (-1LL),
618 (tb->L[h]) ? atomic_read(&(tb->L[h]->b_count)) : -1,
619 (tb->R[h]) ? (long long)(tb->R[h]->b_blocknr) : (-1LL),
620 (tb->R[h]) ? atomic_read(&(tb->R[h]->b_count)) : -1,
621 (tbFh) ? (long long)(tbFh->b_blocknr) : (-1LL),
622 (tb->FL[h]) ? (long long)(tb->FL[h]->
623 b_blocknr) : (-1LL),
624 (tb->FR[h]) ? (long long)(tb->FR[h]->
625 b_blocknr) : (-1LL),
626 (tb->CFL[h]) ? (long long)(tb->CFL[h]->
627 b_blocknr) : (-1LL),
628 (tb->CFR[h]) ? (long long)(tb->CFR[h]->
629 b_blocknr) : (-1LL));
630 }
631
632 sprintf(print_tb_buf + strlen(print_tb_buf),
633 "=====================================================================\n"
634 "* h * size * ln * lb * rn * rb * blkn * s0 * s1 * s1b * s2 * s2b * curb * lk * rk *\n"
635 "* 0 * %4d * %2d * %2d * %2d * %2d * %4d * %2d * %2d * %3d * %2d * %3d * %4d * %2d * %2d *\n",
636 tb->insert_size[0], tb->lnum[0], tb->lbytes, tb->rnum[0],
637 tb->rbytes, tb->blknum[0], tb->s0num, tb->s1num, tb->s1bytes,
638 tb->s2num, tb->s2bytes, tb->cur_blknum, tb->lkey[0],
639 tb->rkey[0]);
640
641 /* this prints balance parameters for non-leaf levels */
642 h = 0;
643 do {
644 h++;
645 sprintf(print_tb_buf + strlen(print_tb_buf),
646 "* %d * %4d * %2d * * %2d * * %2d *\n",
647 h, tb->insert_size[h], tb->lnum[h], tb->rnum[h],
648 tb->blknum[h]);
649 } while (tb->insert_size[h]);
650
651 sprintf(print_tb_buf + strlen(print_tb_buf),
652 "=====================================================================\n"
653 "FEB list: ");
654
655 /* print FEB list (list of buffers in form (bh (b_blocknr, b_count), that will be used for new nodes) */
656 h = 0;
657 for (i = 0; i < ARRAY_SIZE(tb->FEB); i++)
658 sprintf(print_tb_buf + strlen(print_tb_buf),
659 "%p (%llu %d)%s", tb->FEB[i],
660 tb->FEB[i] ? (unsigned long long)tb->FEB[i]->
661 b_blocknr : 0ULL,
662 tb->FEB[i] ? atomic_read(&(tb->FEB[i]->b_count)) : 0,
663 (i == ARRAY_SIZE(tb->FEB) - 1) ? "\n" : ", ");
664
665 sprintf(print_tb_buf + strlen(print_tb_buf),
666 "======================== the end ====================================\n");
667 }
668
669 void print_cur_tb(char *mes)
670 {
671 printk("%s\n%s", mes, print_tb_buf);
672 }
673
674 static void check_leaf_block_head(struct buffer_head *bh)
675 {
676 struct block_head *blkh;
677 int nr;
678
679 blkh = B_BLK_HEAD(bh);
680 nr = blkh_nr_item(blkh);
681 if (nr > (bh->b_size - BLKH_SIZE) / IH_SIZE)
682 reiserfs_panic(NULL,
683 "vs-6010: check_leaf_block_head: invalid item number %z",
684 bh);
685 if (blkh_free_space(blkh) > bh->b_size - BLKH_SIZE - IH_SIZE * nr)
686 reiserfs_panic(NULL,
687 "vs-6020: check_leaf_block_head: invalid free space %z",
688 bh);
689
690 }
691
692 static void check_internal_block_head(struct buffer_head *bh)
693 {
694 struct block_head *blkh;
695
696 blkh = B_BLK_HEAD(bh);
697 if (!(B_LEVEL(bh) > DISK_LEAF_NODE_LEVEL && B_LEVEL(bh) <= MAX_HEIGHT))
698 reiserfs_panic(NULL,
699 "vs-6025: check_internal_block_head: invalid level %z",
700 bh);
701
702 if (B_NR_ITEMS(bh) > (bh->b_size - BLKH_SIZE) / IH_SIZE)
703 reiserfs_panic(NULL,
704 "vs-6030: check_internal_block_head: invalid item number %z",
705 bh);
706
707 if (B_FREE_SPACE(bh) !=
708 bh->b_size - BLKH_SIZE - KEY_SIZE * B_NR_ITEMS(bh) -
709 DC_SIZE * (B_NR_ITEMS(bh) + 1))
710 reiserfs_panic(NULL,
711 "vs-6040: check_internal_block_head: invalid free space %z",
712 bh);
713
714 }
715
716 void check_leaf(struct buffer_head *bh)
717 {
718 int i;
719 struct item_head *ih;
720
721 if (!bh)
722 return;
723 check_leaf_block_head(bh);
724 for (i = 0, ih = B_N_PITEM_HEAD(bh, 0); i < B_NR_ITEMS(bh); i++, ih++)
725 op_check_item(ih, B_I_PITEM(bh, ih));
726 }
727
728 void check_internal(struct buffer_head *bh)
729 {
730 if (!bh)
731 return;
732 check_internal_block_head(bh);
733 }
734
735 void print_statistics(struct super_block *s)
736 {
737
738 /*
739 printk ("reiserfs_put_super: session statistics: balances %d, fix_nodes %d, \
740 bmap with search %d, without %d, dir2ind %d, ind2dir %d\n",
741 REISERFS_SB(s)->s_do_balance, REISERFS_SB(s)->s_fix_nodes,
742 REISERFS_SB(s)->s_bmaps, REISERFS_SB(s)->s_bmaps_without_search,
743 REISERFS_SB(s)->s_direct2indirect, REISERFS_SB(s)->s_indirect2direct);
744 */
745
746 }
Linux 2.6 ibm-acpi/thinkpad-acpi driver git tree