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[mirror_ubuntu-jammy-kernel.git] / fs / reiserfs / journal.c
1 // SPDX-License-Identifier: GPL-2.0
2 /*
3 * Write ahead logging implementation copyright Chris Mason 2000
4 *
5 * The background commits make this code very interrelated, and
6 * overly complex. I need to rethink things a bit....The major players:
7 *
8 * journal_begin -- call with the number of blocks you expect to log.
9 * If the current transaction is too
10 * old, it will block until the current transaction is
11 * finished, and then start a new one.
12 * Usually, your transaction will get joined in with
13 * previous ones for speed.
14 *
15 * journal_join -- same as journal_begin, but won't block on the current
16 * transaction regardless of age. Don't ever call
17 * this. Ever. There are only two places it should be
18 * called from, and they are both inside this file.
19 *
20 * journal_mark_dirty -- adds blocks into this transaction. clears any flags
21 * that might make them get sent to disk
22 * and then marks them BH_JDirty. Puts the buffer head
23 * into the current transaction hash.
24 *
25 * journal_end -- if the current transaction is batchable, it does nothing
26 * otherwise, it could do an async/synchronous commit, or
27 * a full flush of all log and real blocks in the
28 * transaction.
29 *
30 * flush_old_commits -- if the current transaction is too old, it is ended and
31 * commit blocks are sent to disk. Forces commit blocks
32 * to disk for all backgrounded commits that have been
33 * around too long.
34 * -- Note, if you call this as an immediate flush from
35 * from within kupdate, it will ignore the immediate flag
36 */
37
38 #include <linux/time.h>
39 #include <linux/semaphore.h>
40 #include <linux/vmalloc.h>
41 #include "reiserfs.h"
42 #include <linux/kernel.h>
43 #include <linux/errno.h>
44 #include <linux/fcntl.h>
45 #include <linux/stat.h>
46 #include <linux/string.h>
47 #include <linux/buffer_head.h>
48 #include <linux/workqueue.h>
49 #include <linux/writeback.h>
50 #include <linux/blkdev.h>
51 #include <linux/backing-dev.h>
52 #include <linux/uaccess.h>
53 #include <linux/slab.h>
54
55
56 /* gets a struct reiserfs_journal_list * from a list head */
57 #define JOURNAL_LIST_ENTRY(h) (list_entry((h), struct reiserfs_journal_list, \
58 j_list))
59
60 /* must be correct to keep the desc and commit structs at 4k */
61 #define JOURNAL_TRANS_HALF 1018
62 #define BUFNR 64 /*read ahead */
63
64 /* cnode stat bits. Move these into reiserfs_fs.h */
65
66 /* this block was freed, and can't be written. */
67 #define BLOCK_FREED 2
68 /* this block was freed during this transaction, and can't be written */
69 #define BLOCK_FREED_HOLDER 3
70
71 /* used in flush_journal_list */
72 #define BLOCK_NEEDS_FLUSH 4
73 #define BLOCK_DIRTIED 5
74
75 /* journal list state bits */
76 #define LIST_TOUCHED 1
77 #define LIST_DIRTY 2
78 #define LIST_COMMIT_PENDING 4 /* someone will commit this list */
79
80 /* flags for do_journal_end */
81 #define FLUSH_ALL 1 /* flush commit and real blocks */
82 #define COMMIT_NOW 2 /* end and commit this transaction */
83 #define WAIT 4 /* wait for the log blocks to hit the disk */
84
85 static int do_journal_end(struct reiserfs_transaction_handle *, int flags);
86 static int flush_journal_list(struct super_block *s,
87 struct reiserfs_journal_list *jl, int flushall);
88 static int flush_commit_list(struct super_block *s,
89 struct reiserfs_journal_list *jl, int flushall);
90 static int can_dirty(struct reiserfs_journal_cnode *cn);
91 static int journal_join(struct reiserfs_transaction_handle *th,
92 struct super_block *sb);
93 static void release_journal_dev(struct super_block *super,
94 struct reiserfs_journal *journal);
95 static void dirty_one_transaction(struct super_block *s,
96 struct reiserfs_journal_list *jl);
97 static void flush_async_commits(struct work_struct *work);
98 static void queue_log_writer(struct super_block *s);
99
100 /* values for join in do_journal_begin_r */
101 enum {
102 JBEGIN_REG = 0, /* regular journal begin */
103 /* join the running transaction if at all possible */
104 JBEGIN_JOIN = 1,
105 /* called from cleanup code, ignores aborted flag */
106 JBEGIN_ABORT = 2,
107 };
108
109 static int do_journal_begin_r(struct reiserfs_transaction_handle *th,
110 struct super_block *sb,
111 unsigned long nblocks, int join);
112
113 static void init_journal_hash(struct super_block *sb)
114 {
115 struct reiserfs_journal *journal = SB_JOURNAL(sb);
116 memset(journal->j_hash_table, 0,
117 JOURNAL_HASH_SIZE * sizeof(struct reiserfs_journal_cnode *));
118 }
119
120 /*
121 * clears BH_Dirty and sticks the buffer on the clean list. Called because
122 * I can't allow refile_buffer to make schedule happen after I've freed a
123 * block. Look at remove_from_transaction and journal_mark_freed for
124 * more details.
125 */
126 static int reiserfs_clean_and_file_buffer(struct buffer_head *bh)
127 {
128 if (bh) {
129 clear_buffer_dirty(bh);
130 clear_buffer_journal_test(bh);
131 }
132 return 0;
133 }
134
135 static struct reiserfs_bitmap_node *allocate_bitmap_node(struct super_block
136 *sb)
137 {
138 struct reiserfs_bitmap_node *bn;
139 static int id;
140
141 bn = kmalloc(sizeof(struct reiserfs_bitmap_node), GFP_NOFS);
142 if (!bn) {
143 return NULL;
144 }
145 bn->data = kzalloc(sb->s_blocksize, GFP_NOFS);
146 if (!bn->data) {
147 kfree(bn);
148 return NULL;
149 }
150 bn->id = id++;
151 INIT_LIST_HEAD(&bn->list);
152 return bn;
153 }
154
155 static struct reiserfs_bitmap_node *get_bitmap_node(struct super_block *sb)
156 {
157 struct reiserfs_journal *journal = SB_JOURNAL(sb);
158 struct reiserfs_bitmap_node *bn = NULL;
159 struct list_head *entry = journal->j_bitmap_nodes.next;
160
161 journal->j_used_bitmap_nodes++;
162 repeat:
163
164 if (entry != &journal->j_bitmap_nodes) {
165 bn = list_entry(entry, struct reiserfs_bitmap_node, list);
166 list_del(entry);
167 memset(bn->data, 0, sb->s_blocksize);
168 journal->j_free_bitmap_nodes--;
169 return bn;
170 }
171 bn = allocate_bitmap_node(sb);
172 if (!bn) {
173 yield();
174 goto repeat;
175 }
176 return bn;
177 }
178 static inline void free_bitmap_node(struct super_block *sb,
179 struct reiserfs_bitmap_node *bn)
180 {
181 struct reiserfs_journal *journal = SB_JOURNAL(sb);
182 journal->j_used_bitmap_nodes--;
183 if (journal->j_free_bitmap_nodes > REISERFS_MAX_BITMAP_NODES) {
184 kfree(bn->data);
185 kfree(bn);
186 } else {
187 list_add(&bn->list, &journal->j_bitmap_nodes);
188 journal->j_free_bitmap_nodes++;
189 }
190 }
191
192 static void allocate_bitmap_nodes(struct super_block *sb)
193 {
194 int i;
195 struct reiserfs_journal *journal = SB_JOURNAL(sb);
196 struct reiserfs_bitmap_node *bn = NULL;
197 for (i = 0; i < REISERFS_MIN_BITMAP_NODES; i++) {
198 bn = allocate_bitmap_node(sb);
199 if (bn) {
200 list_add(&bn->list, &journal->j_bitmap_nodes);
201 journal->j_free_bitmap_nodes++;
202 } else {
203 /* this is ok, we'll try again when more are needed */
204 break;
205 }
206 }
207 }
208
209 static int set_bit_in_list_bitmap(struct super_block *sb,
210 b_blocknr_t block,
211 struct reiserfs_list_bitmap *jb)
212 {
213 unsigned int bmap_nr = block / (sb->s_blocksize << 3);
214 unsigned int bit_nr = block % (sb->s_blocksize << 3);
215
216 if (!jb->bitmaps[bmap_nr]) {
217 jb->bitmaps[bmap_nr] = get_bitmap_node(sb);
218 }
219 set_bit(bit_nr, (unsigned long *)jb->bitmaps[bmap_nr]->data);
220 return 0;
221 }
222
223 static void cleanup_bitmap_list(struct super_block *sb,
224 struct reiserfs_list_bitmap *jb)
225 {
226 int i;
227 if (jb->bitmaps == NULL)
228 return;
229
230 for (i = 0; i < reiserfs_bmap_count(sb); i++) {
231 if (jb->bitmaps[i]) {
232 free_bitmap_node(sb, jb->bitmaps[i]);
233 jb->bitmaps[i] = NULL;
234 }
235 }
236 }
237
238 /*
239 * only call this on FS unmount.
240 */
241 static int free_list_bitmaps(struct super_block *sb,
242 struct reiserfs_list_bitmap *jb_array)
243 {
244 int i;
245 struct reiserfs_list_bitmap *jb;
246 for (i = 0; i < JOURNAL_NUM_BITMAPS; i++) {
247 jb = jb_array + i;
248 jb->journal_list = NULL;
249 cleanup_bitmap_list(sb, jb);
250 vfree(jb->bitmaps);
251 jb->bitmaps = NULL;
252 }
253 return 0;
254 }
255
256 static int free_bitmap_nodes(struct super_block *sb)
257 {
258 struct reiserfs_journal *journal = SB_JOURNAL(sb);
259 struct list_head *next = journal->j_bitmap_nodes.next;
260 struct reiserfs_bitmap_node *bn;
261
262 while (next != &journal->j_bitmap_nodes) {
263 bn = list_entry(next, struct reiserfs_bitmap_node, list);
264 list_del(next);
265 kfree(bn->data);
266 kfree(bn);
267 next = journal->j_bitmap_nodes.next;
268 journal->j_free_bitmap_nodes--;
269 }
270
271 return 0;
272 }
273
274 /*
275 * get memory for JOURNAL_NUM_BITMAPS worth of bitmaps.
276 * jb_array is the array to be filled in.
277 */
278 int reiserfs_allocate_list_bitmaps(struct super_block *sb,
279 struct reiserfs_list_bitmap *jb_array,
280 unsigned int bmap_nr)
281 {
282 int i;
283 int failed = 0;
284 struct reiserfs_list_bitmap *jb;
285 int mem = bmap_nr * sizeof(struct reiserfs_bitmap_node *);
286
287 for (i = 0; i < JOURNAL_NUM_BITMAPS; i++) {
288 jb = jb_array + i;
289 jb->journal_list = NULL;
290 jb->bitmaps = vzalloc(mem);
291 if (!jb->bitmaps) {
292 reiserfs_warning(sb, "clm-2000", "unable to "
293 "allocate bitmaps for journal lists");
294 failed = 1;
295 break;
296 }
297 }
298 if (failed) {
299 free_list_bitmaps(sb, jb_array);
300 return -1;
301 }
302 return 0;
303 }
304
305 /*
306 * find an available list bitmap. If you can't find one, flush a commit list
307 * and try again
308 */
309 static struct reiserfs_list_bitmap *get_list_bitmap(struct super_block *sb,
310 struct reiserfs_journal_list
311 *jl)
312 {
313 int i, j;
314 struct reiserfs_journal *journal = SB_JOURNAL(sb);
315 struct reiserfs_list_bitmap *jb = NULL;
316
317 for (j = 0; j < (JOURNAL_NUM_BITMAPS * 3); j++) {
318 i = journal->j_list_bitmap_index;
319 journal->j_list_bitmap_index = (i + 1) % JOURNAL_NUM_BITMAPS;
320 jb = journal->j_list_bitmap + i;
321 if (journal->j_list_bitmap[i].journal_list) {
322 flush_commit_list(sb,
323 journal->j_list_bitmap[i].
324 journal_list, 1);
325 if (!journal->j_list_bitmap[i].journal_list) {
326 break;
327 }
328 } else {
329 break;
330 }
331 }
332 /* double check to make sure if flushed correctly */
333 if (jb->journal_list)
334 return NULL;
335 jb->journal_list = jl;
336 return jb;
337 }
338
339 /*
340 * allocates a new chunk of X nodes, and links them all together as a list.
341 * Uses the cnode->next and cnode->prev pointers
342 * returns NULL on failure
343 */
344 static struct reiserfs_journal_cnode *allocate_cnodes(int num_cnodes)
345 {
346 struct reiserfs_journal_cnode *head;
347 int i;
348 if (num_cnodes <= 0) {
349 return NULL;
350 }
351 head = vzalloc(array_size(num_cnodes,
352 sizeof(struct reiserfs_journal_cnode)));
353 if (!head) {
354 return NULL;
355 }
356 head[0].prev = NULL;
357 head[0].next = head + 1;
358 for (i = 1; i < num_cnodes; i++) {
359 head[i].prev = head + (i - 1);
360 head[i].next = head + (i + 1); /* if last one, overwrite it after the if */
361 }
362 head[num_cnodes - 1].next = NULL;
363 return head;
364 }
365
366 /* pulls a cnode off the free list, or returns NULL on failure */
367 static struct reiserfs_journal_cnode *get_cnode(struct super_block *sb)
368 {
369 struct reiserfs_journal_cnode *cn;
370 struct reiserfs_journal *journal = SB_JOURNAL(sb);
371
372 reiserfs_check_lock_depth(sb, "get_cnode");
373
374 if (journal->j_cnode_free <= 0) {
375 return NULL;
376 }
377 journal->j_cnode_used++;
378 journal->j_cnode_free--;
379 cn = journal->j_cnode_free_list;
380 if (!cn) {
381 return cn;
382 }
383 if (cn->next) {
384 cn->next->prev = NULL;
385 }
386 journal->j_cnode_free_list = cn->next;
387 memset(cn, 0, sizeof(struct reiserfs_journal_cnode));
388 return cn;
389 }
390
391 /*
392 * returns a cnode to the free list
393 */
394 static void free_cnode(struct super_block *sb,
395 struct reiserfs_journal_cnode *cn)
396 {
397 struct reiserfs_journal *journal = SB_JOURNAL(sb);
398
399 reiserfs_check_lock_depth(sb, "free_cnode");
400
401 journal->j_cnode_used--;
402 journal->j_cnode_free++;
403 /* memset(cn, 0, sizeof(struct reiserfs_journal_cnode)) ; */
404 cn->next = journal->j_cnode_free_list;
405 if (journal->j_cnode_free_list) {
406 journal->j_cnode_free_list->prev = cn;
407 }
408 cn->prev = NULL; /* not needed with the memset, but I might kill the memset, and forget to do this */
409 journal->j_cnode_free_list = cn;
410 }
411
412 static void clear_prepared_bits(struct buffer_head *bh)
413 {
414 clear_buffer_journal_prepared(bh);
415 clear_buffer_journal_restore_dirty(bh);
416 }
417
418 /*
419 * return a cnode with same dev, block number and size in table,
420 * or null if not found
421 */
422 static inline struct reiserfs_journal_cnode *get_journal_hash_dev(struct
423 super_block
424 *sb,
425 struct
426 reiserfs_journal_cnode
427 **table,
428 long bl)
429 {
430 struct reiserfs_journal_cnode *cn;
431 cn = journal_hash(table, sb, bl);
432 while (cn) {
433 if (cn->blocknr == bl && cn->sb == sb)
434 return cn;
435 cn = cn->hnext;
436 }
437 return (struct reiserfs_journal_cnode *)0;
438 }
439
440 /*
441 * this actually means 'can this block be reallocated yet?'. If you set
442 * search_all, a block can only be allocated if it is not in the current
443 * transaction, was not freed by the current transaction, and has no chance
444 * of ever being overwritten by a replay after crashing.
445 *
446 * If you don't set search_all, a block can only be allocated if it is not
447 * in the current transaction. Since deleting a block removes it from the
448 * current transaction, this case should never happen. If you don't set
449 * search_all, make sure you never write the block without logging it.
450 *
451 * next_zero_bit is a suggestion about the next block to try for find_forward.
452 * when bl is rejected because it is set in a journal list bitmap, we search
453 * for the next zero bit in the bitmap that rejected bl. Then, we return
454 * that through next_zero_bit for find_forward to try.
455 *
456 * Just because we return something in next_zero_bit does not mean we won't
457 * reject it on the next call to reiserfs_in_journal
458 */
459 int reiserfs_in_journal(struct super_block *sb,
460 unsigned int bmap_nr, int bit_nr, int search_all,
461 b_blocknr_t * next_zero_bit)
462 {
463 struct reiserfs_journal *journal = SB_JOURNAL(sb);
464 struct reiserfs_journal_cnode *cn;
465 struct reiserfs_list_bitmap *jb;
466 int i;
467 unsigned long bl;
468
469 *next_zero_bit = 0; /* always start this at zero. */
470
471 PROC_INFO_INC(sb, journal.in_journal);
472 /*
473 * If we aren't doing a search_all, this is a metablock, and it
474 * will be logged before use. if we crash before the transaction
475 * that freed it commits, this transaction won't have committed
476 * either, and the block will never be written
477 */
478 if (search_all) {
479 for (i = 0; i < JOURNAL_NUM_BITMAPS; i++) {
480 PROC_INFO_INC(sb, journal.in_journal_bitmap);
481 jb = journal->j_list_bitmap + i;
482 if (jb->journal_list && jb->bitmaps[bmap_nr] &&
483 test_bit(bit_nr,
484 (unsigned long *)jb->bitmaps[bmap_nr]->
485 data)) {
486 *next_zero_bit =
487 find_next_zero_bit((unsigned long *)
488 (jb->bitmaps[bmap_nr]->
489 data),
490 sb->s_blocksize << 3,
491 bit_nr + 1);
492 return 1;
493 }
494 }
495 }
496
497 bl = bmap_nr * (sb->s_blocksize << 3) + bit_nr;
498 /* is it in any old transactions? */
499 if (search_all
500 && (cn =
501 get_journal_hash_dev(sb, journal->j_list_hash_table, bl))) {
502 return 1;
503 }
504
505 /* is it in the current transaction. This should never happen */
506 if ((cn = get_journal_hash_dev(sb, journal->j_hash_table, bl))) {
507 BUG();
508 return 1;
509 }
510
511 PROC_INFO_INC(sb, journal.in_journal_reusable);
512 /* safe for reuse */
513 return 0;
514 }
515
516 /* insert cn into table */
517 static inline void insert_journal_hash(struct reiserfs_journal_cnode **table,
518 struct reiserfs_journal_cnode *cn)
519 {
520 struct reiserfs_journal_cnode *cn_orig;
521
522 cn_orig = journal_hash(table, cn->sb, cn->blocknr);
523 cn->hnext = cn_orig;
524 cn->hprev = NULL;
525 if (cn_orig) {
526 cn_orig->hprev = cn;
527 }
528 journal_hash(table, cn->sb, cn->blocknr) = cn;
529 }
530
531 /* lock the current transaction */
532 static inline void lock_journal(struct super_block *sb)
533 {
534 PROC_INFO_INC(sb, journal.lock_journal);
535
536 reiserfs_mutex_lock_safe(&SB_JOURNAL(sb)->j_mutex, sb);
537 }
538
539 /* unlock the current transaction */
540 static inline void unlock_journal(struct super_block *sb)
541 {
542 mutex_unlock(&SB_JOURNAL(sb)->j_mutex);
543 }
544
545 static inline void get_journal_list(struct reiserfs_journal_list *jl)
546 {
547 jl->j_refcount++;
548 }
549
550 static inline void put_journal_list(struct super_block *s,
551 struct reiserfs_journal_list *jl)
552 {
553 if (jl->j_refcount < 1) {
554 reiserfs_panic(s, "journal-2", "trans id %u, refcount at %d",
555 jl->j_trans_id, jl->j_refcount);
556 }
557 if (--jl->j_refcount == 0)
558 kfree(jl);
559 }
560
561 /*
562 * this used to be much more involved, and I'm keeping it just in case
563 * things get ugly again. it gets called by flush_commit_list, and
564 * cleans up any data stored about blocks freed during a transaction.
565 */
566 static void cleanup_freed_for_journal_list(struct super_block *sb,
567 struct reiserfs_journal_list *jl)
568 {
569
570 struct reiserfs_list_bitmap *jb = jl->j_list_bitmap;
571 if (jb) {
572 cleanup_bitmap_list(sb, jb);
573 }
574 jl->j_list_bitmap->journal_list = NULL;
575 jl->j_list_bitmap = NULL;
576 }
577
578 static int journal_list_still_alive(struct super_block *s,
579 unsigned int trans_id)
580 {
581 struct reiserfs_journal *journal = SB_JOURNAL(s);
582 struct list_head *entry = &journal->j_journal_list;
583 struct reiserfs_journal_list *jl;
584
585 if (!list_empty(entry)) {
586 jl = JOURNAL_LIST_ENTRY(entry->next);
587 if (jl->j_trans_id <= trans_id) {
588 return 1;
589 }
590 }
591 return 0;
592 }
593
594 /*
595 * If page->mapping was null, we failed to truncate this page for
596 * some reason. Most likely because it was truncated after being
597 * logged via data=journal.
598 *
599 * This does a check to see if the buffer belongs to one of these
600 * lost pages before doing the final put_bh. If page->mapping was
601 * null, it tries to free buffers on the page, which should make the
602 * final put_page drop the page from the lru.
603 */
604 static void release_buffer_page(struct buffer_head *bh)
605 {
606 struct page *page = bh->b_page;
607 if (!page->mapping && trylock_page(page)) {
608 get_page(page);
609 put_bh(bh);
610 if (!page->mapping)
611 try_to_free_buffers(page);
612 unlock_page(page);
613 put_page(page);
614 } else {
615 put_bh(bh);
616 }
617 }
618
619 static void reiserfs_end_buffer_io_sync(struct buffer_head *bh, int uptodate)
620 {
621 if (buffer_journaled(bh)) {
622 reiserfs_warning(NULL, "clm-2084",
623 "pinned buffer %lu:%pg sent to disk",
624 bh->b_blocknr, bh->b_bdev);
625 }
626 if (uptodate)
627 set_buffer_uptodate(bh);
628 else
629 clear_buffer_uptodate(bh);
630
631 unlock_buffer(bh);
632 release_buffer_page(bh);
633 }
634
635 static void reiserfs_end_ordered_io(struct buffer_head *bh, int uptodate)
636 {
637 if (uptodate)
638 set_buffer_uptodate(bh);
639 else
640 clear_buffer_uptodate(bh);
641 unlock_buffer(bh);
642 put_bh(bh);
643 }
644
645 static void submit_logged_buffer(struct buffer_head *bh)
646 {
647 get_bh(bh);
648 bh->b_end_io = reiserfs_end_buffer_io_sync;
649 clear_buffer_journal_new(bh);
650 clear_buffer_dirty(bh);
651 if (!test_clear_buffer_journal_test(bh))
652 BUG();
653 if (!buffer_uptodate(bh))
654 BUG();
655 submit_bh(REQ_OP_WRITE, 0, bh);
656 }
657
658 static void submit_ordered_buffer(struct buffer_head *bh)
659 {
660 get_bh(bh);
661 bh->b_end_io = reiserfs_end_ordered_io;
662 clear_buffer_dirty(bh);
663 if (!buffer_uptodate(bh))
664 BUG();
665 submit_bh(REQ_OP_WRITE, 0, bh);
666 }
667
668 #define CHUNK_SIZE 32
669 struct buffer_chunk {
670 struct buffer_head *bh[CHUNK_SIZE];
671 int nr;
672 };
673
674 static void write_chunk(struct buffer_chunk *chunk)
675 {
676 int i;
677 for (i = 0; i < chunk->nr; i++) {
678 submit_logged_buffer(chunk->bh[i]);
679 }
680 chunk->nr = 0;
681 }
682
683 static void write_ordered_chunk(struct buffer_chunk *chunk)
684 {
685 int i;
686 for (i = 0; i < chunk->nr; i++) {
687 submit_ordered_buffer(chunk->bh[i]);
688 }
689 chunk->nr = 0;
690 }
691
692 static int add_to_chunk(struct buffer_chunk *chunk, struct buffer_head *bh,
693 spinlock_t * lock, void (fn) (struct buffer_chunk *))
694 {
695 int ret = 0;
696 BUG_ON(chunk->nr >= CHUNK_SIZE);
697 chunk->bh[chunk->nr++] = bh;
698 if (chunk->nr >= CHUNK_SIZE) {
699 ret = 1;
700 if (lock) {
701 spin_unlock(lock);
702 fn(chunk);
703 spin_lock(lock);
704 } else {
705 fn(chunk);
706 }
707 }
708 return ret;
709 }
710
711 static atomic_t nr_reiserfs_jh = ATOMIC_INIT(0);
712 static struct reiserfs_jh *alloc_jh(void)
713 {
714 struct reiserfs_jh *jh;
715 while (1) {
716 jh = kmalloc(sizeof(*jh), GFP_NOFS);
717 if (jh) {
718 atomic_inc(&nr_reiserfs_jh);
719 return jh;
720 }
721 yield();
722 }
723 }
724
725 /*
726 * we want to free the jh when the buffer has been written
727 * and waited on
728 */
729 void reiserfs_free_jh(struct buffer_head *bh)
730 {
731 struct reiserfs_jh *jh;
732
733 jh = bh->b_private;
734 if (jh) {
735 bh->b_private = NULL;
736 jh->bh = NULL;
737 list_del_init(&jh->list);
738 kfree(jh);
739 if (atomic_read(&nr_reiserfs_jh) <= 0)
740 BUG();
741 atomic_dec(&nr_reiserfs_jh);
742 put_bh(bh);
743 }
744 }
745
746 static inline int __add_jh(struct reiserfs_journal *j, struct buffer_head *bh,
747 int tail)
748 {
749 struct reiserfs_jh *jh;
750
751 if (bh->b_private) {
752 spin_lock(&j->j_dirty_buffers_lock);
753 if (!bh->b_private) {
754 spin_unlock(&j->j_dirty_buffers_lock);
755 goto no_jh;
756 }
757 jh = bh->b_private;
758 list_del_init(&jh->list);
759 } else {
760 no_jh:
761 get_bh(bh);
762 jh = alloc_jh();
763 spin_lock(&j->j_dirty_buffers_lock);
764 /*
765 * buffer must be locked for __add_jh, should be able to have
766 * two adds at the same time
767 */
768 BUG_ON(bh->b_private);
769 jh->bh = bh;
770 bh->b_private = jh;
771 }
772 jh->jl = j->j_current_jl;
773 if (tail)
774 list_add_tail(&jh->list, &jh->jl->j_tail_bh_list);
775 else {
776 list_add_tail(&jh->list, &jh->jl->j_bh_list);
777 }
778 spin_unlock(&j->j_dirty_buffers_lock);
779 return 0;
780 }
781
782 int reiserfs_add_tail_list(struct inode *inode, struct buffer_head *bh)
783 {
784 return __add_jh(SB_JOURNAL(inode->i_sb), bh, 1);
785 }
786 int reiserfs_add_ordered_list(struct inode *inode, struct buffer_head *bh)
787 {
788 return __add_jh(SB_JOURNAL(inode->i_sb), bh, 0);
789 }
790
791 #define JH_ENTRY(l) list_entry((l), struct reiserfs_jh, list)
792 static int write_ordered_buffers(spinlock_t * lock,
793 struct reiserfs_journal *j,
794 struct reiserfs_journal_list *jl,
795 struct list_head *list)
796 {
797 struct buffer_head *bh;
798 struct reiserfs_jh *jh;
799 int ret = j->j_errno;
800 struct buffer_chunk chunk;
801 struct list_head tmp;
802 INIT_LIST_HEAD(&tmp);
803
804 chunk.nr = 0;
805 spin_lock(lock);
806 while (!list_empty(list)) {
807 jh = JH_ENTRY(list->next);
808 bh = jh->bh;
809 get_bh(bh);
810 if (!trylock_buffer(bh)) {
811 if (!buffer_dirty(bh)) {
812 list_move(&jh->list, &tmp);
813 goto loop_next;
814 }
815 spin_unlock(lock);
816 if (chunk.nr)
817 write_ordered_chunk(&chunk);
818 wait_on_buffer(bh);
819 cond_resched();
820 spin_lock(lock);
821 goto loop_next;
822 }
823 /*
824 * in theory, dirty non-uptodate buffers should never get here,
825 * but the upper layer io error paths still have a few quirks.
826 * Handle them here as gracefully as we can
827 */
828 if (!buffer_uptodate(bh) && buffer_dirty(bh)) {
829 clear_buffer_dirty(bh);
830 ret = -EIO;
831 }
832 if (buffer_dirty(bh)) {
833 list_move(&jh->list, &tmp);
834 add_to_chunk(&chunk, bh, lock, write_ordered_chunk);
835 } else {
836 reiserfs_free_jh(bh);
837 unlock_buffer(bh);
838 }
839 loop_next:
840 put_bh(bh);
841 cond_resched_lock(lock);
842 }
843 if (chunk.nr) {
844 spin_unlock(lock);
845 write_ordered_chunk(&chunk);
846 spin_lock(lock);
847 }
848 while (!list_empty(&tmp)) {
849 jh = JH_ENTRY(tmp.prev);
850 bh = jh->bh;
851 get_bh(bh);
852 reiserfs_free_jh(bh);
853
854 if (buffer_locked(bh)) {
855 spin_unlock(lock);
856 wait_on_buffer(bh);
857 spin_lock(lock);
858 }
859 if (!buffer_uptodate(bh)) {
860 ret = -EIO;
861 }
862 /*
863 * ugly interaction with invalidatepage here.
864 * reiserfs_invalidate_page will pin any buffer that has a
865 * valid journal head from an older transaction. If someone
866 * else sets our buffer dirty after we write it in the first
867 * loop, and then someone truncates the page away, nobody
868 * will ever write the buffer. We're safe if we write the
869 * page one last time after freeing the journal header.
870 */
871 if (buffer_dirty(bh) && unlikely(bh->b_page->mapping == NULL)) {
872 spin_unlock(lock);
873 ll_rw_block(REQ_OP_WRITE, 0, 1, &bh);
874 spin_lock(lock);
875 }
876 put_bh(bh);
877 cond_resched_lock(lock);
878 }
879 spin_unlock(lock);
880 return ret;
881 }
882
883 static int flush_older_commits(struct super_block *s,
884 struct reiserfs_journal_list *jl)
885 {
886 struct reiserfs_journal *journal = SB_JOURNAL(s);
887 struct reiserfs_journal_list *other_jl;
888 struct reiserfs_journal_list *first_jl;
889 struct list_head *entry;
890 unsigned int trans_id = jl->j_trans_id;
891 unsigned int other_trans_id;
892
893 find_first:
894 /*
895 * first we walk backwards to find the oldest uncommitted transation
896 */
897 first_jl = jl;
898 entry = jl->j_list.prev;
899 while (1) {
900 other_jl = JOURNAL_LIST_ENTRY(entry);
901 if (entry == &journal->j_journal_list ||
902 atomic_read(&other_jl->j_older_commits_done))
903 break;
904
905 first_jl = other_jl;
906 entry = other_jl->j_list.prev;
907 }
908
909 /* if we didn't find any older uncommitted transactions, return now */
910 if (first_jl == jl) {
911 return 0;
912 }
913
914 entry = &first_jl->j_list;
915 while (1) {
916 other_jl = JOURNAL_LIST_ENTRY(entry);
917 other_trans_id = other_jl->j_trans_id;
918
919 if (other_trans_id < trans_id) {
920 if (atomic_read(&other_jl->j_commit_left) != 0) {
921 flush_commit_list(s, other_jl, 0);
922
923 /* list we were called with is gone, return */
924 if (!journal_list_still_alive(s, trans_id))
925 return 1;
926
927 /*
928 * the one we just flushed is gone, this means
929 * all older lists are also gone, so first_jl
930 * is no longer valid either. Go back to the
931 * beginning.
932 */
933 if (!journal_list_still_alive
934 (s, other_trans_id)) {
935 goto find_first;
936 }
937 }
938 entry = entry->next;
939 if (entry == &journal->j_journal_list)
940 return 0;
941 } else {
942 return 0;
943 }
944 }
945 return 0;
946 }
947
948 static int reiserfs_async_progress_wait(struct super_block *s)
949 {
950 struct reiserfs_journal *j = SB_JOURNAL(s);
951
952 if (atomic_read(&j->j_async_throttle)) {
953 int depth;
954
955 depth = reiserfs_write_unlock_nested(s);
956 congestion_wait(BLK_RW_ASYNC, HZ / 10);
957 reiserfs_write_lock_nested(s, depth);
958 }
959
960 return 0;
961 }
962
963 /*
964 * if this journal list still has commit blocks unflushed, send them to disk.
965 *
966 * log areas must be flushed in order (transaction 2 can't commit before
967 * transaction 1) Before the commit block can by written, every other log
968 * block must be safely on disk
969 */
970 static int flush_commit_list(struct super_block *s,
971 struct reiserfs_journal_list *jl, int flushall)
972 {
973 int i;
974 b_blocknr_t bn;
975 struct buffer_head *tbh = NULL;
976 unsigned int trans_id = jl->j_trans_id;
977 struct reiserfs_journal *journal = SB_JOURNAL(s);
978 int retval = 0;
979 int write_len;
980 int depth;
981
982 reiserfs_check_lock_depth(s, "flush_commit_list");
983
984 if (atomic_read(&jl->j_older_commits_done)) {
985 return 0;
986 }
987
988 /*
989 * before we can put our commit blocks on disk, we have to make
990 * sure everyone older than us is on disk too
991 */
992 BUG_ON(jl->j_len <= 0);
993 BUG_ON(trans_id == journal->j_trans_id);
994
995 get_journal_list(jl);
996 if (flushall) {
997 if (flush_older_commits(s, jl) == 1) {
998 /*
999 * list disappeared during flush_older_commits.
1000 * return
1001 */
1002 goto put_jl;
1003 }
1004 }
1005
1006 /* make sure nobody is trying to flush this one at the same time */
1007 reiserfs_mutex_lock_safe(&jl->j_commit_mutex, s);
1008
1009 if (!journal_list_still_alive(s, trans_id)) {
1010 mutex_unlock(&jl->j_commit_mutex);
1011 goto put_jl;
1012 }
1013 BUG_ON(jl->j_trans_id == 0);
1014
1015 /* this commit is done, exit */
1016 if (atomic_read(&jl->j_commit_left) <= 0) {
1017 if (flushall) {
1018 atomic_set(&jl->j_older_commits_done, 1);
1019 }
1020 mutex_unlock(&jl->j_commit_mutex);
1021 goto put_jl;
1022 }
1023
1024 if (!list_empty(&jl->j_bh_list)) {
1025 int ret;
1026
1027 /*
1028 * We might sleep in numerous places inside
1029 * write_ordered_buffers. Relax the write lock.
1030 */
1031 depth = reiserfs_write_unlock_nested(s);
1032 ret = write_ordered_buffers(&journal->j_dirty_buffers_lock,
1033 journal, jl, &jl->j_bh_list);
1034 if (ret < 0 && retval == 0)
1035 retval = ret;
1036 reiserfs_write_lock_nested(s, depth);
1037 }
1038 BUG_ON(!list_empty(&jl->j_bh_list));
1039 /*
1040 * for the description block and all the log blocks, submit any buffers
1041 * that haven't already reached the disk. Try to write at least 256
1042 * log blocks. later on, we will only wait on blocks that correspond
1043 * to this transaction, but while we're unplugging we might as well
1044 * get a chunk of data on there.
1045 */
1046 atomic_inc(&journal->j_async_throttle);
1047 write_len = jl->j_len + 1;
1048 if (write_len < 256)
1049 write_len = 256;
1050 for (i = 0 ; i < write_len ; i++) {
1051 bn = SB_ONDISK_JOURNAL_1st_BLOCK(s) + (jl->j_start + i) %
1052 SB_ONDISK_JOURNAL_SIZE(s);
1053 tbh = journal_find_get_block(s, bn);
1054 if (tbh) {
1055 if (buffer_dirty(tbh)) {
1056 depth = reiserfs_write_unlock_nested(s);
1057 ll_rw_block(REQ_OP_WRITE, 0, 1, &tbh);
1058 reiserfs_write_lock_nested(s, depth);
1059 }
1060 put_bh(tbh) ;
1061 }
1062 }
1063 atomic_dec(&journal->j_async_throttle);
1064
1065 for (i = 0; i < (jl->j_len + 1); i++) {
1066 bn = SB_ONDISK_JOURNAL_1st_BLOCK(s) +
1067 (jl->j_start + i) % SB_ONDISK_JOURNAL_SIZE(s);
1068 tbh = journal_find_get_block(s, bn);
1069
1070 depth = reiserfs_write_unlock_nested(s);
1071 __wait_on_buffer(tbh);
1072 reiserfs_write_lock_nested(s, depth);
1073 /*
1074 * since we're using ll_rw_blk above, it might have skipped
1075 * over a locked buffer. Double check here
1076 */
1077 /* redundant, sync_dirty_buffer() checks */
1078 if (buffer_dirty(tbh)) {
1079 depth = reiserfs_write_unlock_nested(s);
1080 sync_dirty_buffer(tbh);
1081 reiserfs_write_lock_nested(s, depth);
1082 }
1083 if (unlikely(!buffer_uptodate(tbh))) {
1084 #ifdef CONFIG_REISERFS_CHECK
1085 reiserfs_warning(s, "journal-601",
1086 "buffer write failed");
1087 #endif
1088 retval = -EIO;
1089 }
1090 /* once for journal_find_get_block */
1091 put_bh(tbh);
1092 /* once due to original getblk in do_journal_end */
1093 put_bh(tbh);
1094 atomic_dec(&jl->j_commit_left);
1095 }
1096
1097 BUG_ON(atomic_read(&jl->j_commit_left) != 1);
1098
1099 /*
1100 * If there was a write error in the journal - we can't commit
1101 * this transaction - it will be invalid and, if successful,
1102 * will just end up propagating the write error out to
1103 * the file system.
1104 */
1105 if (likely(!retval && !reiserfs_is_journal_aborted (journal))) {
1106 if (buffer_dirty(jl->j_commit_bh))
1107 BUG();
1108 mark_buffer_dirty(jl->j_commit_bh) ;
1109 depth = reiserfs_write_unlock_nested(s);
1110 if (reiserfs_barrier_flush(s))
1111 __sync_dirty_buffer(jl->j_commit_bh,
1112 REQ_SYNC | REQ_PREFLUSH | REQ_FUA);
1113 else
1114 sync_dirty_buffer(jl->j_commit_bh);
1115 reiserfs_write_lock_nested(s, depth);
1116 }
1117
1118 /*
1119 * If there was a write error in the journal - we can't commit this
1120 * transaction - it will be invalid and, if successful, will just end
1121 * up propagating the write error out to the filesystem.
1122 */
1123 if (unlikely(!buffer_uptodate(jl->j_commit_bh))) {
1124 #ifdef CONFIG_REISERFS_CHECK
1125 reiserfs_warning(s, "journal-615", "buffer write failed");
1126 #endif
1127 retval = -EIO;
1128 }
1129 bforget(jl->j_commit_bh);
1130 if (journal->j_last_commit_id != 0 &&
1131 (jl->j_trans_id - journal->j_last_commit_id) != 1) {
1132 reiserfs_warning(s, "clm-2200", "last commit %lu, current %lu",
1133 journal->j_last_commit_id, jl->j_trans_id);
1134 }
1135 journal->j_last_commit_id = jl->j_trans_id;
1136
1137 /*
1138 * now, every commit block is on the disk. It is safe to allow
1139 * blocks freed during this transaction to be reallocated
1140 */
1141 cleanup_freed_for_journal_list(s, jl);
1142
1143 retval = retval ? retval : journal->j_errno;
1144
1145 /* mark the metadata dirty */
1146 if (!retval)
1147 dirty_one_transaction(s, jl);
1148 atomic_dec(&jl->j_commit_left);
1149
1150 if (flushall) {
1151 atomic_set(&jl->j_older_commits_done, 1);
1152 }
1153 mutex_unlock(&jl->j_commit_mutex);
1154 put_jl:
1155 put_journal_list(s, jl);
1156
1157 if (retval)
1158 reiserfs_abort(s, retval, "Journal write error in %s",
1159 __func__);
1160 return retval;
1161 }
1162
1163 /*
1164 * flush_journal_list frequently needs to find a newer transaction for a
1165 * given block. This does that, or returns NULL if it can't find anything
1166 */
1167 static struct reiserfs_journal_list *find_newer_jl_for_cn(struct
1168 reiserfs_journal_cnode
1169 *cn)
1170 {
1171 struct super_block *sb = cn->sb;
1172 b_blocknr_t blocknr = cn->blocknr;
1173
1174 cn = cn->hprev;
1175 while (cn) {
1176 if (cn->sb == sb && cn->blocknr == blocknr && cn->jlist) {
1177 return cn->jlist;
1178 }
1179 cn = cn->hprev;
1180 }
1181 return NULL;
1182 }
1183
1184 static void remove_journal_hash(struct super_block *,
1185 struct reiserfs_journal_cnode **,
1186 struct reiserfs_journal_list *, unsigned long,
1187 int);
1188
1189 /*
1190 * once all the real blocks have been flushed, it is safe to remove them
1191 * from the journal list for this transaction. Aside from freeing the
1192 * cnode, this also allows the block to be reallocated for data blocks
1193 * if it had been deleted.
1194 */
1195 static void remove_all_from_journal_list(struct super_block *sb,
1196 struct reiserfs_journal_list *jl,
1197 int debug)
1198 {
1199 struct reiserfs_journal *journal = SB_JOURNAL(sb);
1200 struct reiserfs_journal_cnode *cn, *last;
1201 cn = jl->j_realblock;
1202
1203 /*
1204 * which is better, to lock once around the whole loop, or
1205 * to lock for each call to remove_journal_hash?
1206 */
1207 while (cn) {
1208 if (cn->blocknr != 0) {
1209 if (debug) {
1210 reiserfs_warning(sb, "reiserfs-2201",
1211 "block %u, bh is %d, state %ld",
1212 cn->blocknr, cn->bh ? 1 : 0,
1213 cn->state);
1214 }
1215 cn->state = 0;
1216 remove_journal_hash(sb, journal->j_list_hash_table,
1217 jl, cn->blocknr, 1);
1218 }
1219 last = cn;
1220 cn = cn->next;
1221 free_cnode(sb, last);
1222 }
1223 jl->j_realblock = NULL;
1224 }
1225
1226 /*
1227 * if this timestamp is greater than the timestamp we wrote last to the
1228 * header block, write it to the header block. once this is done, I can
1229 * safely say the log area for this transaction won't ever be replayed,
1230 * and I can start releasing blocks in this transaction for reuse as data
1231 * blocks. called by flush_journal_list, before it calls
1232 * remove_all_from_journal_list
1233 */
1234 static int _update_journal_header_block(struct super_block *sb,
1235 unsigned long offset,
1236 unsigned int trans_id)
1237 {
1238 struct reiserfs_journal_header *jh;
1239 struct reiserfs_journal *journal = SB_JOURNAL(sb);
1240 int depth;
1241
1242 if (reiserfs_is_journal_aborted(journal))
1243 return -EIO;
1244
1245 if (trans_id >= journal->j_last_flush_trans_id) {
1246 if (buffer_locked((journal->j_header_bh))) {
1247 depth = reiserfs_write_unlock_nested(sb);
1248 __wait_on_buffer(journal->j_header_bh);
1249 reiserfs_write_lock_nested(sb, depth);
1250 if (unlikely(!buffer_uptodate(journal->j_header_bh))) {
1251 #ifdef CONFIG_REISERFS_CHECK
1252 reiserfs_warning(sb, "journal-699",
1253 "buffer write failed");
1254 #endif
1255 return -EIO;
1256 }
1257 }
1258 journal->j_last_flush_trans_id = trans_id;
1259 journal->j_first_unflushed_offset = offset;
1260 jh = (struct reiserfs_journal_header *)(journal->j_header_bh->
1261 b_data);
1262 jh->j_last_flush_trans_id = cpu_to_le32(trans_id);
1263 jh->j_first_unflushed_offset = cpu_to_le32(offset);
1264 jh->j_mount_id = cpu_to_le32(journal->j_mount_id);
1265
1266 set_buffer_dirty(journal->j_header_bh);
1267 depth = reiserfs_write_unlock_nested(sb);
1268
1269 if (reiserfs_barrier_flush(sb))
1270 __sync_dirty_buffer(journal->j_header_bh,
1271 REQ_SYNC | REQ_PREFLUSH | REQ_FUA);
1272 else
1273 sync_dirty_buffer(journal->j_header_bh);
1274
1275 reiserfs_write_lock_nested(sb, depth);
1276 if (!buffer_uptodate(journal->j_header_bh)) {
1277 reiserfs_warning(sb, "journal-837",
1278 "IO error during journal replay");
1279 return -EIO;
1280 }
1281 }
1282 return 0;
1283 }
1284
1285 static int update_journal_header_block(struct super_block *sb,
1286 unsigned long offset,
1287 unsigned int trans_id)
1288 {
1289 return _update_journal_header_block(sb, offset, trans_id);
1290 }
1291
1292 /*
1293 ** flush any and all journal lists older than you are
1294 ** can only be called from flush_journal_list
1295 */
1296 static int flush_older_journal_lists(struct super_block *sb,
1297 struct reiserfs_journal_list *jl)
1298 {
1299 struct list_head *entry;
1300 struct reiserfs_journal_list *other_jl;
1301 struct reiserfs_journal *journal = SB_JOURNAL(sb);
1302 unsigned int trans_id = jl->j_trans_id;
1303
1304 /*
1305 * we know we are the only ones flushing things, no extra race
1306 * protection is required.
1307 */
1308 restart:
1309 entry = journal->j_journal_list.next;
1310 /* Did we wrap? */
1311 if (entry == &journal->j_journal_list)
1312 return 0;
1313 other_jl = JOURNAL_LIST_ENTRY(entry);
1314 if (other_jl->j_trans_id < trans_id) {
1315 BUG_ON(other_jl->j_refcount <= 0);
1316 /* do not flush all */
1317 flush_journal_list(sb, other_jl, 0);
1318
1319 /* other_jl is now deleted from the list */
1320 goto restart;
1321 }
1322 return 0;
1323 }
1324
1325 static void del_from_work_list(struct super_block *s,
1326 struct reiserfs_journal_list *jl)
1327 {
1328 struct reiserfs_journal *journal = SB_JOURNAL(s);
1329 if (!list_empty(&jl->j_working_list)) {
1330 list_del_init(&jl->j_working_list);
1331 journal->j_num_work_lists--;
1332 }
1333 }
1334
1335 /*
1336 * flush a journal list, both commit and real blocks
1337 *
1338 * always set flushall to 1, unless you are calling from inside
1339 * flush_journal_list
1340 *
1341 * IMPORTANT. This can only be called while there are no journal writers,
1342 * and the journal is locked. That means it can only be called from
1343 * do_journal_end, or by journal_release
1344 */
1345 static int flush_journal_list(struct super_block *s,
1346 struct reiserfs_journal_list *jl, int flushall)
1347 {
1348 struct reiserfs_journal_list *pjl;
1349 struct reiserfs_journal_cnode *cn;
1350 int count;
1351 int was_jwait = 0;
1352 int was_dirty = 0;
1353 struct buffer_head *saved_bh;
1354 unsigned long j_len_saved = jl->j_len;
1355 struct reiserfs_journal *journal = SB_JOURNAL(s);
1356 int err = 0;
1357 int depth;
1358
1359 BUG_ON(j_len_saved <= 0);
1360
1361 if (atomic_read(&journal->j_wcount) != 0) {
1362 reiserfs_warning(s, "clm-2048", "called with wcount %d",
1363 atomic_read(&journal->j_wcount));
1364 }
1365
1366 /* if flushall == 0, the lock is already held */
1367 if (flushall) {
1368 reiserfs_mutex_lock_safe(&journal->j_flush_mutex, s);
1369 } else if (mutex_trylock(&journal->j_flush_mutex)) {
1370 BUG();
1371 }
1372
1373 count = 0;
1374 if (j_len_saved > journal->j_trans_max) {
1375 reiserfs_panic(s, "journal-715", "length is %lu, trans id %lu",
1376 j_len_saved, jl->j_trans_id);
1377 return 0;
1378 }
1379
1380 /* if all the work is already done, get out of here */
1381 if (atomic_read(&jl->j_nonzerolen) <= 0 &&
1382 atomic_read(&jl->j_commit_left) <= 0) {
1383 goto flush_older_and_return;
1384 }
1385
1386 /*
1387 * start by putting the commit list on disk. This will also flush
1388 * the commit lists of any olders transactions
1389 */
1390 flush_commit_list(s, jl, 1);
1391
1392 if (!(jl->j_state & LIST_DIRTY)
1393 && !reiserfs_is_journal_aborted(journal))
1394 BUG();
1395
1396 /* are we done now? */
1397 if (atomic_read(&jl->j_nonzerolen) <= 0 &&
1398 atomic_read(&jl->j_commit_left) <= 0) {
1399 goto flush_older_and_return;
1400 }
1401
1402 /*
1403 * loop through each cnode, see if we need to write it,
1404 * or wait on a more recent transaction, or just ignore it
1405 */
1406 if (atomic_read(&journal->j_wcount) != 0) {
1407 reiserfs_panic(s, "journal-844", "journal list is flushing, "
1408 "wcount is not 0");
1409 }
1410 cn = jl->j_realblock;
1411 while (cn) {
1412 was_jwait = 0;
1413 was_dirty = 0;
1414 saved_bh = NULL;
1415 /* blocknr of 0 is no longer in the hash, ignore it */
1416 if (cn->blocknr == 0) {
1417 goto free_cnode;
1418 }
1419
1420 /*
1421 * This transaction failed commit.
1422 * Don't write out to the disk
1423 */
1424 if (!(jl->j_state & LIST_DIRTY))
1425 goto free_cnode;
1426
1427 pjl = find_newer_jl_for_cn(cn);
1428 /*
1429 * the order is important here. We check pjl to make sure we
1430 * don't clear BH_JDirty_wait if we aren't the one writing this
1431 * block to disk
1432 */
1433 if (!pjl && cn->bh) {
1434 saved_bh = cn->bh;
1435
1436 /*
1437 * we do this to make sure nobody releases the
1438 * buffer while we are working with it
1439 */
1440 get_bh(saved_bh);
1441
1442 if (buffer_journal_dirty(saved_bh)) {
1443 BUG_ON(!can_dirty(cn));
1444 was_jwait = 1;
1445 was_dirty = 1;
1446 } else if (can_dirty(cn)) {
1447 /*
1448 * everything with !pjl && jwait
1449 * should be writable
1450 */
1451 BUG();
1452 }
1453 }
1454
1455 /*
1456 * if someone has this block in a newer transaction, just make
1457 * sure they are committed, and don't try writing it to disk
1458 */
1459 if (pjl) {
1460 if (atomic_read(&pjl->j_commit_left))
1461 flush_commit_list(s, pjl, 1);
1462 goto free_cnode;
1463 }
1464
1465 /*
1466 * bh == NULL when the block got to disk on its own, OR,
1467 * the block got freed in a future transaction
1468 */
1469 if (saved_bh == NULL) {
1470 goto free_cnode;
1471 }
1472
1473 /*
1474 * this should never happen. kupdate_one_transaction has
1475 * this list locked while it works, so we should never see a
1476 * buffer here that is not marked JDirty_wait
1477 */
1478 if ((!was_jwait) && !buffer_locked(saved_bh)) {
1479 reiserfs_warning(s, "journal-813",
1480 "BAD! buffer %llu %cdirty %cjwait, "
1481 "not in a newer transaction",
1482 (unsigned long long)saved_bh->
1483 b_blocknr, was_dirty ? ' ' : '!',
1484 was_jwait ? ' ' : '!');
1485 }
1486 if (was_dirty) {
1487 /*
1488 * we inc again because saved_bh gets decremented
1489 * at free_cnode
1490 */
1491 get_bh(saved_bh);
1492 set_bit(BLOCK_NEEDS_FLUSH, &cn->state);
1493 lock_buffer(saved_bh);
1494 BUG_ON(cn->blocknr != saved_bh->b_blocknr);
1495 if (buffer_dirty(saved_bh))
1496 submit_logged_buffer(saved_bh);
1497 else
1498 unlock_buffer(saved_bh);
1499 count++;
1500 } else {
1501 reiserfs_warning(s, "clm-2082",
1502 "Unable to flush buffer %llu in %s",
1503 (unsigned long long)saved_bh->
1504 b_blocknr, __func__);
1505 }
1506 free_cnode:
1507 cn = cn->next;
1508 if (saved_bh) {
1509 /*
1510 * we incremented this to keep others from
1511 * taking the buffer head away
1512 */
1513 put_bh(saved_bh);
1514 if (atomic_read(&saved_bh->b_count) < 0) {
1515 reiserfs_warning(s, "journal-945",
1516 "saved_bh->b_count < 0");
1517 }
1518 }
1519 }
1520 if (count > 0) {
1521 cn = jl->j_realblock;
1522 while (cn) {
1523 if (test_bit(BLOCK_NEEDS_FLUSH, &cn->state)) {
1524 if (!cn->bh) {
1525 reiserfs_panic(s, "journal-1011",
1526 "cn->bh is NULL");
1527 }
1528
1529 depth = reiserfs_write_unlock_nested(s);
1530 __wait_on_buffer(cn->bh);
1531 reiserfs_write_lock_nested(s, depth);
1532
1533 if (!cn->bh) {
1534 reiserfs_panic(s, "journal-1012",
1535 "cn->bh is NULL");
1536 }
1537 if (unlikely(!buffer_uptodate(cn->bh))) {
1538 #ifdef CONFIG_REISERFS_CHECK
1539 reiserfs_warning(s, "journal-949",
1540 "buffer write failed");
1541 #endif
1542 err = -EIO;
1543 }
1544 /*
1545 * note, we must clear the JDirty_wait bit
1546 * after the up to date check, otherwise we
1547 * race against our flushpage routine
1548 */
1549 BUG_ON(!test_clear_buffer_journal_dirty
1550 (cn->bh));
1551
1552 /* drop one ref for us */
1553 put_bh(cn->bh);
1554 /* drop one ref for journal_mark_dirty */
1555 release_buffer_page(cn->bh);
1556 }
1557 cn = cn->next;
1558 }
1559 }
1560
1561 if (err)
1562 reiserfs_abort(s, -EIO,
1563 "Write error while pushing transaction to disk in %s",
1564 __func__);
1565 flush_older_and_return:
1566
1567 /*
1568 * before we can update the journal header block, we _must_ flush all
1569 * real blocks from all older transactions to disk. This is because
1570 * once the header block is updated, this transaction will not be
1571 * replayed after a crash
1572 */
1573 if (flushall) {
1574 flush_older_journal_lists(s, jl);
1575 }
1576
1577 err = journal->j_errno;
1578 /*
1579 * before we can remove everything from the hash tables for this
1580 * transaction, we must make sure it can never be replayed
1581 *
1582 * since we are only called from do_journal_end, we know for sure there
1583 * are no allocations going on while we are flushing journal lists. So,
1584 * we only need to update the journal header block for the last list
1585 * being flushed
1586 */
1587 if (!err && flushall) {
1588 err =
1589 update_journal_header_block(s,
1590 (jl->j_start + jl->j_len +
1591 2) % SB_ONDISK_JOURNAL_SIZE(s),
1592 jl->j_trans_id);
1593 if (err)
1594 reiserfs_abort(s, -EIO,
1595 "Write error while updating journal header in %s",
1596 __func__);
1597 }
1598 remove_all_from_journal_list(s, jl, 0);
1599 list_del_init(&jl->j_list);
1600 journal->j_num_lists--;
1601 del_from_work_list(s, jl);
1602
1603 if (journal->j_last_flush_id != 0 &&
1604 (jl->j_trans_id - journal->j_last_flush_id) != 1) {
1605 reiserfs_warning(s, "clm-2201", "last flush %lu, current %lu",
1606 journal->j_last_flush_id, jl->j_trans_id);
1607 }
1608 journal->j_last_flush_id = jl->j_trans_id;
1609
1610 /*
1611 * not strictly required since we are freeing the list, but it should
1612 * help find code using dead lists later on
1613 */
1614 jl->j_len = 0;
1615 atomic_set(&jl->j_nonzerolen, 0);
1616 jl->j_start = 0;
1617 jl->j_realblock = NULL;
1618 jl->j_commit_bh = NULL;
1619 jl->j_trans_id = 0;
1620 jl->j_state = 0;
1621 put_journal_list(s, jl);
1622 if (flushall)
1623 mutex_unlock(&journal->j_flush_mutex);
1624 return err;
1625 }
1626
1627 static int write_one_transaction(struct super_block *s,
1628 struct reiserfs_journal_list *jl,
1629 struct buffer_chunk *chunk)
1630 {
1631 struct reiserfs_journal_cnode *cn;
1632 int ret = 0;
1633
1634 jl->j_state |= LIST_TOUCHED;
1635 del_from_work_list(s, jl);
1636 if (jl->j_len == 0 || atomic_read(&jl->j_nonzerolen) == 0) {
1637 return 0;
1638 }
1639
1640 cn = jl->j_realblock;
1641 while (cn) {
1642 /*
1643 * if the blocknr == 0, this has been cleared from the hash,
1644 * skip it
1645 */
1646 if (cn->blocknr == 0) {
1647 goto next;
1648 }
1649 if (cn->bh && can_dirty(cn) && buffer_dirty(cn->bh)) {
1650 struct buffer_head *tmp_bh;
1651 /*
1652 * we can race against journal_mark_freed when we try
1653 * to lock_buffer(cn->bh), so we have to inc the buffer
1654 * count, and recheck things after locking
1655 */
1656 tmp_bh = cn->bh;
1657 get_bh(tmp_bh);
1658 lock_buffer(tmp_bh);
1659 if (cn->bh && can_dirty(cn) && buffer_dirty(tmp_bh)) {
1660 if (!buffer_journal_dirty(tmp_bh) ||
1661 buffer_journal_prepared(tmp_bh))
1662 BUG();
1663 add_to_chunk(chunk, tmp_bh, NULL, write_chunk);
1664 ret++;
1665 } else {
1666 /* note, cn->bh might be null now */
1667 unlock_buffer(tmp_bh);
1668 }
1669 put_bh(tmp_bh);
1670 }
1671 next:
1672 cn = cn->next;
1673 cond_resched();
1674 }
1675 return ret;
1676 }
1677
1678 /* used by flush_commit_list */
1679 static void dirty_one_transaction(struct super_block *s,
1680 struct reiserfs_journal_list *jl)
1681 {
1682 struct reiserfs_journal_cnode *cn;
1683 struct reiserfs_journal_list *pjl;
1684
1685 jl->j_state |= LIST_DIRTY;
1686 cn = jl->j_realblock;
1687 while (cn) {
1688 /*
1689 * look for a more recent transaction that logged this
1690 * buffer. Only the most recent transaction with a buffer in
1691 * it is allowed to send that buffer to disk
1692 */
1693 pjl = find_newer_jl_for_cn(cn);
1694 if (!pjl && cn->blocknr && cn->bh
1695 && buffer_journal_dirty(cn->bh)) {
1696 BUG_ON(!can_dirty(cn));
1697 /*
1698 * if the buffer is prepared, it will either be logged
1699 * or restored. If restored, we need to make sure
1700 * it actually gets marked dirty
1701 */
1702 clear_buffer_journal_new(cn->bh);
1703 if (buffer_journal_prepared(cn->bh)) {
1704 set_buffer_journal_restore_dirty(cn->bh);
1705 } else {
1706 set_buffer_journal_test(cn->bh);
1707 mark_buffer_dirty(cn->bh);
1708 }
1709 }
1710 cn = cn->next;
1711 }
1712 }
1713
1714 static int kupdate_transactions(struct super_block *s,
1715 struct reiserfs_journal_list *jl,
1716 struct reiserfs_journal_list **next_jl,
1717 unsigned int *next_trans_id,
1718 int num_blocks, int num_trans)
1719 {
1720 int ret = 0;
1721 int written = 0;
1722 int transactions_flushed = 0;
1723 unsigned int orig_trans_id = jl->j_trans_id;
1724 struct buffer_chunk chunk;
1725 struct list_head *entry;
1726 struct reiserfs_journal *journal = SB_JOURNAL(s);
1727 chunk.nr = 0;
1728
1729 reiserfs_mutex_lock_safe(&journal->j_flush_mutex, s);
1730 if (!journal_list_still_alive(s, orig_trans_id)) {
1731 goto done;
1732 }
1733
1734 /*
1735 * we've got j_flush_mutex held, nobody is going to delete any
1736 * of these lists out from underneath us
1737 */
1738 while ((num_trans && transactions_flushed < num_trans) ||
1739 (!num_trans && written < num_blocks)) {
1740
1741 if (jl->j_len == 0 || (jl->j_state & LIST_TOUCHED) ||
1742 atomic_read(&jl->j_commit_left)
1743 || !(jl->j_state & LIST_DIRTY)) {
1744 del_from_work_list(s, jl);
1745 break;
1746 }
1747 ret = write_one_transaction(s, jl, &chunk);
1748
1749 if (ret < 0)
1750 goto done;
1751 transactions_flushed++;
1752 written += ret;
1753 entry = jl->j_list.next;
1754
1755 /* did we wrap? */
1756 if (entry == &journal->j_journal_list) {
1757 break;
1758 }
1759 jl = JOURNAL_LIST_ENTRY(entry);
1760
1761 /* don't bother with older transactions */
1762 if (jl->j_trans_id <= orig_trans_id)
1763 break;
1764 }
1765 if (chunk.nr) {
1766 write_chunk(&chunk);
1767 }
1768
1769 done:
1770 mutex_unlock(&journal->j_flush_mutex);
1771 return ret;
1772 }
1773
1774 /*
1775 * for o_sync and fsync heavy applications, they tend to use
1776 * all the journa list slots with tiny transactions. These
1777 * trigger lots and lots of calls to update the header block, which
1778 * adds seeks and slows things down.
1779 *
1780 * This function tries to clear out a large chunk of the journal lists
1781 * at once, which makes everything faster since only the newest journal
1782 * list updates the header block
1783 */
1784 static int flush_used_journal_lists(struct super_block *s,
1785 struct reiserfs_journal_list *jl)
1786 {
1787 unsigned long len = 0;
1788 unsigned long cur_len;
1789 int i;
1790 int limit = 256;
1791 struct reiserfs_journal_list *tjl;
1792 struct reiserfs_journal_list *flush_jl;
1793 unsigned int trans_id;
1794 struct reiserfs_journal *journal = SB_JOURNAL(s);
1795
1796 flush_jl = tjl = jl;
1797
1798 /* in data logging mode, try harder to flush a lot of blocks */
1799 if (reiserfs_data_log(s))
1800 limit = 1024;
1801 /* flush for 256 transactions or limit blocks, whichever comes first */
1802 for (i = 0; i < 256 && len < limit; i++) {
1803 if (atomic_read(&tjl->j_commit_left) ||
1804 tjl->j_trans_id < jl->j_trans_id) {
1805 break;
1806 }
1807 cur_len = atomic_read(&tjl->j_nonzerolen);
1808 if (cur_len > 0) {
1809 tjl->j_state &= ~LIST_TOUCHED;
1810 }
1811 len += cur_len;
1812 flush_jl = tjl;
1813 if (tjl->j_list.next == &journal->j_journal_list)
1814 break;
1815 tjl = JOURNAL_LIST_ENTRY(tjl->j_list.next);
1816 }
1817 get_journal_list(jl);
1818 get_journal_list(flush_jl);
1819
1820 /*
1821 * try to find a group of blocks we can flush across all the
1822 * transactions, but only bother if we've actually spanned
1823 * across multiple lists
1824 */
1825 if (flush_jl != jl)
1826 kupdate_transactions(s, jl, &tjl, &trans_id, len, i);
1827
1828 flush_journal_list(s, flush_jl, 1);
1829 put_journal_list(s, flush_jl);
1830 put_journal_list(s, jl);
1831 return 0;
1832 }
1833
1834 /*
1835 * removes any nodes in table with name block and dev as bh.
1836 * only touchs the hnext and hprev pointers.
1837 */
1838 static void remove_journal_hash(struct super_block *sb,
1839 struct reiserfs_journal_cnode **table,
1840 struct reiserfs_journal_list *jl,
1841 unsigned long block, int remove_freed)
1842 {
1843 struct reiserfs_journal_cnode *cur;
1844 struct reiserfs_journal_cnode **head;
1845
1846 head = &(journal_hash(table, sb, block));
1847 if (!head) {
1848 return;
1849 }
1850 cur = *head;
1851 while (cur) {
1852 if (cur->blocknr == block && cur->sb == sb
1853 && (jl == NULL || jl == cur->jlist)
1854 && (!test_bit(BLOCK_FREED, &cur->state) || remove_freed)) {
1855 if (cur->hnext) {
1856 cur->hnext->hprev = cur->hprev;
1857 }
1858 if (cur->hprev) {
1859 cur->hprev->hnext = cur->hnext;
1860 } else {
1861 *head = cur->hnext;
1862 }
1863 cur->blocknr = 0;
1864 cur->sb = NULL;
1865 cur->state = 0;
1866 /*
1867 * anybody who clears the cur->bh will also
1868 * dec the nonzerolen
1869 */
1870 if (cur->bh && cur->jlist)
1871 atomic_dec(&cur->jlist->j_nonzerolen);
1872 cur->bh = NULL;
1873 cur->jlist = NULL;
1874 }
1875 cur = cur->hnext;
1876 }
1877 }
1878
1879 static void free_journal_ram(struct super_block *sb)
1880 {
1881 struct reiserfs_journal *journal = SB_JOURNAL(sb);
1882 kfree(journal->j_current_jl);
1883 journal->j_num_lists--;
1884
1885 vfree(journal->j_cnode_free_orig);
1886 free_list_bitmaps(sb, journal->j_list_bitmap);
1887 free_bitmap_nodes(sb); /* must be after free_list_bitmaps */
1888 if (journal->j_header_bh) {
1889 brelse(journal->j_header_bh);
1890 }
1891 /*
1892 * j_header_bh is on the journal dev, make sure
1893 * not to release the journal dev until we brelse j_header_bh
1894 */
1895 release_journal_dev(sb, journal);
1896 vfree(journal);
1897 }
1898
1899 /*
1900 * call on unmount. Only set error to 1 if you haven't made your way out
1901 * of read_super() yet. Any other caller must keep error at 0.
1902 */
1903 static int do_journal_release(struct reiserfs_transaction_handle *th,
1904 struct super_block *sb, int error)
1905 {
1906 struct reiserfs_transaction_handle myth;
1907 struct reiserfs_journal *journal = SB_JOURNAL(sb);
1908
1909 /*
1910 * we only want to flush out transactions if we were
1911 * called with error == 0
1912 */
1913 if (!error && !sb_rdonly(sb)) {
1914 /* end the current trans */
1915 BUG_ON(!th->t_trans_id);
1916 do_journal_end(th, FLUSH_ALL);
1917
1918 /*
1919 * make sure something gets logged to force
1920 * our way into the flush code
1921 */
1922 if (!journal_join(&myth, sb)) {
1923 reiserfs_prepare_for_journal(sb,
1924 SB_BUFFER_WITH_SB(sb),
1925 1);
1926 journal_mark_dirty(&myth, SB_BUFFER_WITH_SB(sb));
1927 do_journal_end(&myth, FLUSH_ALL);
1928 }
1929 }
1930
1931 /* this also catches errors during the do_journal_end above */
1932 if (!error && reiserfs_is_journal_aborted(journal)) {
1933 memset(&myth, 0, sizeof(myth));
1934 if (!journal_join_abort(&myth, sb)) {
1935 reiserfs_prepare_for_journal(sb,
1936 SB_BUFFER_WITH_SB(sb),
1937 1);
1938 journal_mark_dirty(&myth, SB_BUFFER_WITH_SB(sb));
1939 do_journal_end(&myth, FLUSH_ALL);
1940 }
1941 }
1942
1943
1944 /*
1945 * We must release the write lock here because
1946 * the workqueue job (flush_async_commit) needs this lock
1947 */
1948 reiserfs_write_unlock(sb);
1949
1950 /*
1951 * Cancel flushing of old commits. Note that neither of these works
1952 * will be requeued because superblock is being shutdown and doesn't
1953 * have SB_ACTIVE set.
1954 */
1955 reiserfs_cancel_old_flush(sb);
1956 /* wait for all commits to finish */
1957 cancel_delayed_work_sync(&SB_JOURNAL(sb)->j_work);
1958
1959 free_journal_ram(sb);
1960
1961 reiserfs_write_lock(sb);
1962
1963 return 0;
1964 }
1965
1966 /* * call on unmount. flush all journal trans, release all alloc'd ram */
1967 int journal_release(struct reiserfs_transaction_handle *th,
1968 struct super_block *sb)
1969 {
1970 return do_journal_release(th, sb, 0);
1971 }
1972
1973 /* only call from an error condition inside reiserfs_read_super! */
1974 int journal_release_error(struct reiserfs_transaction_handle *th,
1975 struct super_block *sb)
1976 {
1977 return do_journal_release(th, sb, 1);
1978 }
1979
1980 /*
1981 * compares description block with commit block.
1982 * returns 1 if they differ, 0 if they are the same
1983 */
1984 static int journal_compare_desc_commit(struct super_block *sb,
1985 struct reiserfs_journal_desc *desc,
1986 struct reiserfs_journal_commit *commit)
1987 {
1988 if (get_commit_trans_id(commit) != get_desc_trans_id(desc) ||
1989 get_commit_trans_len(commit) != get_desc_trans_len(desc) ||
1990 get_commit_trans_len(commit) > SB_JOURNAL(sb)->j_trans_max ||
1991 get_commit_trans_len(commit) <= 0) {
1992 return 1;
1993 }
1994 return 0;
1995 }
1996
1997 /*
1998 * returns 0 if it did not find a description block
1999 * returns -1 if it found a corrupt commit block
2000 * returns 1 if both desc and commit were valid
2001 * NOTE: only called during fs mount
2002 */
2003 static int journal_transaction_is_valid(struct super_block *sb,
2004 struct buffer_head *d_bh,
2005 unsigned int *oldest_invalid_trans_id,
2006 unsigned long *newest_mount_id)
2007 {
2008 struct reiserfs_journal_desc *desc;
2009 struct reiserfs_journal_commit *commit;
2010 struct buffer_head *c_bh;
2011 unsigned long offset;
2012
2013 if (!d_bh)
2014 return 0;
2015
2016 desc = (struct reiserfs_journal_desc *)d_bh->b_data;
2017 if (get_desc_trans_len(desc) > 0
2018 && !memcmp(get_journal_desc_magic(d_bh), JOURNAL_DESC_MAGIC, 8)) {
2019 if (oldest_invalid_trans_id && *oldest_invalid_trans_id
2020 && get_desc_trans_id(desc) > *oldest_invalid_trans_id) {
2021 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2022 "journal-986: transaction "
2023 "is valid returning because trans_id %d is greater than "
2024 "oldest_invalid %lu",
2025 get_desc_trans_id(desc),
2026 *oldest_invalid_trans_id);
2027 return 0;
2028 }
2029 if (newest_mount_id
2030 && *newest_mount_id > get_desc_mount_id(desc)) {
2031 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2032 "journal-1087: transaction "
2033 "is valid returning because mount_id %d is less than "
2034 "newest_mount_id %lu",
2035 get_desc_mount_id(desc),
2036 *newest_mount_id);
2037 return -1;
2038 }
2039 if (get_desc_trans_len(desc) > SB_JOURNAL(sb)->j_trans_max) {
2040 reiserfs_warning(sb, "journal-2018",
2041 "Bad transaction length %d "
2042 "encountered, ignoring transaction",
2043 get_desc_trans_len(desc));
2044 return -1;
2045 }
2046 offset = d_bh->b_blocknr - SB_ONDISK_JOURNAL_1st_BLOCK(sb);
2047
2048 /*
2049 * ok, we have a journal description block,
2050 * let's see if the transaction was valid
2051 */
2052 c_bh =
2053 journal_bread(sb,
2054 SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
2055 ((offset + get_desc_trans_len(desc) +
2056 1) % SB_ONDISK_JOURNAL_SIZE(sb)));
2057 if (!c_bh)
2058 return 0;
2059 commit = (struct reiserfs_journal_commit *)c_bh->b_data;
2060 if (journal_compare_desc_commit(sb, desc, commit)) {
2061 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2062 "journal_transaction_is_valid, commit offset %ld had bad "
2063 "time %d or length %d",
2064 c_bh->b_blocknr -
2065 SB_ONDISK_JOURNAL_1st_BLOCK(sb),
2066 get_commit_trans_id(commit),
2067 get_commit_trans_len(commit));
2068 brelse(c_bh);
2069 if (oldest_invalid_trans_id) {
2070 *oldest_invalid_trans_id =
2071 get_desc_trans_id(desc);
2072 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2073 "journal-1004: "
2074 "transaction_is_valid setting oldest invalid trans_id "
2075 "to %d",
2076 get_desc_trans_id(desc));
2077 }
2078 return -1;
2079 }
2080 brelse(c_bh);
2081 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2082 "journal-1006: found valid "
2083 "transaction start offset %llu, len %d id %d",
2084 d_bh->b_blocknr -
2085 SB_ONDISK_JOURNAL_1st_BLOCK(sb),
2086 get_desc_trans_len(desc),
2087 get_desc_trans_id(desc));
2088 return 1;
2089 } else {
2090 return 0;
2091 }
2092 }
2093
2094 static void brelse_array(struct buffer_head **heads, int num)
2095 {
2096 int i;
2097 for (i = 0; i < num; i++) {
2098 brelse(heads[i]);
2099 }
2100 }
2101
2102 /*
2103 * given the start, and values for the oldest acceptable transactions,
2104 * this either reads in a replays a transaction, or returns because the
2105 * transaction is invalid, or too old.
2106 * NOTE: only called during fs mount
2107 */
2108 static int journal_read_transaction(struct super_block *sb,
2109 unsigned long cur_dblock,
2110 unsigned long oldest_start,
2111 unsigned int oldest_trans_id,
2112 unsigned long newest_mount_id)
2113 {
2114 struct reiserfs_journal *journal = SB_JOURNAL(sb);
2115 struct reiserfs_journal_desc *desc;
2116 struct reiserfs_journal_commit *commit;
2117 unsigned int trans_id = 0;
2118 struct buffer_head *c_bh;
2119 struct buffer_head *d_bh;
2120 struct buffer_head **log_blocks = NULL;
2121 struct buffer_head **real_blocks = NULL;
2122 unsigned int trans_offset;
2123 int i;
2124 int trans_half;
2125
2126 d_bh = journal_bread(sb, cur_dblock);
2127 if (!d_bh)
2128 return 1;
2129 desc = (struct reiserfs_journal_desc *)d_bh->b_data;
2130 trans_offset = d_bh->b_blocknr - SB_ONDISK_JOURNAL_1st_BLOCK(sb);
2131 reiserfs_debug(sb, REISERFS_DEBUG_CODE, "journal-1037: "
2132 "journal_read_transaction, offset %llu, len %d mount_id %d",
2133 d_bh->b_blocknr - SB_ONDISK_JOURNAL_1st_BLOCK(sb),
2134 get_desc_trans_len(desc), get_desc_mount_id(desc));
2135 if (get_desc_trans_id(desc) < oldest_trans_id) {
2136 reiserfs_debug(sb, REISERFS_DEBUG_CODE, "journal-1039: "
2137 "journal_read_trans skipping because %lu is too old",
2138 cur_dblock -
2139 SB_ONDISK_JOURNAL_1st_BLOCK(sb));
2140 brelse(d_bh);
2141 return 1;
2142 }
2143 if (get_desc_mount_id(desc) != newest_mount_id) {
2144 reiserfs_debug(sb, REISERFS_DEBUG_CODE, "journal-1146: "
2145 "journal_read_trans skipping because %d is != "
2146 "newest_mount_id %lu", get_desc_mount_id(desc),
2147 newest_mount_id);
2148 brelse(d_bh);
2149 return 1;
2150 }
2151 c_bh = journal_bread(sb, SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
2152 ((trans_offset + get_desc_trans_len(desc) + 1) %
2153 SB_ONDISK_JOURNAL_SIZE(sb)));
2154 if (!c_bh) {
2155 brelse(d_bh);
2156 return 1;
2157 }
2158 commit = (struct reiserfs_journal_commit *)c_bh->b_data;
2159 if (journal_compare_desc_commit(sb, desc, commit)) {
2160 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2161 "journal_read_transaction, "
2162 "commit offset %llu had bad time %d or length %d",
2163 c_bh->b_blocknr -
2164 SB_ONDISK_JOURNAL_1st_BLOCK(sb),
2165 get_commit_trans_id(commit),
2166 get_commit_trans_len(commit));
2167 brelse(c_bh);
2168 brelse(d_bh);
2169 return 1;
2170 }
2171
2172 if (bdev_read_only(sb->s_bdev)) {
2173 reiserfs_warning(sb, "clm-2076",
2174 "device is readonly, unable to replay log");
2175 brelse(c_bh);
2176 brelse(d_bh);
2177 return -EROFS;
2178 }
2179
2180 trans_id = get_desc_trans_id(desc);
2181 /*
2182 * now we know we've got a good transaction, and it was
2183 * inside the valid time ranges
2184 */
2185 log_blocks = kmalloc_array(get_desc_trans_len(desc),
2186 sizeof(struct buffer_head *),
2187 GFP_NOFS);
2188 real_blocks = kmalloc_array(get_desc_trans_len(desc),
2189 sizeof(struct buffer_head *),
2190 GFP_NOFS);
2191 if (!log_blocks || !real_blocks) {
2192 brelse(c_bh);
2193 brelse(d_bh);
2194 kfree(log_blocks);
2195 kfree(real_blocks);
2196 reiserfs_warning(sb, "journal-1169",
2197 "kmalloc failed, unable to mount FS");
2198 return -1;
2199 }
2200 /* get all the buffer heads */
2201 trans_half = journal_trans_half(sb->s_blocksize);
2202 for (i = 0; i < get_desc_trans_len(desc); i++) {
2203 log_blocks[i] =
2204 journal_getblk(sb,
2205 SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
2206 (trans_offset + 1 +
2207 i) % SB_ONDISK_JOURNAL_SIZE(sb));
2208 if (i < trans_half) {
2209 real_blocks[i] =
2210 sb_getblk(sb,
2211 le32_to_cpu(desc->j_realblock[i]));
2212 } else {
2213 real_blocks[i] =
2214 sb_getblk(sb,
2215 le32_to_cpu(commit->
2216 j_realblock[i - trans_half]));
2217 }
2218 if (real_blocks[i]->b_blocknr > SB_BLOCK_COUNT(sb)) {
2219 reiserfs_warning(sb, "journal-1207",
2220 "REPLAY FAILURE fsck required! "
2221 "Block to replay is outside of "
2222 "filesystem");
2223 goto abort_replay;
2224 }
2225 /* make sure we don't try to replay onto log or reserved area */
2226 if (is_block_in_log_or_reserved_area
2227 (sb, real_blocks[i]->b_blocknr)) {
2228 reiserfs_warning(sb, "journal-1204",
2229 "REPLAY FAILURE fsck required! "
2230 "Trying to replay onto a log block");
2231 abort_replay:
2232 brelse_array(log_blocks, i);
2233 brelse_array(real_blocks, i);
2234 brelse(c_bh);
2235 brelse(d_bh);
2236 kfree(log_blocks);
2237 kfree(real_blocks);
2238 return -1;
2239 }
2240 }
2241 /* read in the log blocks, memcpy to the corresponding real block */
2242 ll_rw_block(REQ_OP_READ, 0, get_desc_trans_len(desc), log_blocks);
2243 for (i = 0; i < get_desc_trans_len(desc); i++) {
2244
2245 wait_on_buffer(log_blocks[i]);
2246 if (!buffer_uptodate(log_blocks[i])) {
2247 reiserfs_warning(sb, "journal-1212",
2248 "REPLAY FAILURE fsck required! "
2249 "buffer write failed");
2250 brelse_array(log_blocks + i,
2251 get_desc_trans_len(desc) - i);
2252 brelse_array(real_blocks, get_desc_trans_len(desc));
2253 brelse(c_bh);
2254 brelse(d_bh);
2255 kfree(log_blocks);
2256 kfree(real_blocks);
2257 return -1;
2258 }
2259 memcpy(real_blocks[i]->b_data, log_blocks[i]->b_data,
2260 real_blocks[i]->b_size);
2261 set_buffer_uptodate(real_blocks[i]);
2262 brelse(log_blocks[i]);
2263 }
2264 /* flush out the real blocks */
2265 for (i = 0; i < get_desc_trans_len(desc); i++) {
2266 set_buffer_dirty(real_blocks[i]);
2267 write_dirty_buffer(real_blocks[i], 0);
2268 }
2269 for (i = 0; i < get_desc_trans_len(desc); i++) {
2270 wait_on_buffer(real_blocks[i]);
2271 if (!buffer_uptodate(real_blocks[i])) {
2272 reiserfs_warning(sb, "journal-1226",
2273 "REPLAY FAILURE, fsck required! "
2274 "buffer write failed");
2275 brelse_array(real_blocks + i,
2276 get_desc_trans_len(desc) - i);
2277 brelse(c_bh);
2278 brelse(d_bh);
2279 kfree(log_blocks);
2280 kfree(real_blocks);
2281 return -1;
2282 }
2283 brelse(real_blocks[i]);
2284 }
2285 cur_dblock =
2286 SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
2287 ((trans_offset + get_desc_trans_len(desc) +
2288 2) % SB_ONDISK_JOURNAL_SIZE(sb));
2289 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2290 "journal-1095: setting journal " "start to offset %ld",
2291 cur_dblock - SB_ONDISK_JOURNAL_1st_BLOCK(sb));
2292
2293 /*
2294 * init starting values for the first transaction, in case
2295 * this is the last transaction to be replayed.
2296 */
2297 journal->j_start = cur_dblock - SB_ONDISK_JOURNAL_1st_BLOCK(sb);
2298 journal->j_last_flush_trans_id = trans_id;
2299 journal->j_trans_id = trans_id + 1;
2300 /* check for trans_id overflow */
2301 if (journal->j_trans_id == 0)
2302 journal->j_trans_id = 10;
2303 brelse(c_bh);
2304 brelse(d_bh);
2305 kfree(log_blocks);
2306 kfree(real_blocks);
2307 return 0;
2308 }
2309
2310 /*
2311 * This function reads blocks starting from block and to max_block of bufsize
2312 * size (but no more than BUFNR blocks at a time). This proved to improve
2313 * mounting speed on self-rebuilding raid5 arrays at least.
2314 * Right now it is only used from journal code. But later we might use it
2315 * from other places.
2316 * Note: Do not use journal_getblk/sb_getblk functions here!
2317 */
2318 static struct buffer_head *reiserfs_breada(struct block_device *dev,
2319 b_blocknr_t block, int bufsize,
2320 b_blocknr_t max_block)
2321 {
2322 struct buffer_head *bhlist[BUFNR];
2323 unsigned int blocks = BUFNR;
2324 struct buffer_head *bh;
2325 int i, j;
2326
2327 bh = __getblk(dev, block, bufsize);
2328 if (buffer_uptodate(bh))
2329 return (bh);
2330
2331 if (block + BUFNR > max_block) {
2332 blocks = max_block - block;
2333 }
2334 bhlist[0] = bh;
2335 j = 1;
2336 for (i = 1; i < blocks; i++) {
2337 bh = __getblk(dev, block + i, bufsize);
2338 if (buffer_uptodate(bh)) {
2339 brelse(bh);
2340 break;
2341 } else
2342 bhlist[j++] = bh;
2343 }
2344 ll_rw_block(REQ_OP_READ, 0, j, bhlist);
2345 for (i = 1; i < j; i++)
2346 brelse(bhlist[i]);
2347 bh = bhlist[0];
2348 wait_on_buffer(bh);
2349 if (buffer_uptodate(bh))
2350 return bh;
2351 brelse(bh);
2352 return NULL;
2353 }
2354
2355 /*
2356 * read and replay the log
2357 * on a clean unmount, the journal header's next unflushed pointer will be
2358 * to an invalid transaction. This tests that before finding all the
2359 * transactions in the log, which makes normal mount times fast.
2360 *
2361 * After a crash, this starts with the next unflushed transaction, and
2362 * replays until it finds one too old, or invalid.
2363 *
2364 * On exit, it sets things up so the first transaction will work correctly.
2365 * NOTE: only called during fs mount
2366 */
2367 static int journal_read(struct super_block *sb)
2368 {
2369 struct reiserfs_journal *journal = SB_JOURNAL(sb);
2370 struct reiserfs_journal_desc *desc;
2371 unsigned int oldest_trans_id = 0;
2372 unsigned int oldest_invalid_trans_id = 0;
2373 time64_t start;
2374 unsigned long oldest_start = 0;
2375 unsigned long cur_dblock = 0;
2376 unsigned long newest_mount_id = 9;
2377 struct buffer_head *d_bh;
2378 struct reiserfs_journal_header *jh;
2379 int valid_journal_header = 0;
2380 int replay_count = 0;
2381 int continue_replay = 1;
2382 int ret;
2383
2384 cur_dblock = SB_ONDISK_JOURNAL_1st_BLOCK(sb);
2385 reiserfs_info(sb, "checking transaction log (%pg)\n",
2386 journal->j_dev_bd);
2387 start = ktime_get_seconds();
2388
2389 /*
2390 * step 1, read in the journal header block. Check the transaction
2391 * it says is the first unflushed, and if that transaction is not
2392 * valid, replay is done
2393 */
2394 journal->j_header_bh = journal_bread(sb,
2395 SB_ONDISK_JOURNAL_1st_BLOCK(sb)
2396 + SB_ONDISK_JOURNAL_SIZE(sb));
2397 if (!journal->j_header_bh) {
2398 return 1;
2399 }
2400 jh = (struct reiserfs_journal_header *)(journal->j_header_bh->b_data);
2401 if (le32_to_cpu(jh->j_first_unflushed_offset) <
2402 SB_ONDISK_JOURNAL_SIZE(sb)
2403 && le32_to_cpu(jh->j_last_flush_trans_id) > 0) {
2404 oldest_start =
2405 SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
2406 le32_to_cpu(jh->j_first_unflushed_offset);
2407 oldest_trans_id = le32_to_cpu(jh->j_last_flush_trans_id) + 1;
2408 newest_mount_id = le32_to_cpu(jh->j_mount_id);
2409 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2410 "journal-1153: found in "
2411 "header: first_unflushed_offset %d, last_flushed_trans_id "
2412 "%lu", le32_to_cpu(jh->j_first_unflushed_offset),
2413 le32_to_cpu(jh->j_last_flush_trans_id));
2414 valid_journal_header = 1;
2415
2416 /*
2417 * now, we try to read the first unflushed offset. If it
2418 * is not valid, there is nothing more we can do, and it
2419 * makes no sense to read through the whole log.
2420 */
2421 d_bh =
2422 journal_bread(sb,
2423 SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
2424 le32_to_cpu(jh->j_first_unflushed_offset));
2425 ret = journal_transaction_is_valid(sb, d_bh, NULL, NULL);
2426 if (!ret) {
2427 continue_replay = 0;
2428 }
2429 brelse(d_bh);
2430 goto start_log_replay;
2431 }
2432
2433 /*
2434 * ok, there are transactions that need to be replayed. start
2435 * with the first log block, find all the valid transactions, and
2436 * pick out the oldest.
2437 */
2438 while (continue_replay
2439 && cur_dblock <
2440 (SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
2441 SB_ONDISK_JOURNAL_SIZE(sb))) {
2442 /*
2443 * Note that it is required for blocksize of primary fs
2444 * device and journal device to be the same
2445 */
2446 d_bh =
2447 reiserfs_breada(journal->j_dev_bd, cur_dblock,
2448 sb->s_blocksize,
2449 SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
2450 SB_ONDISK_JOURNAL_SIZE(sb));
2451 ret =
2452 journal_transaction_is_valid(sb, d_bh,
2453 &oldest_invalid_trans_id,
2454 &newest_mount_id);
2455 if (ret == 1) {
2456 desc = (struct reiserfs_journal_desc *)d_bh->b_data;
2457 if (oldest_start == 0) { /* init all oldest_ values */
2458 oldest_trans_id = get_desc_trans_id(desc);
2459 oldest_start = d_bh->b_blocknr;
2460 newest_mount_id = get_desc_mount_id(desc);
2461 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2462 "journal-1179: Setting "
2463 "oldest_start to offset %llu, trans_id %lu",
2464 oldest_start -
2465 SB_ONDISK_JOURNAL_1st_BLOCK
2466 (sb), oldest_trans_id);
2467 } else if (oldest_trans_id > get_desc_trans_id(desc)) {
2468 /* one we just read was older */
2469 oldest_trans_id = get_desc_trans_id(desc);
2470 oldest_start = d_bh->b_blocknr;
2471 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2472 "journal-1180: Resetting "
2473 "oldest_start to offset %lu, trans_id %lu",
2474 oldest_start -
2475 SB_ONDISK_JOURNAL_1st_BLOCK
2476 (sb), oldest_trans_id);
2477 }
2478 if (newest_mount_id < get_desc_mount_id(desc)) {
2479 newest_mount_id = get_desc_mount_id(desc);
2480 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2481 "journal-1299: Setting "
2482 "newest_mount_id to %d",
2483 get_desc_mount_id(desc));
2484 }
2485 cur_dblock += get_desc_trans_len(desc) + 2;
2486 } else {
2487 cur_dblock++;
2488 }
2489 brelse(d_bh);
2490 }
2491
2492 start_log_replay:
2493 cur_dblock = oldest_start;
2494 if (oldest_trans_id) {
2495 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2496 "journal-1206: Starting replay "
2497 "from offset %llu, trans_id %lu",
2498 cur_dblock - SB_ONDISK_JOURNAL_1st_BLOCK(sb),
2499 oldest_trans_id);
2500
2501 }
2502 replay_count = 0;
2503 while (continue_replay && oldest_trans_id > 0) {
2504 ret =
2505 journal_read_transaction(sb, cur_dblock, oldest_start,
2506 oldest_trans_id, newest_mount_id);
2507 if (ret < 0) {
2508 return ret;
2509 } else if (ret != 0) {
2510 break;
2511 }
2512 cur_dblock =
2513 SB_ONDISK_JOURNAL_1st_BLOCK(sb) + journal->j_start;
2514 replay_count++;
2515 if (cur_dblock == oldest_start)
2516 break;
2517 }
2518
2519 if (oldest_trans_id == 0) {
2520 reiserfs_debug(sb, REISERFS_DEBUG_CODE,
2521 "journal-1225: No valid " "transactions found");
2522 }
2523 /*
2524 * j_start does not get set correctly if we don't replay any
2525 * transactions. if we had a valid journal_header, set j_start
2526 * to the first unflushed transaction value, copy the trans_id
2527 * from the header
2528 */
2529 if (valid_journal_header && replay_count == 0) {
2530 journal->j_start = le32_to_cpu(jh->j_first_unflushed_offset);
2531 journal->j_trans_id =
2532 le32_to_cpu(jh->j_last_flush_trans_id) + 1;
2533 /* check for trans_id overflow */
2534 if (journal->j_trans_id == 0)
2535 journal->j_trans_id = 10;
2536 journal->j_last_flush_trans_id =
2537 le32_to_cpu(jh->j_last_flush_trans_id);
2538 journal->j_mount_id = le32_to_cpu(jh->j_mount_id) + 1;
2539 } else {
2540 journal->j_mount_id = newest_mount_id + 1;
2541 }
2542 reiserfs_debug(sb, REISERFS_DEBUG_CODE, "journal-1299: Setting "
2543 "newest_mount_id to %lu", journal->j_mount_id);
2544 journal->j_first_unflushed_offset = journal->j_start;
2545 if (replay_count > 0) {
2546 reiserfs_info(sb,
2547 "replayed %d transactions in %lu seconds\n",
2548 replay_count, ktime_get_seconds() - start);
2549 }
2550 /* needed to satisfy the locking in _update_journal_header_block */
2551 reiserfs_write_lock(sb);
2552 if (!bdev_read_only(sb->s_bdev) &&
2553 _update_journal_header_block(sb, journal->j_start,
2554 journal->j_last_flush_trans_id)) {
2555 reiserfs_write_unlock(sb);
2556 /*
2557 * replay failed, caller must call free_journal_ram and abort
2558 * the mount
2559 */
2560 return -1;
2561 }
2562 reiserfs_write_unlock(sb);
2563 return 0;
2564 }
2565
2566 static struct reiserfs_journal_list *alloc_journal_list(struct super_block *s)
2567 {
2568 struct reiserfs_journal_list *jl;
2569 jl = kzalloc(sizeof(struct reiserfs_journal_list),
2570 GFP_NOFS | __GFP_NOFAIL);
2571 INIT_LIST_HEAD(&jl->j_list);
2572 INIT_LIST_HEAD(&jl->j_working_list);
2573 INIT_LIST_HEAD(&jl->j_tail_bh_list);
2574 INIT_LIST_HEAD(&jl->j_bh_list);
2575 mutex_init(&jl->j_commit_mutex);
2576 SB_JOURNAL(s)->j_num_lists++;
2577 get_journal_list(jl);
2578 return jl;
2579 }
2580
2581 static void journal_list_init(struct super_block *sb)
2582 {
2583 SB_JOURNAL(sb)->j_current_jl = alloc_journal_list(sb);
2584 }
2585
2586 static void release_journal_dev(struct super_block *super,
2587 struct reiserfs_journal *journal)
2588 {
2589 if (journal->j_dev_bd != NULL) {
2590 blkdev_put(journal->j_dev_bd, journal->j_dev_mode);
2591 journal->j_dev_bd = NULL;
2592 }
2593 }
2594
2595 static int journal_init_dev(struct super_block *super,
2596 struct reiserfs_journal *journal,
2597 const char *jdev_name)
2598 {
2599 int result;
2600 dev_t jdev;
2601 fmode_t blkdev_mode = FMODE_READ | FMODE_WRITE | FMODE_EXCL;
2602
2603 result = 0;
2604
2605 journal->j_dev_bd = NULL;
2606 jdev = SB_ONDISK_JOURNAL_DEVICE(super) ?
2607 new_decode_dev(SB_ONDISK_JOURNAL_DEVICE(super)) : super->s_dev;
2608
2609 if (bdev_read_only(super->s_bdev))
2610 blkdev_mode = FMODE_READ;
2611
2612 /* there is no "jdev" option and journal is on separate device */
2613 if ((!jdev_name || !jdev_name[0])) {
2614 if (jdev == super->s_dev)
2615 blkdev_mode &= ~FMODE_EXCL;
2616 journal->j_dev_bd = blkdev_get_by_dev(jdev, blkdev_mode,
2617 journal);
2618 journal->j_dev_mode = blkdev_mode;
2619 if (IS_ERR(journal->j_dev_bd)) {
2620 result = PTR_ERR(journal->j_dev_bd);
2621 journal->j_dev_bd = NULL;
2622 reiserfs_warning(super, "sh-458",
2623 "cannot init journal device unknown-block(%u,%u): %i",
2624 MAJOR(jdev), MINOR(jdev), result);
2625 return result;
2626 } else if (jdev != super->s_dev)
2627 set_blocksize(journal->j_dev_bd, super->s_blocksize);
2628
2629 return 0;
2630 }
2631
2632 journal->j_dev_mode = blkdev_mode;
2633 journal->j_dev_bd = blkdev_get_by_path(jdev_name, blkdev_mode, journal);
2634 if (IS_ERR(journal->j_dev_bd)) {
2635 result = PTR_ERR(journal->j_dev_bd);
2636 journal->j_dev_bd = NULL;
2637 reiserfs_warning(super, "sh-457",
2638 "journal_init_dev: Cannot open '%s': %i",
2639 jdev_name, result);
2640 return result;
2641 }
2642
2643 set_blocksize(journal->j_dev_bd, super->s_blocksize);
2644 reiserfs_info(super,
2645 "journal_init_dev: journal device: %pg\n",
2646 journal->j_dev_bd);
2647 return 0;
2648 }
2649
2650 /*
2651 * When creating/tuning a file system user can assign some
2652 * journal params within boundaries which depend on the ratio
2653 * blocksize/standard_blocksize.
2654 *
2655 * For blocks >= standard_blocksize transaction size should
2656 * be not less then JOURNAL_TRANS_MIN_DEFAULT, and not more
2657 * then JOURNAL_TRANS_MAX_DEFAULT.
2658 *
2659 * For blocks < standard_blocksize these boundaries should be
2660 * decreased proportionally.
2661 */
2662 #define REISERFS_STANDARD_BLKSIZE (4096)
2663
2664 static int check_advise_trans_params(struct super_block *sb,
2665 struct reiserfs_journal *journal)
2666 {
2667 if (journal->j_trans_max) {
2668 /* Non-default journal params. Do sanity check for them. */
2669 int ratio = 1;
2670 if (sb->s_blocksize < REISERFS_STANDARD_BLKSIZE)
2671 ratio = REISERFS_STANDARD_BLKSIZE / sb->s_blocksize;
2672
2673 if (journal->j_trans_max > JOURNAL_TRANS_MAX_DEFAULT / ratio ||
2674 journal->j_trans_max < JOURNAL_TRANS_MIN_DEFAULT / ratio ||
2675 SB_ONDISK_JOURNAL_SIZE(sb) / journal->j_trans_max <
2676 JOURNAL_MIN_RATIO) {
2677 reiserfs_warning(sb, "sh-462",
2678 "bad transaction max size (%u). "
2679 "FSCK?", journal->j_trans_max);
2680 return 1;
2681 }
2682 if (journal->j_max_batch != (journal->j_trans_max) *
2683 JOURNAL_MAX_BATCH_DEFAULT/JOURNAL_TRANS_MAX_DEFAULT) {
2684 reiserfs_warning(sb, "sh-463",
2685 "bad transaction max batch (%u). "
2686 "FSCK?", journal->j_max_batch);
2687 return 1;
2688 }
2689 } else {
2690 /*
2691 * Default journal params.
2692 * The file system was created by old version
2693 * of mkreiserfs, so some fields contain zeros,
2694 * and we need to advise proper values for them
2695 */
2696 if (sb->s_blocksize != REISERFS_STANDARD_BLKSIZE) {
2697 reiserfs_warning(sb, "sh-464", "bad blocksize (%u)",
2698 sb->s_blocksize);
2699 return 1;
2700 }
2701 journal->j_trans_max = JOURNAL_TRANS_MAX_DEFAULT;
2702 journal->j_max_batch = JOURNAL_MAX_BATCH_DEFAULT;
2703 journal->j_max_commit_age = JOURNAL_MAX_COMMIT_AGE;
2704 }
2705 return 0;
2706 }
2707
2708 /* must be called once on fs mount. calls journal_read for you */
2709 int journal_init(struct super_block *sb, const char *j_dev_name,
2710 int old_format, unsigned int commit_max_age)
2711 {
2712 int num_cnodes = SB_ONDISK_JOURNAL_SIZE(sb) * 2;
2713 struct buffer_head *bhjh;
2714 struct reiserfs_super_block *rs;
2715 struct reiserfs_journal_header *jh;
2716 struct reiserfs_journal *journal;
2717 struct reiserfs_journal_list *jl;
2718 int ret;
2719
2720 journal = SB_JOURNAL(sb) = vzalloc(sizeof(struct reiserfs_journal));
2721 if (!journal) {
2722 reiserfs_warning(sb, "journal-1256",
2723 "unable to get memory for journal structure");
2724 return 1;
2725 }
2726 INIT_LIST_HEAD(&journal->j_bitmap_nodes);
2727 INIT_LIST_HEAD(&journal->j_prealloc_list);
2728 INIT_LIST_HEAD(&journal->j_working_list);
2729 INIT_LIST_HEAD(&journal->j_journal_list);
2730 journal->j_persistent_trans = 0;
2731 if (reiserfs_allocate_list_bitmaps(sb, journal->j_list_bitmap,
2732 reiserfs_bmap_count(sb)))
2733 goto free_and_return;
2734
2735 allocate_bitmap_nodes(sb);
2736
2737 /* reserved for journal area support */
2738 SB_JOURNAL_1st_RESERVED_BLOCK(sb) = (old_format ?
2739 REISERFS_OLD_DISK_OFFSET_IN_BYTES
2740 / sb->s_blocksize +
2741 reiserfs_bmap_count(sb) +
2742 1 :
2743 REISERFS_DISK_OFFSET_IN_BYTES /
2744 sb->s_blocksize + 2);
2745
2746 /*
2747 * Sanity check to see is the standard journal fitting
2748 * within first bitmap (actual for small blocksizes)
2749 */
2750 if (!SB_ONDISK_JOURNAL_DEVICE(sb) &&
2751 (SB_JOURNAL_1st_RESERVED_BLOCK(sb) +
2752 SB_ONDISK_JOURNAL_SIZE(sb) > sb->s_blocksize * 8)) {
2753 reiserfs_warning(sb, "journal-1393",
2754 "journal does not fit for area addressed "
2755 "by first of bitmap blocks. It starts at "
2756 "%u and its size is %u. Block size %ld",
2757 SB_JOURNAL_1st_RESERVED_BLOCK(sb),
2758 SB_ONDISK_JOURNAL_SIZE(sb),
2759 sb->s_blocksize);
2760 goto free_and_return;
2761 }
2762
2763 if (journal_init_dev(sb, journal, j_dev_name) != 0) {
2764 reiserfs_warning(sb, "sh-462",
2765 "unable to initialize journal device");
2766 goto free_and_return;
2767 }
2768
2769 rs = SB_DISK_SUPER_BLOCK(sb);
2770
2771 /* read journal header */
2772 bhjh = journal_bread(sb,
2773 SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
2774 SB_ONDISK_JOURNAL_SIZE(sb));
2775 if (!bhjh) {
2776 reiserfs_warning(sb, "sh-459",
2777 "unable to read journal header");
2778 goto free_and_return;
2779 }
2780 jh = (struct reiserfs_journal_header *)(bhjh->b_data);
2781
2782 /* make sure that journal matches to the super block */
2783 if (is_reiserfs_jr(rs)
2784 && (le32_to_cpu(jh->jh_journal.jp_journal_magic) !=
2785 sb_jp_journal_magic(rs))) {
2786 reiserfs_warning(sb, "sh-460",
2787 "journal header magic %x (device %pg) does "
2788 "not match to magic found in super block %x",
2789 jh->jh_journal.jp_journal_magic,
2790 journal->j_dev_bd,
2791 sb_jp_journal_magic(rs));
2792 brelse(bhjh);
2793 goto free_and_return;
2794 }
2795
2796 journal->j_trans_max = le32_to_cpu(jh->jh_journal.jp_journal_trans_max);
2797 journal->j_max_batch = le32_to_cpu(jh->jh_journal.jp_journal_max_batch);
2798 journal->j_max_commit_age =
2799 le32_to_cpu(jh->jh_journal.jp_journal_max_commit_age);
2800 journal->j_max_trans_age = JOURNAL_MAX_TRANS_AGE;
2801
2802 if (check_advise_trans_params(sb, journal) != 0)
2803 goto free_and_return;
2804 journal->j_default_max_commit_age = journal->j_max_commit_age;
2805
2806 if (commit_max_age != 0) {
2807 journal->j_max_commit_age = commit_max_age;
2808 journal->j_max_trans_age = commit_max_age;
2809 }
2810
2811 reiserfs_info(sb, "journal params: device %pg, size %u, "
2812 "journal first block %u, max trans len %u, max batch %u, "
2813 "max commit age %u, max trans age %u\n",
2814 journal->j_dev_bd,
2815 SB_ONDISK_JOURNAL_SIZE(sb),
2816 SB_ONDISK_JOURNAL_1st_BLOCK(sb),
2817 journal->j_trans_max,
2818 journal->j_max_batch,
2819 journal->j_max_commit_age, journal->j_max_trans_age);
2820
2821 brelse(bhjh);
2822
2823 journal->j_list_bitmap_index = 0;
2824 journal_list_init(sb);
2825
2826 memset(journal->j_list_hash_table, 0,
2827 JOURNAL_HASH_SIZE * sizeof(struct reiserfs_journal_cnode *));
2828
2829 INIT_LIST_HEAD(&journal->j_dirty_buffers);
2830 spin_lock_init(&journal->j_dirty_buffers_lock);
2831
2832 journal->j_start = 0;
2833 journal->j_len = 0;
2834 journal->j_len_alloc = 0;
2835 atomic_set(&journal->j_wcount, 0);
2836 atomic_set(&journal->j_async_throttle, 0);
2837 journal->j_bcount = 0;
2838 journal->j_trans_start_time = 0;
2839 journal->j_last = NULL;
2840 journal->j_first = NULL;
2841 init_waitqueue_head(&journal->j_join_wait);
2842 mutex_init(&journal->j_mutex);
2843 mutex_init(&journal->j_flush_mutex);
2844
2845 journal->j_trans_id = 10;
2846 journal->j_mount_id = 10;
2847 journal->j_state = 0;
2848 atomic_set(&journal->j_jlock, 0);
2849 journal->j_cnode_free_list = allocate_cnodes(num_cnodes);
2850 journal->j_cnode_free_orig = journal->j_cnode_free_list;
2851 journal->j_cnode_free = journal->j_cnode_free_list ? num_cnodes : 0;
2852 journal->j_cnode_used = 0;
2853 journal->j_must_wait = 0;
2854
2855 if (journal->j_cnode_free == 0) {
2856 reiserfs_warning(sb, "journal-2004", "Journal cnode memory "
2857 "allocation failed (%ld bytes). Journal is "
2858 "too large for available memory. Usually "
2859 "this is due to a journal that is too large.",
2860 sizeof (struct reiserfs_journal_cnode) * num_cnodes);
2861 goto free_and_return;
2862 }
2863
2864 init_journal_hash(sb);
2865 jl = journal->j_current_jl;
2866
2867 /*
2868 * get_list_bitmap() may call flush_commit_list() which
2869 * requires the lock. Calling flush_commit_list() shouldn't happen
2870 * this early but I like to be paranoid.
2871 */
2872 reiserfs_write_lock(sb);
2873 jl->j_list_bitmap = get_list_bitmap(sb, jl);
2874 reiserfs_write_unlock(sb);
2875 if (!jl->j_list_bitmap) {
2876 reiserfs_warning(sb, "journal-2005",
2877 "get_list_bitmap failed for journal list 0");
2878 goto free_and_return;
2879 }
2880
2881 ret = journal_read(sb);
2882 if (ret < 0) {
2883 reiserfs_warning(sb, "reiserfs-2006",
2884 "Replay Failure, unable to mount");
2885 goto free_and_return;
2886 }
2887
2888 INIT_DELAYED_WORK(&journal->j_work, flush_async_commits);
2889 journal->j_work_sb = sb;
2890 return 0;
2891 free_and_return:
2892 free_journal_ram(sb);
2893 return 1;
2894 }
2895
2896 /*
2897 * test for a polite end of the current transaction. Used by file_write,
2898 * and should be used by delete to make sure they don't write more than
2899 * can fit inside a single transaction
2900 */
2901 int journal_transaction_should_end(struct reiserfs_transaction_handle *th,
2902 int new_alloc)
2903 {
2904 struct reiserfs_journal *journal = SB_JOURNAL(th->t_super);
2905 time64_t now = ktime_get_seconds();
2906 /* cannot restart while nested */
2907 BUG_ON(!th->t_trans_id);
2908 if (th->t_refcount > 1)
2909 return 0;
2910 if (journal->j_must_wait > 0 ||
2911 (journal->j_len_alloc + new_alloc) >= journal->j_max_batch ||
2912 atomic_read(&journal->j_jlock) ||
2913 (now - journal->j_trans_start_time) > journal->j_max_trans_age ||
2914 journal->j_cnode_free < (journal->j_trans_max * 3)) {
2915 return 1;
2916 }
2917
2918 journal->j_len_alloc += new_alloc;
2919 th->t_blocks_allocated += new_alloc ;
2920 return 0;
2921 }
2922
2923 /* this must be called inside a transaction */
2924 void reiserfs_block_writes(struct reiserfs_transaction_handle *th)
2925 {
2926 struct reiserfs_journal *journal = SB_JOURNAL(th->t_super);
2927 BUG_ON(!th->t_trans_id);
2928 journal->j_must_wait = 1;
2929 set_bit(J_WRITERS_BLOCKED, &journal->j_state);
2930 return;
2931 }
2932
2933 /* this must be called without a transaction started */
2934 void reiserfs_allow_writes(struct super_block *s)
2935 {
2936 struct reiserfs_journal *journal = SB_JOURNAL(s);
2937 clear_bit(J_WRITERS_BLOCKED, &journal->j_state);
2938 wake_up(&journal->j_join_wait);
2939 }
2940
2941 /* this must be called without a transaction started */
2942 void reiserfs_wait_on_write_block(struct super_block *s)
2943 {
2944 struct reiserfs_journal *journal = SB_JOURNAL(s);
2945 wait_event(journal->j_join_wait,
2946 !test_bit(J_WRITERS_BLOCKED, &journal->j_state));
2947 }
2948
2949 static void queue_log_writer(struct super_block *s)
2950 {
2951 wait_queue_entry_t wait;
2952 struct reiserfs_journal *journal = SB_JOURNAL(s);
2953 set_bit(J_WRITERS_QUEUED, &journal->j_state);
2954
2955 /*
2956 * we don't want to use wait_event here because
2957 * we only want to wait once.
2958 */
2959 init_waitqueue_entry(&wait, current);
2960 add_wait_queue(&journal->j_join_wait, &wait);
2961 set_current_state(TASK_UNINTERRUPTIBLE);
2962 if (test_bit(J_WRITERS_QUEUED, &journal->j_state)) {
2963 int depth = reiserfs_write_unlock_nested(s);
2964 schedule();
2965 reiserfs_write_lock_nested(s, depth);
2966 }
2967 __set_current_state(TASK_RUNNING);
2968 remove_wait_queue(&journal->j_join_wait, &wait);
2969 }
2970
2971 static void wake_queued_writers(struct super_block *s)
2972 {
2973 struct reiserfs_journal *journal = SB_JOURNAL(s);
2974 if (test_and_clear_bit(J_WRITERS_QUEUED, &journal->j_state))
2975 wake_up(&journal->j_join_wait);
2976 }
2977
2978 static void let_transaction_grow(struct super_block *sb, unsigned int trans_id)
2979 {
2980 struct reiserfs_journal *journal = SB_JOURNAL(sb);
2981 unsigned long bcount = journal->j_bcount;
2982 while (1) {
2983 int depth;
2984
2985 depth = reiserfs_write_unlock_nested(sb);
2986 schedule_timeout_uninterruptible(1);
2987 reiserfs_write_lock_nested(sb, depth);
2988
2989 journal->j_current_jl->j_state |= LIST_COMMIT_PENDING;
2990 while ((atomic_read(&journal->j_wcount) > 0 ||
2991 atomic_read(&journal->j_jlock)) &&
2992 journal->j_trans_id == trans_id) {
2993 queue_log_writer(sb);
2994 }
2995 if (journal->j_trans_id != trans_id)
2996 break;
2997 if (bcount == journal->j_bcount)
2998 break;
2999 bcount = journal->j_bcount;
3000 }
3001 }
3002
3003 /*
3004 * join == true if you must join an existing transaction.
3005 * join == false if you can deal with waiting for others to finish
3006 *
3007 * this will block until the transaction is joinable. send the number of
3008 * blocks you expect to use in nblocks.
3009 */
3010 static int do_journal_begin_r(struct reiserfs_transaction_handle *th,
3011 struct super_block *sb, unsigned long nblocks,
3012 int join)
3013 {
3014 time64_t now = ktime_get_seconds();
3015 unsigned int old_trans_id;
3016 struct reiserfs_journal *journal = SB_JOURNAL(sb);
3017 struct reiserfs_transaction_handle myth;
3018 int sched_count = 0;
3019 int retval;
3020 int depth;
3021
3022 reiserfs_check_lock_depth(sb, "journal_begin");
3023 BUG_ON(nblocks > journal->j_trans_max);
3024
3025 PROC_INFO_INC(sb, journal.journal_being);
3026 /* set here for journal_join */
3027 th->t_refcount = 1;
3028 th->t_super = sb;
3029
3030 relock:
3031 lock_journal(sb);
3032 if (join != JBEGIN_ABORT && reiserfs_is_journal_aborted(journal)) {
3033 unlock_journal(sb);
3034 retval = journal->j_errno;
3035 goto out_fail;
3036 }
3037 journal->j_bcount++;
3038
3039 if (test_bit(J_WRITERS_BLOCKED, &journal->j_state)) {
3040 unlock_journal(sb);
3041 depth = reiserfs_write_unlock_nested(sb);
3042 reiserfs_wait_on_write_block(sb);
3043 reiserfs_write_lock_nested(sb, depth);
3044 PROC_INFO_INC(sb, journal.journal_relock_writers);
3045 goto relock;
3046 }
3047 now = ktime_get_seconds();
3048
3049 /*
3050 * if there is no room in the journal OR
3051 * if this transaction is too old, and we weren't called joinable,
3052 * wait for it to finish before beginning we don't sleep if there
3053 * aren't other writers
3054 */
3055
3056 if ((!join && journal->j_must_wait > 0) ||
3057 (!join
3058 && (journal->j_len_alloc + nblocks + 2) >= journal->j_max_batch)
3059 || (!join && atomic_read(&journal->j_wcount) > 0
3060 && journal->j_trans_start_time > 0
3061 && (now - journal->j_trans_start_time) >
3062 journal->j_max_trans_age) || (!join
3063 && atomic_read(&journal->j_jlock))
3064 || (!join && journal->j_cnode_free < (journal->j_trans_max * 3))) {
3065
3066 old_trans_id = journal->j_trans_id;
3067 /* allow others to finish this transaction */
3068 unlock_journal(sb);
3069
3070 if (!join && (journal->j_len_alloc + nblocks + 2) >=
3071 journal->j_max_batch &&
3072 ((journal->j_len + nblocks + 2) * 100) <
3073 (journal->j_len_alloc * 75)) {
3074 if (atomic_read(&journal->j_wcount) > 10) {
3075 sched_count++;
3076 queue_log_writer(sb);
3077 goto relock;
3078 }
3079 }
3080 /*
3081 * don't mess with joining the transaction if all we
3082 * have to do is wait for someone else to do a commit
3083 */
3084 if (atomic_read(&journal->j_jlock)) {
3085 while (journal->j_trans_id == old_trans_id &&
3086 atomic_read(&journal->j_jlock)) {
3087 queue_log_writer(sb);
3088 }
3089 goto relock;
3090 }
3091 retval = journal_join(&myth, sb);
3092 if (retval)
3093 goto out_fail;
3094
3095 /* someone might have ended the transaction while we joined */
3096 if (old_trans_id != journal->j_trans_id) {
3097 retval = do_journal_end(&myth, 0);
3098 } else {
3099 retval = do_journal_end(&myth, COMMIT_NOW);
3100 }
3101
3102 if (retval)
3103 goto out_fail;
3104
3105 PROC_INFO_INC(sb, journal.journal_relock_wcount);
3106 goto relock;
3107 }
3108 /* we are the first writer, set trans_id */
3109 if (journal->j_trans_start_time == 0) {
3110 journal->j_trans_start_time = ktime_get_seconds();
3111 }
3112 atomic_inc(&journal->j_wcount);
3113 journal->j_len_alloc += nblocks;
3114 th->t_blocks_logged = 0;
3115 th->t_blocks_allocated = nblocks;
3116 th->t_trans_id = journal->j_trans_id;
3117 unlock_journal(sb);
3118 INIT_LIST_HEAD(&th->t_list);
3119 return 0;
3120
3121 out_fail:
3122 memset(th, 0, sizeof(*th));
3123 /*
3124 * Re-set th->t_super, so we can properly keep track of how many
3125 * persistent transactions there are. We need to do this so if this
3126 * call is part of a failed restart_transaction, we can free it later
3127 */
3128 th->t_super = sb;
3129 return retval;
3130 }
3131
3132 struct reiserfs_transaction_handle *reiserfs_persistent_transaction(struct
3133 super_block
3134 *s,
3135 int nblocks)
3136 {
3137 int ret;
3138 struct reiserfs_transaction_handle *th;
3139
3140 /*
3141 * if we're nesting into an existing transaction. It will be
3142 * persistent on its own
3143 */
3144 if (reiserfs_transaction_running(s)) {
3145 th = current->journal_info;
3146 th->t_refcount++;
3147 BUG_ON(th->t_refcount < 2);
3148
3149 return th;
3150 }
3151 th = kmalloc(sizeof(struct reiserfs_transaction_handle), GFP_NOFS);
3152 if (!th)
3153 return NULL;
3154 ret = journal_begin(th, s, nblocks);
3155 if (ret) {
3156 kfree(th);
3157 return NULL;
3158 }
3159
3160 SB_JOURNAL(s)->j_persistent_trans++;
3161 return th;
3162 }
3163
3164 int reiserfs_end_persistent_transaction(struct reiserfs_transaction_handle *th)
3165 {
3166 struct super_block *s = th->t_super;
3167 int ret = 0;
3168 if (th->t_trans_id)
3169 ret = journal_end(th);
3170 else
3171 ret = -EIO;
3172 if (th->t_refcount == 0) {
3173 SB_JOURNAL(s)->j_persistent_trans--;
3174 kfree(th);
3175 }
3176 return ret;
3177 }
3178
3179 static int journal_join(struct reiserfs_transaction_handle *th,
3180 struct super_block *sb)
3181 {
3182 struct reiserfs_transaction_handle *cur_th = current->journal_info;
3183
3184 /*
3185 * this keeps do_journal_end from NULLing out the
3186 * current->journal_info pointer
3187 */
3188 th->t_handle_save = cur_th;
3189 BUG_ON(cur_th && cur_th->t_refcount > 1);
3190 return do_journal_begin_r(th, sb, 1, JBEGIN_JOIN);
3191 }
3192
3193 int journal_join_abort(struct reiserfs_transaction_handle *th,
3194 struct super_block *sb)
3195 {
3196 struct reiserfs_transaction_handle *cur_th = current->journal_info;
3197
3198 /*
3199 * this keeps do_journal_end from NULLing out the
3200 * current->journal_info pointer
3201 */
3202 th->t_handle_save = cur_th;
3203 BUG_ON(cur_th && cur_th->t_refcount > 1);
3204 return do_journal_begin_r(th, sb, 1, JBEGIN_ABORT);
3205 }
3206
3207 int journal_begin(struct reiserfs_transaction_handle *th,
3208 struct super_block *sb, unsigned long nblocks)
3209 {
3210 struct reiserfs_transaction_handle *cur_th = current->journal_info;
3211 int ret;
3212
3213 th->t_handle_save = NULL;
3214 if (cur_th) {
3215 /* we are nesting into the current transaction */
3216 if (cur_th->t_super == sb) {
3217 BUG_ON(!cur_th->t_refcount);
3218 cur_th->t_refcount++;
3219 memcpy(th, cur_th, sizeof(*th));
3220 if (th->t_refcount <= 1)
3221 reiserfs_warning(sb, "reiserfs-2005",
3222 "BAD: refcount <= 1, but "
3223 "journal_info != 0");
3224 return 0;
3225 } else {
3226 /*
3227 * we've ended up with a handle from a different
3228 * filesystem. save it and restore on journal_end.
3229 * This should never really happen...
3230 */
3231 reiserfs_warning(sb, "clm-2100",
3232 "nesting info a different FS");
3233 th->t_handle_save = current->journal_info;
3234 current->journal_info = th;
3235 }
3236 } else {
3237 current->journal_info = th;
3238 }
3239 ret = do_journal_begin_r(th, sb, nblocks, JBEGIN_REG);
3240 BUG_ON(current->journal_info != th);
3241
3242 /*
3243 * I guess this boils down to being the reciprocal of clm-2100 above.
3244 * If do_journal_begin_r fails, we need to put it back, since
3245 * journal_end won't be called to do it. */
3246 if (ret)
3247 current->journal_info = th->t_handle_save;
3248 else
3249 BUG_ON(!th->t_refcount);
3250
3251 return ret;
3252 }
3253
3254 /*
3255 * puts bh into the current transaction. If it was already there, reorders
3256 * removes the old pointers from the hash, and puts new ones in (to make
3257 * sure replay happen in the right order).
3258 *
3259 * if it was dirty, cleans and files onto the clean list. I can't let it
3260 * be dirty again until the transaction is committed.
3261 *
3262 * if j_len, is bigger than j_len_alloc, it pushes j_len_alloc to 10 + j_len.
3263 */
3264 int journal_mark_dirty(struct reiserfs_transaction_handle *th,
3265 struct buffer_head *bh)
3266 {
3267 struct super_block *sb = th->t_super;
3268 struct reiserfs_journal *journal = SB_JOURNAL(sb);
3269 struct reiserfs_journal_cnode *cn = NULL;
3270 int count_already_incd = 0;
3271 int prepared = 0;
3272 BUG_ON(!th->t_trans_id);
3273
3274 PROC_INFO_INC(sb, journal.mark_dirty);
3275 if (th->t_trans_id != journal->j_trans_id) {
3276 reiserfs_panic(th->t_super, "journal-1577",
3277 "handle trans id %ld != current trans id %ld",
3278 th->t_trans_id, journal->j_trans_id);
3279 }
3280
3281 prepared = test_clear_buffer_journal_prepared(bh);
3282 clear_buffer_journal_restore_dirty(bh);
3283 /* already in this transaction, we are done */
3284 if (buffer_journaled(bh)) {
3285 PROC_INFO_INC(sb, journal.mark_dirty_already);
3286 return 0;
3287 }
3288
3289 /*
3290 * this must be turned into a panic instead of a warning. We can't
3291 * allow a dirty or journal_dirty or locked buffer to be logged, as
3292 * some changes could get to disk too early. NOT GOOD.
3293 */
3294 if (!prepared || buffer_dirty(bh)) {
3295 reiserfs_warning(sb, "journal-1777",
3296 "buffer %llu bad state "
3297 "%cPREPARED %cLOCKED %cDIRTY %cJDIRTY_WAIT",
3298 (unsigned long long)bh->b_blocknr,
3299 prepared ? ' ' : '!',
3300 buffer_locked(bh) ? ' ' : '!',
3301 buffer_dirty(bh) ? ' ' : '!',
3302 buffer_journal_dirty(bh) ? ' ' : '!');
3303 }
3304
3305 if (atomic_read(&journal->j_wcount) <= 0) {
3306 reiserfs_warning(sb, "journal-1409",
3307 "returning because j_wcount was %d",
3308 atomic_read(&journal->j_wcount));
3309 return 1;
3310 }
3311 /*
3312 * this error means I've screwed up, and we've overflowed
3313 * the transaction. Nothing can be done here, except make the
3314 * FS readonly or panic.
3315 */
3316 if (journal->j_len >= journal->j_trans_max) {
3317 reiserfs_panic(th->t_super, "journal-1413",
3318 "j_len (%lu) is too big",
3319 journal->j_len);
3320 }
3321
3322 if (buffer_journal_dirty(bh)) {
3323 count_already_incd = 1;
3324 PROC_INFO_INC(sb, journal.mark_dirty_notjournal);
3325 clear_buffer_journal_dirty(bh);
3326 }
3327
3328 if (journal->j_len > journal->j_len_alloc) {
3329 journal->j_len_alloc = journal->j_len + JOURNAL_PER_BALANCE_CNT;
3330 }
3331
3332 set_buffer_journaled(bh);
3333
3334 /* now put this guy on the end */
3335 if (!cn) {
3336 cn = get_cnode(sb);
3337 if (!cn) {
3338 reiserfs_panic(sb, "journal-4", "get_cnode failed!");
3339 }
3340
3341 if (th->t_blocks_logged == th->t_blocks_allocated) {
3342 th->t_blocks_allocated += JOURNAL_PER_BALANCE_CNT;
3343 journal->j_len_alloc += JOURNAL_PER_BALANCE_CNT;
3344 }
3345 th->t_blocks_logged++;
3346 journal->j_len++;
3347
3348 cn->bh = bh;
3349 cn->blocknr = bh->b_blocknr;
3350 cn->sb = sb;
3351 cn->jlist = NULL;
3352 insert_journal_hash(journal->j_hash_table, cn);
3353 if (!count_already_incd) {
3354 get_bh(bh);
3355 }
3356 }
3357 cn->next = NULL;
3358 cn->prev = journal->j_last;
3359 cn->bh = bh;
3360 if (journal->j_last) {
3361 journal->j_last->next = cn;
3362 journal->j_last = cn;
3363 } else {
3364 journal->j_first = cn;
3365 journal->j_last = cn;
3366 }
3367 reiserfs_schedule_old_flush(sb);
3368 return 0;
3369 }
3370
3371 int journal_end(struct reiserfs_transaction_handle *th)
3372 {
3373 struct super_block *sb = th->t_super;
3374 if (!current->journal_info && th->t_refcount > 1)
3375 reiserfs_warning(sb, "REISER-NESTING",
3376 "th NULL, refcount %d", th->t_refcount);
3377
3378 if (!th->t_trans_id) {
3379 WARN_ON(1);
3380 return -EIO;
3381 }
3382
3383 th->t_refcount--;
3384 if (th->t_refcount > 0) {
3385 struct reiserfs_transaction_handle *cur_th =
3386 current->journal_info;
3387
3388 /*
3389 * we aren't allowed to close a nested transaction on a
3390 * different filesystem from the one in the task struct
3391 */
3392 BUG_ON(cur_th->t_super != th->t_super);
3393
3394 if (th != cur_th) {
3395 memcpy(current->journal_info, th, sizeof(*th));
3396 th->t_trans_id = 0;
3397 }
3398 return 0;
3399 } else {
3400 return do_journal_end(th, 0);
3401 }
3402 }
3403
3404 /*
3405 * removes from the current transaction, relsing and descrementing any counters.
3406 * also files the removed buffer directly onto the clean list
3407 *
3408 * called by journal_mark_freed when a block has been deleted
3409 *
3410 * returns 1 if it cleaned and relsed the buffer. 0 otherwise
3411 */
3412 static int remove_from_transaction(struct super_block *sb,
3413 b_blocknr_t blocknr, int already_cleaned)
3414 {
3415 struct buffer_head *bh;
3416 struct reiserfs_journal_cnode *cn;
3417 struct reiserfs_journal *journal = SB_JOURNAL(sb);
3418 int ret = 0;
3419
3420 cn = get_journal_hash_dev(sb, journal->j_hash_table, blocknr);
3421 if (!cn || !cn->bh) {
3422 return ret;
3423 }
3424 bh = cn->bh;
3425 if (cn->prev) {
3426 cn->prev->next = cn->next;
3427 }
3428 if (cn->next) {
3429 cn->next->prev = cn->prev;
3430 }
3431 if (cn == journal->j_first) {
3432 journal->j_first = cn->next;
3433 }
3434 if (cn == journal->j_last) {
3435 journal->j_last = cn->prev;
3436 }
3437 remove_journal_hash(sb, journal->j_hash_table, NULL,
3438 bh->b_blocknr, 0);
3439 clear_buffer_journaled(bh); /* don't log this one */
3440
3441 if (!already_cleaned) {
3442 clear_buffer_journal_dirty(bh);
3443 clear_buffer_dirty(bh);
3444 clear_buffer_journal_test(bh);
3445 put_bh(bh);
3446 if (atomic_read(&bh->b_count) < 0) {
3447 reiserfs_warning(sb, "journal-1752",
3448 "b_count < 0");
3449 }
3450 ret = 1;
3451 }
3452 journal->j_len--;
3453 journal->j_len_alloc--;
3454 free_cnode(sb, cn);
3455 return ret;
3456 }
3457
3458 /*
3459 * for any cnode in a journal list, it can only be dirtied of all the
3460 * transactions that include it are committed to disk.
3461 * this checks through each transaction, and returns 1 if you are allowed
3462 * to dirty, and 0 if you aren't
3463 *
3464 * it is called by dirty_journal_list, which is called after
3465 * flush_commit_list has gotten all the log blocks for a given
3466 * transaction on disk
3467 *
3468 */
3469 static int can_dirty(struct reiserfs_journal_cnode *cn)
3470 {
3471 struct super_block *sb = cn->sb;
3472 b_blocknr_t blocknr = cn->blocknr;
3473 struct reiserfs_journal_cnode *cur = cn->hprev;
3474 int can_dirty = 1;
3475
3476 /*
3477 * first test hprev. These are all newer than cn, so any node here
3478 * with the same block number and dev means this node can't be sent
3479 * to disk right now.
3480 */
3481 while (cur && can_dirty) {
3482 if (cur->jlist && cur->bh && cur->blocknr && cur->sb == sb &&
3483 cur->blocknr == blocknr) {
3484 can_dirty = 0;
3485 }
3486 cur = cur->hprev;
3487 }
3488 /*
3489 * then test hnext. These are all older than cn. As long as they
3490 * are committed to the log, it is safe to write cn to disk
3491 */
3492 cur = cn->hnext;
3493 while (cur && can_dirty) {
3494 if (cur->jlist && cur->jlist->j_len > 0 &&
3495 atomic_read(&cur->jlist->j_commit_left) > 0 && cur->bh &&
3496 cur->blocknr && cur->sb == sb && cur->blocknr == blocknr) {
3497 can_dirty = 0;
3498 }
3499 cur = cur->hnext;
3500 }
3501 return can_dirty;
3502 }
3503
3504 /*
3505 * syncs the commit blocks, but does not force the real buffers to disk
3506 * will wait until the current transaction is done/committed before returning
3507 */
3508 int journal_end_sync(struct reiserfs_transaction_handle *th)
3509 {
3510 struct super_block *sb = th->t_super;
3511 struct reiserfs_journal *journal = SB_JOURNAL(sb);
3512
3513 BUG_ON(!th->t_trans_id);
3514 /* you can sync while nested, very, very bad */
3515 BUG_ON(th->t_refcount > 1);
3516 if (journal->j_len == 0) {
3517 reiserfs_prepare_for_journal(sb, SB_BUFFER_WITH_SB(sb),
3518 1);
3519 journal_mark_dirty(th, SB_BUFFER_WITH_SB(sb));
3520 }
3521 return do_journal_end(th, COMMIT_NOW | WAIT);
3522 }
3523
3524 /* writeback the pending async commits to disk */
3525 static void flush_async_commits(struct work_struct *work)
3526 {
3527 struct reiserfs_journal *journal =
3528 container_of(work, struct reiserfs_journal, j_work.work);
3529 struct super_block *sb = journal->j_work_sb;
3530 struct reiserfs_journal_list *jl;
3531 struct list_head *entry;
3532
3533 reiserfs_write_lock(sb);
3534 if (!list_empty(&journal->j_journal_list)) {
3535 /* last entry is the youngest, commit it and you get everything */
3536 entry = journal->j_journal_list.prev;
3537 jl = JOURNAL_LIST_ENTRY(entry);
3538 flush_commit_list(sb, jl, 1);
3539 }
3540 reiserfs_write_unlock(sb);
3541 }
3542
3543 /*
3544 * flushes any old transactions to disk
3545 * ends the current transaction if it is too old
3546 */
3547 void reiserfs_flush_old_commits(struct super_block *sb)
3548 {
3549 time64_t now;
3550 struct reiserfs_transaction_handle th;
3551 struct reiserfs_journal *journal = SB_JOURNAL(sb);
3552
3553 now = ktime_get_seconds();
3554 /*
3555 * safety check so we don't flush while we are replaying the log during
3556 * mount
3557 */
3558 if (list_empty(&journal->j_journal_list))
3559 return;
3560
3561 /*
3562 * check the current transaction. If there are no writers, and it is
3563 * too old, finish it, and force the commit blocks to disk
3564 */
3565 if (atomic_read(&journal->j_wcount) <= 0 &&
3566 journal->j_trans_start_time > 0 &&
3567 journal->j_len > 0 &&
3568 (now - journal->j_trans_start_time) > journal->j_max_trans_age) {
3569 if (!journal_join(&th, sb)) {
3570 reiserfs_prepare_for_journal(sb,
3571 SB_BUFFER_WITH_SB(sb),
3572 1);
3573 journal_mark_dirty(&th, SB_BUFFER_WITH_SB(sb));
3574
3575 /*
3576 * we're only being called from kreiserfsd, it makes
3577 * no sense to do an async commit so that kreiserfsd
3578 * can do it later
3579 */
3580 do_journal_end(&th, COMMIT_NOW | WAIT);
3581 }
3582 }
3583 }
3584
3585 /*
3586 * returns 0 if do_journal_end should return right away, returns 1 if
3587 * do_journal_end should finish the commit
3588 *
3589 * if the current transaction is too old, but still has writers, this will
3590 * wait on j_join_wait until all the writers are done. By the time it
3591 * wakes up, the transaction it was called has already ended, so it just
3592 * flushes the commit list and returns 0.
3593 *
3594 * Won't batch when flush or commit_now is set. Also won't batch when
3595 * others are waiting on j_join_wait.
3596 *
3597 * Note, we can't allow the journal_end to proceed while there are still
3598 * writers in the log.
3599 */
3600 static int check_journal_end(struct reiserfs_transaction_handle *th, int flags)
3601 {
3602
3603 time64_t now;
3604 int flush = flags & FLUSH_ALL;
3605 int commit_now = flags & COMMIT_NOW;
3606 int wait_on_commit = flags & WAIT;
3607 struct reiserfs_journal_list *jl;
3608 struct super_block *sb = th->t_super;
3609 struct reiserfs_journal *journal = SB_JOURNAL(sb);
3610
3611 BUG_ON(!th->t_trans_id);
3612
3613 if (th->t_trans_id != journal->j_trans_id) {
3614 reiserfs_panic(th->t_super, "journal-1577",
3615 "handle trans id %ld != current trans id %ld",
3616 th->t_trans_id, journal->j_trans_id);
3617 }
3618
3619 journal->j_len_alloc -= (th->t_blocks_allocated - th->t_blocks_logged);
3620 /* <= 0 is allowed. unmounting might not call begin */
3621 if (atomic_read(&journal->j_wcount) > 0)
3622 atomic_dec(&journal->j_wcount);
3623
3624 /*
3625 * BUG, deal with case where j_len is 0, but people previously
3626 * freed blocks need to be released will be dealt with by next
3627 * transaction that actually writes something, but should be taken
3628 * care of in this trans
3629 */
3630 BUG_ON(journal->j_len == 0);
3631
3632 /*
3633 * if wcount > 0, and we are called to with flush or commit_now,
3634 * we wait on j_join_wait. We will wake up when the last writer has
3635 * finished the transaction, and started it on its way to the disk.
3636 * Then, we flush the commit or journal list, and just return 0
3637 * because the rest of journal end was already done for this
3638 * transaction.
3639 */
3640 if (atomic_read(&journal->j_wcount) > 0) {
3641 if (flush || commit_now) {
3642 unsigned trans_id;
3643
3644 jl = journal->j_current_jl;
3645 trans_id = jl->j_trans_id;
3646 if (wait_on_commit)
3647 jl->j_state |= LIST_COMMIT_PENDING;
3648 atomic_set(&journal->j_jlock, 1);
3649 if (flush) {
3650 journal->j_next_full_flush = 1;
3651 }
3652 unlock_journal(sb);
3653
3654 /*
3655 * sleep while the current transaction is
3656 * still j_jlocked
3657 */
3658 while (journal->j_trans_id == trans_id) {
3659 if (atomic_read(&journal->j_jlock)) {
3660 queue_log_writer(sb);
3661 } else {
3662 lock_journal(sb);
3663 if (journal->j_trans_id == trans_id) {
3664 atomic_set(&journal->j_jlock,
3665 1);
3666 }
3667 unlock_journal(sb);
3668 }
3669 }
3670 BUG_ON(journal->j_trans_id == trans_id);
3671
3672 if (commit_now
3673 && journal_list_still_alive(sb, trans_id)
3674 && wait_on_commit) {
3675 flush_commit_list(sb, jl, 1);
3676 }
3677 return 0;
3678 }
3679 unlock_journal(sb);
3680 return 0;
3681 }
3682
3683 /* deal with old transactions where we are the last writers */
3684 now = ktime_get_seconds();
3685 if ((now - journal->j_trans_start_time) > journal->j_max_trans_age) {
3686 commit_now = 1;
3687 journal->j_next_async_flush = 1;
3688 }
3689 /* don't batch when someone is waiting on j_join_wait */
3690 /* don't batch when syncing the commit or flushing the whole trans */
3691 if (!(journal->j_must_wait > 0) && !(atomic_read(&journal->j_jlock))
3692 && !flush && !commit_now && (journal->j_len < journal->j_max_batch)
3693 && journal->j_len_alloc < journal->j_max_batch
3694 && journal->j_cnode_free > (journal->j_trans_max * 3)) {
3695 journal->j_bcount++;
3696 unlock_journal(sb);
3697 return 0;
3698 }
3699
3700 if (journal->j_start > SB_ONDISK_JOURNAL_SIZE(sb)) {
3701 reiserfs_panic(sb, "journal-003",
3702 "j_start (%ld) is too high",
3703 journal->j_start);
3704 }
3705 return 1;
3706 }
3707
3708 /*
3709 * Does all the work that makes deleting blocks safe.
3710 * when deleting a block mark BH_JNew, just remove it from the current
3711 * transaction, clean it's buffer_head and move on.
3712 *
3713 * otherwise:
3714 * set a bit for the block in the journal bitmap. That will prevent it from
3715 * being allocated for unformatted nodes before this transaction has finished.
3716 *
3717 * mark any cnodes for this block as BLOCK_FREED, and clear their bh pointers.
3718 * That will prevent any old transactions with this block from trying to flush
3719 * to the real location. Since we aren't removing the cnode from the
3720 * journal_list_hash, *the block can't be reallocated yet.
3721 *
3722 * Then remove it from the current transaction, decrementing any counters and
3723 * filing it on the clean list.
3724 */
3725 int journal_mark_freed(struct reiserfs_transaction_handle *th,
3726 struct super_block *sb, b_blocknr_t blocknr)
3727 {
3728 struct reiserfs_journal *journal = SB_JOURNAL(sb);
3729 struct reiserfs_journal_cnode *cn = NULL;
3730 struct buffer_head *bh = NULL;
3731 struct reiserfs_list_bitmap *jb = NULL;
3732 int cleaned = 0;
3733 BUG_ON(!th->t_trans_id);
3734
3735 cn = get_journal_hash_dev(sb, journal->j_hash_table, blocknr);
3736 if (cn && cn->bh) {
3737 bh = cn->bh;
3738 get_bh(bh);
3739 }
3740 /* if it is journal new, we just remove it from this transaction */
3741 if (bh && buffer_journal_new(bh)) {
3742 clear_buffer_journal_new(bh);
3743 clear_prepared_bits(bh);
3744 reiserfs_clean_and_file_buffer(bh);
3745 cleaned = remove_from_transaction(sb, blocknr, cleaned);
3746 } else {
3747 /*
3748 * set the bit for this block in the journal bitmap
3749 * for this transaction
3750 */
3751 jb = journal->j_current_jl->j_list_bitmap;
3752 if (!jb) {
3753 reiserfs_panic(sb, "journal-1702",
3754 "journal_list_bitmap is NULL");
3755 }
3756 set_bit_in_list_bitmap(sb, blocknr, jb);
3757
3758 /* Note, the entire while loop is not allowed to schedule. */
3759
3760 if (bh) {
3761 clear_prepared_bits(bh);
3762 reiserfs_clean_and_file_buffer(bh);
3763 }
3764 cleaned = remove_from_transaction(sb, blocknr, cleaned);
3765
3766 /*
3767 * find all older transactions with this block,
3768 * make sure they don't try to write it out
3769 */
3770 cn = get_journal_hash_dev(sb, journal->j_list_hash_table,
3771 blocknr);
3772 while (cn) {
3773 if (sb == cn->sb && blocknr == cn->blocknr) {
3774 set_bit(BLOCK_FREED, &cn->state);
3775 if (cn->bh) {
3776 /*
3777 * remove_from_transaction will brelse
3778 * the buffer if it was in the current
3779 * trans
3780 */
3781 if (!cleaned) {
3782 clear_buffer_journal_dirty(cn->
3783 bh);
3784 clear_buffer_dirty(cn->bh);
3785 clear_buffer_journal_test(cn->
3786 bh);
3787 cleaned = 1;
3788 put_bh(cn->bh);
3789 if (atomic_read
3790 (&cn->bh->b_count) < 0) {
3791 reiserfs_warning(sb,
3792 "journal-2138",
3793 "cn->bh->b_count < 0");
3794 }
3795 }
3796 /*
3797 * since we are clearing the bh,
3798 * we MUST dec nonzerolen
3799 */
3800 if (cn->jlist) {
3801 atomic_dec(&cn->jlist->
3802 j_nonzerolen);
3803 }
3804 cn->bh = NULL;
3805 }
3806 }
3807 cn = cn->hnext;
3808 }
3809 }
3810
3811 if (bh)
3812 release_buffer_page(bh); /* get_hash grabs the buffer */
3813 return 0;
3814 }
3815
3816 void reiserfs_update_inode_transaction(struct inode *inode)
3817 {
3818 struct reiserfs_journal *journal = SB_JOURNAL(inode->i_sb);
3819 REISERFS_I(inode)->i_jl = journal->j_current_jl;
3820 REISERFS_I(inode)->i_trans_id = journal->j_trans_id;
3821 }
3822
3823 /*
3824 * returns -1 on error, 0 if no commits/barriers were done and 1
3825 * if a transaction was actually committed and the barrier was done
3826 */
3827 static int __commit_trans_jl(struct inode *inode, unsigned long id,
3828 struct reiserfs_journal_list *jl)
3829 {
3830 struct reiserfs_transaction_handle th;
3831 struct super_block *sb = inode->i_sb;
3832 struct reiserfs_journal *journal = SB_JOURNAL(sb);
3833 int ret = 0;
3834
3835 /*
3836 * is it from the current transaction,
3837 * or from an unknown transaction?
3838 */
3839 if (id == journal->j_trans_id) {
3840 jl = journal->j_current_jl;
3841 /*
3842 * try to let other writers come in and
3843 * grow this transaction
3844 */
3845 let_transaction_grow(sb, id);
3846 if (journal->j_trans_id != id) {
3847 goto flush_commit_only;
3848 }
3849
3850 ret = journal_begin(&th, sb, 1);
3851 if (ret)
3852 return ret;
3853
3854 /* someone might have ended this transaction while we joined */
3855 if (journal->j_trans_id != id) {
3856 reiserfs_prepare_for_journal(sb, SB_BUFFER_WITH_SB(sb),
3857 1);
3858 journal_mark_dirty(&th, SB_BUFFER_WITH_SB(sb));
3859 ret = journal_end(&th);
3860 goto flush_commit_only;
3861 }
3862
3863 ret = journal_end_sync(&th);
3864 if (!ret)
3865 ret = 1;
3866
3867 } else {
3868 /*
3869 * this gets tricky, we have to make sure the journal list in
3870 * the inode still exists. We know the list is still around
3871 * if we've got a larger transaction id than the oldest list
3872 */
3873 flush_commit_only:
3874 if (journal_list_still_alive(inode->i_sb, id)) {
3875 /*
3876 * we only set ret to 1 when we know for sure
3877 * the barrier hasn't been started yet on the commit
3878 * block.
3879 */
3880 if (atomic_read(&jl->j_commit_left) > 1)
3881 ret = 1;
3882 flush_commit_list(sb, jl, 1);
3883 if (journal->j_errno)
3884 ret = journal->j_errno;
3885 }
3886 }
3887 /* otherwise the list is gone, and long since committed */
3888 return ret;
3889 }
3890
3891 int reiserfs_commit_for_inode(struct inode *inode)
3892 {
3893 unsigned int id = REISERFS_I(inode)->i_trans_id;
3894 struct reiserfs_journal_list *jl = REISERFS_I(inode)->i_jl;
3895
3896 /*
3897 * for the whole inode, assume unset id means it was
3898 * changed in the current transaction. More conservative
3899 */
3900 if (!id || !jl) {
3901 reiserfs_update_inode_transaction(inode);
3902 id = REISERFS_I(inode)->i_trans_id;
3903 /* jl will be updated in __commit_trans_jl */
3904 }
3905
3906 return __commit_trans_jl(inode, id, jl);
3907 }
3908
3909 void reiserfs_restore_prepared_buffer(struct super_block *sb,
3910 struct buffer_head *bh)
3911 {
3912 struct reiserfs_journal *journal = SB_JOURNAL(sb);
3913 PROC_INFO_INC(sb, journal.restore_prepared);
3914 if (!bh) {
3915 return;
3916 }
3917 if (test_clear_buffer_journal_restore_dirty(bh) &&
3918 buffer_journal_dirty(bh)) {
3919 struct reiserfs_journal_cnode *cn;
3920 reiserfs_write_lock(sb);
3921 cn = get_journal_hash_dev(sb,
3922 journal->j_list_hash_table,
3923 bh->b_blocknr);
3924 if (cn && can_dirty(cn)) {
3925 set_buffer_journal_test(bh);
3926 mark_buffer_dirty(bh);
3927 }
3928 reiserfs_write_unlock(sb);
3929 }
3930 clear_buffer_journal_prepared(bh);
3931 }
3932
3933 extern struct tree_balance *cur_tb;
3934 /*
3935 * before we can change a metadata block, we have to make sure it won't
3936 * be written to disk while we are altering it. So, we must:
3937 * clean it
3938 * wait on it.
3939 */
3940 int reiserfs_prepare_for_journal(struct super_block *sb,
3941 struct buffer_head *bh, int wait)
3942 {
3943 PROC_INFO_INC(sb, journal.prepare);
3944
3945 if (!trylock_buffer(bh)) {
3946 if (!wait)
3947 return 0;
3948 lock_buffer(bh);
3949 }
3950 set_buffer_journal_prepared(bh);
3951 if (test_clear_buffer_dirty(bh) && buffer_journal_dirty(bh)) {
3952 clear_buffer_journal_test(bh);
3953 set_buffer_journal_restore_dirty(bh);
3954 }
3955 unlock_buffer(bh);
3956 return 1;
3957 }
3958
3959 /*
3960 * long and ugly. If flush, will not return until all commit
3961 * blocks and all real buffers in the trans are on disk.
3962 * If no_async, won't return until all commit blocks are on disk.
3963 *
3964 * keep reading, there are comments as you go along
3965 *
3966 * If the journal is aborted, we just clean up. Things like flushing
3967 * journal lists, etc just won't happen.
3968 */
3969 static int do_journal_end(struct reiserfs_transaction_handle *th, int flags)
3970 {
3971 struct super_block *sb = th->t_super;
3972 struct reiserfs_journal *journal = SB_JOURNAL(sb);
3973 struct reiserfs_journal_cnode *cn, *next, *jl_cn;
3974 struct reiserfs_journal_cnode *last_cn = NULL;
3975 struct reiserfs_journal_desc *desc;
3976 struct reiserfs_journal_commit *commit;
3977 struct buffer_head *c_bh; /* commit bh */
3978 struct buffer_head *d_bh; /* desc bh */
3979 int cur_write_start = 0; /* start index of current log write */
3980 int i;
3981 int flush;
3982 int wait_on_commit;
3983 struct reiserfs_journal_list *jl, *temp_jl;
3984 struct list_head *entry, *safe;
3985 unsigned long jindex;
3986 unsigned int commit_trans_id;
3987 int trans_half;
3988 int depth;
3989
3990 BUG_ON(th->t_refcount > 1);
3991 BUG_ON(!th->t_trans_id);
3992 BUG_ON(!th->t_super);
3993
3994 /*
3995 * protect flush_older_commits from doing mistakes if the
3996 * transaction ID counter gets overflowed.
3997 */
3998 if (th->t_trans_id == ~0U)
3999 flags |= FLUSH_ALL | COMMIT_NOW | WAIT;
4000 flush = flags & FLUSH_ALL;
4001 wait_on_commit = flags & WAIT;
4002
4003 current->journal_info = th->t_handle_save;
4004 reiserfs_check_lock_depth(sb, "journal end");
4005 if (journal->j_len == 0) {
4006 reiserfs_prepare_for_journal(sb, SB_BUFFER_WITH_SB(sb),
4007 1);
4008 journal_mark_dirty(th, SB_BUFFER_WITH_SB(sb));
4009 }
4010
4011 lock_journal(sb);
4012 if (journal->j_next_full_flush) {
4013 flags |= FLUSH_ALL;
4014 flush = 1;
4015 }
4016 if (journal->j_next_async_flush) {
4017 flags |= COMMIT_NOW | WAIT;
4018 wait_on_commit = 1;
4019 }
4020
4021 /*
4022 * check_journal_end locks the journal, and unlocks if it does
4023 * not return 1 it tells us if we should continue with the
4024 * journal_end, or just return
4025 */
4026 if (!check_journal_end(th, flags)) {
4027 reiserfs_schedule_old_flush(sb);
4028 wake_queued_writers(sb);
4029 reiserfs_async_progress_wait(sb);
4030 goto out;
4031 }
4032
4033 /* check_journal_end might set these, check again */
4034 if (journal->j_next_full_flush) {
4035 flush = 1;
4036 }
4037
4038 /*
4039 * j must wait means we have to flush the log blocks, and the
4040 * real blocks for this transaction
4041 */
4042 if (journal->j_must_wait > 0) {
4043 flush = 1;
4044 }
4045 #ifdef REISERFS_PREALLOCATE
4046 /*
4047 * quota ops might need to nest, setup the journal_info pointer
4048 * for them and raise the refcount so that it is > 0.
4049 */
4050 current->journal_info = th;
4051 th->t_refcount++;
4052
4053 /* it should not involve new blocks into the transaction */
4054 reiserfs_discard_all_prealloc(th);
4055
4056 th->t_refcount--;
4057 current->journal_info = th->t_handle_save;
4058 #endif
4059
4060 /* setup description block */
4061 d_bh =
4062 journal_getblk(sb,
4063 SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
4064 journal->j_start);
4065 set_buffer_uptodate(d_bh);
4066 desc = (struct reiserfs_journal_desc *)(d_bh)->b_data;
4067 memset(d_bh->b_data, 0, d_bh->b_size);
4068 memcpy(get_journal_desc_magic(d_bh), JOURNAL_DESC_MAGIC, 8);
4069 set_desc_trans_id(desc, journal->j_trans_id);
4070
4071 /*
4072 * setup commit block. Don't write (keep it clean too) this one
4073 * until after everyone else is written
4074 */
4075 c_bh = journal_getblk(sb, SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
4076 ((journal->j_start + journal->j_len +
4077 1) % SB_ONDISK_JOURNAL_SIZE(sb)));
4078 commit = (struct reiserfs_journal_commit *)c_bh->b_data;
4079 memset(c_bh->b_data, 0, c_bh->b_size);
4080 set_commit_trans_id(commit, journal->j_trans_id);
4081 set_buffer_uptodate(c_bh);
4082
4083 /* init this journal list */
4084 jl = journal->j_current_jl;
4085
4086 /*
4087 * we lock the commit before doing anything because
4088 * we want to make sure nobody tries to run flush_commit_list until
4089 * the new transaction is fully setup, and we've already flushed the
4090 * ordered bh list
4091 */
4092 reiserfs_mutex_lock_safe(&jl->j_commit_mutex, sb);
4093
4094 /* save the transaction id in case we need to commit it later */
4095 commit_trans_id = jl->j_trans_id;
4096
4097 atomic_set(&jl->j_older_commits_done, 0);
4098 jl->j_trans_id = journal->j_trans_id;
4099 jl->j_timestamp = journal->j_trans_start_time;
4100 jl->j_commit_bh = c_bh;
4101 jl->j_start = journal->j_start;
4102 jl->j_len = journal->j_len;
4103 atomic_set(&jl->j_nonzerolen, journal->j_len);
4104 atomic_set(&jl->j_commit_left, journal->j_len + 2);
4105 jl->j_realblock = NULL;
4106
4107 /*
4108 * The ENTIRE FOR LOOP MUST not cause schedule to occur.
4109 * for each real block, add it to the journal list hash,
4110 * copy into real block index array in the commit or desc block
4111 */
4112 trans_half = journal_trans_half(sb->s_blocksize);
4113 for (i = 0, cn = journal->j_first; cn; cn = cn->next, i++) {
4114 if (buffer_journaled(cn->bh)) {
4115 jl_cn = get_cnode(sb);
4116 if (!jl_cn) {
4117 reiserfs_panic(sb, "journal-1676",
4118 "get_cnode returned NULL");
4119 }
4120 if (i == 0) {
4121 jl->j_realblock = jl_cn;
4122 }
4123 jl_cn->prev = last_cn;
4124 jl_cn->next = NULL;
4125 if (last_cn) {
4126 last_cn->next = jl_cn;
4127 }
4128 last_cn = jl_cn;
4129 /*
4130 * make sure the block we are trying to log
4131 * is not a block of journal or reserved area
4132 */
4133 if (is_block_in_log_or_reserved_area
4134 (sb, cn->bh->b_blocknr)) {
4135 reiserfs_panic(sb, "journal-2332",
4136 "Trying to log block %lu, "
4137 "which is a log block",
4138 cn->bh->b_blocknr);
4139 }
4140 jl_cn->blocknr = cn->bh->b_blocknr;
4141 jl_cn->state = 0;
4142 jl_cn->sb = sb;
4143 jl_cn->bh = cn->bh;
4144 jl_cn->jlist = jl;
4145 insert_journal_hash(journal->j_list_hash_table, jl_cn);
4146 if (i < trans_half) {
4147 desc->j_realblock[i] =
4148 cpu_to_le32(cn->bh->b_blocknr);
4149 } else {
4150 commit->j_realblock[i - trans_half] =
4151 cpu_to_le32(cn->bh->b_blocknr);
4152 }
4153 } else {
4154 i--;
4155 }
4156 }
4157 set_desc_trans_len(desc, journal->j_len);
4158 set_desc_mount_id(desc, journal->j_mount_id);
4159 set_desc_trans_id(desc, journal->j_trans_id);
4160 set_commit_trans_len(commit, journal->j_len);
4161
4162 /*
4163 * special check in case all buffers in the journal
4164 * were marked for not logging
4165 */
4166 BUG_ON(journal->j_len == 0);
4167
4168 /*
4169 * we're about to dirty all the log blocks, mark the description block
4170 * dirty now too. Don't mark the commit block dirty until all the
4171 * others are on disk
4172 */
4173 mark_buffer_dirty(d_bh);
4174
4175 /*
4176 * first data block is j_start + 1, so add one to
4177 * cur_write_start wherever you use it
4178 */
4179 cur_write_start = journal->j_start;
4180 cn = journal->j_first;
4181 jindex = 1; /* start at one so we don't get the desc again */
4182 while (cn) {
4183 clear_buffer_journal_new(cn->bh);
4184 /* copy all the real blocks into log area. dirty log blocks */
4185 if (buffer_journaled(cn->bh)) {
4186 struct buffer_head *tmp_bh;
4187 char *addr;
4188 struct page *page;
4189 tmp_bh =
4190 journal_getblk(sb,
4191 SB_ONDISK_JOURNAL_1st_BLOCK(sb) +
4192 ((cur_write_start +
4193 jindex) %
4194 SB_ONDISK_JOURNAL_SIZE(sb)));
4195 set_buffer_uptodate(tmp_bh);
4196 page = cn->bh->b_page;
4197 addr = kmap(page);
4198 memcpy(tmp_bh->b_data,
4199 addr + offset_in_page(cn->bh->b_data),
4200 cn->bh->b_size);
4201 kunmap(page);
4202 mark_buffer_dirty(tmp_bh);
4203 jindex++;
4204 set_buffer_journal_dirty(cn->bh);
4205 clear_buffer_journaled(cn->bh);
4206 } else {
4207 /*
4208 * JDirty cleared sometime during transaction.
4209 * don't log this one
4210 */
4211 reiserfs_warning(sb, "journal-2048",
4212 "BAD, buffer in journal hash, "
4213 "but not JDirty!");
4214 brelse(cn->bh);
4215 }
4216 next = cn->next;
4217 free_cnode(sb, cn);
4218 cn = next;
4219 reiserfs_cond_resched(sb);
4220 }
4221
4222 /*
4223 * we are done with both the c_bh and d_bh, but
4224 * c_bh must be written after all other commit blocks,
4225 * so we dirty/relse c_bh in flush_commit_list, with commit_left <= 1.
4226 */
4227
4228 journal->j_current_jl = alloc_journal_list(sb);
4229
4230 /* now it is safe to insert this transaction on the main list */
4231 list_add_tail(&jl->j_list, &journal->j_journal_list);
4232 list_add_tail(&jl->j_working_list, &journal->j_working_list);
4233 journal->j_num_work_lists++;
4234
4235 /* reset journal values for the next transaction */
4236 journal->j_start =
4237 (journal->j_start + journal->j_len +
4238 2) % SB_ONDISK_JOURNAL_SIZE(sb);
4239 atomic_set(&journal->j_wcount, 0);
4240 journal->j_bcount = 0;
4241 journal->j_last = NULL;
4242 journal->j_first = NULL;
4243 journal->j_len = 0;
4244 journal->j_trans_start_time = 0;
4245 /* check for trans_id overflow */
4246 if (++journal->j_trans_id == 0)
4247 journal->j_trans_id = 10;
4248 journal->j_current_jl->j_trans_id = journal->j_trans_id;
4249 journal->j_must_wait = 0;
4250 journal->j_len_alloc = 0;
4251 journal->j_next_full_flush = 0;
4252 journal->j_next_async_flush = 0;
4253 init_journal_hash(sb);
4254
4255 /*
4256 * make sure reiserfs_add_jh sees the new current_jl before we
4257 * write out the tails
4258 */
4259 smp_mb();
4260
4261 /*
4262 * tail conversion targets have to hit the disk before we end the
4263 * transaction. Otherwise a later transaction might repack the tail
4264 * before this transaction commits, leaving the data block unflushed
4265 * and clean, if we crash before the later transaction commits, the
4266 * data block is lost.
4267 */
4268 if (!list_empty(&jl->j_tail_bh_list)) {
4269 depth = reiserfs_write_unlock_nested(sb);
4270 write_ordered_buffers(&journal->j_dirty_buffers_lock,
4271 journal, jl, &jl->j_tail_bh_list);
4272 reiserfs_write_lock_nested(sb, depth);
4273 }
4274 BUG_ON(!list_empty(&jl->j_tail_bh_list));
4275 mutex_unlock(&jl->j_commit_mutex);
4276
4277 /*
4278 * honor the flush wishes from the caller, simple commits can
4279 * be done outside the journal lock, they are done below
4280 *
4281 * if we don't flush the commit list right now, we put it into
4282 * the work queue so the people waiting on the async progress work
4283 * queue don't wait for this proc to flush journal lists and such.
4284 */
4285 if (flush) {
4286 flush_commit_list(sb, jl, 1);
4287 flush_journal_list(sb, jl, 1);
4288 } else if (!(jl->j_state & LIST_COMMIT_PENDING)) {
4289 /*
4290 * Avoid queueing work when sb is being shut down. Transaction
4291 * will be flushed on journal shutdown.
4292 */
4293 if (sb->s_flags & SB_ACTIVE)
4294 queue_delayed_work(REISERFS_SB(sb)->commit_wq,
4295 &journal->j_work, HZ / 10);
4296 }
4297
4298 /*
4299 * if the next transaction has any chance of wrapping, flush
4300 * transactions that might get overwritten. If any journal lists
4301 * are very old flush them as well.
4302 */
4303 first_jl:
4304 list_for_each_safe(entry, safe, &journal->j_journal_list) {
4305 temp_jl = JOURNAL_LIST_ENTRY(entry);
4306 if (journal->j_start <= temp_jl->j_start) {
4307 if ((journal->j_start + journal->j_trans_max + 1) >=
4308 temp_jl->j_start) {
4309 flush_used_journal_lists(sb, temp_jl);
4310 goto first_jl;
4311 } else if ((journal->j_start +
4312 journal->j_trans_max + 1) <
4313 SB_ONDISK_JOURNAL_SIZE(sb)) {
4314 /*
4315 * if we don't cross into the next
4316 * transaction and we don't wrap, there is
4317 * no way we can overlap any later transactions
4318 * break now
4319 */
4320 break;
4321 }
4322 } else if ((journal->j_start +
4323 journal->j_trans_max + 1) >
4324 SB_ONDISK_JOURNAL_SIZE(sb)) {
4325 if (((journal->j_start + journal->j_trans_max + 1) %
4326 SB_ONDISK_JOURNAL_SIZE(sb)) >=
4327 temp_jl->j_start) {
4328 flush_used_journal_lists(sb, temp_jl);
4329 goto first_jl;
4330 } else {
4331 /*
4332 * we don't overlap anything from out start
4333 * to the end of the log, and our wrapped
4334 * portion doesn't overlap anything at
4335 * the start of the log. We can break
4336 */
4337 break;
4338 }
4339 }
4340 }
4341
4342 journal->j_current_jl->j_list_bitmap =
4343 get_list_bitmap(sb, journal->j_current_jl);
4344
4345 if (!(journal->j_current_jl->j_list_bitmap)) {
4346 reiserfs_panic(sb, "journal-1996",
4347 "could not get a list bitmap");
4348 }
4349
4350 atomic_set(&journal->j_jlock, 0);
4351 unlock_journal(sb);
4352 /* wake up any body waiting to join. */
4353 clear_bit(J_WRITERS_QUEUED, &journal->j_state);
4354 wake_up(&journal->j_join_wait);
4355
4356 if (!flush && wait_on_commit &&
4357 journal_list_still_alive(sb, commit_trans_id)) {
4358 flush_commit_list(sb, jl, 1);
4359 }
4360 out:
4361 reiserfs_check_lock_depth(sb, "journal end2");
4362
4363 memset(th, 0, sizeof(*th));
4364 /*
4365 * Re-set th->t_super, so we can properly keep track of how many
4366 * persistent transactions there are. We need to do this so if this
4367 * call is part of a failed restart_transaction, we can free it later
4368 */
4369 th->t_super = sb;
4370
4371 return journal->j_errno;
4372 }
4373
4374 /* Send the file system read only and refuse new transactions */
4375 void reiserfs_abort_journal(struct super_block *sb, int errno)
4376 {
4377 struct reiserfs_journal *journal = SB_JOURNAL(sb);
4378 if (test_bit(J_ABORTED, &journal->j_state))
4379 return;
4380
4381 if (!journal->j_errno)
4382 journal->j_errno = errno;
4383
4384 sb->s_flags |= SB_RDONLY;
4385 set_bit(J_ABORTED, &journal->j_state);
4386
4387 #ifdef CONFIG_REISERFS_CHECK
4388 dump_stack();
4389 #endif
4390 }
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