talloc: Put pool-specific data before the chunk
[Samba.git] / lib / ntdb / transaction.c
blobf276216632813aac0a9397e305ffe9950af7f2d9
1 /*
2 Unix SMB/CIFS implementation.
4 trivial database library
6 Copyright (C) Andrew Tridgell 2005
7 Copyright (C) Rusty Russell 2010
9 ** NOTE! The following LGPL license applies to the ntdb
10 ** library. This does NOT imply that all of Samba is released
11 ** under the LGPL
13 This library is free software; you can redistribute it and/or
14 modify it under the terms of the GNU Lesser General Public
15 License as published by the Free Software Foundation; either
16 version 3 of the License, or (at your option) any later version.
18 This library is distributed in the hope that it will be useful,
19 but WITHOUT ANY WARRANTY; without even the implied warranty of
20 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
21 Lesser General Public License for more details.
23 You should have received a copy of the GNU Lesser General Public
24 License along with this library; if not, see <http://www.gnu.org/licenses/>.
27 #include "private.h"
28 #include <assert.h>
29 #define SAFE_FREE(ntdb, x) do { if ((x) != NULL) {ntdb->free_fn((void *)x, ntdb->alloc_data); (x)=NULL;} } while(0)
32 transaction design:
34 - only allow a single transaction at a time per database. This makes
35 using the transaction API simpler, as otherwise the caller would
36 have to cope with temporary failures in transactions that conflict
37 with other current transactions
39 - keep the transaction recovery information in the same file as the
40 database, using a special 'transaction recovery' record pointed at
41 by the header. This removes the need for extra journal files as
42 used by some other databases
44 - dynamically allocated the transaction recover record, re-using it
45 for subsequent transactions. If a larger record is needed then
46 ntdb_free() the old record to place it on the normal ntdb freelist
47 before allocating the new record
49 - during transactions, keep a linked list of writes all that have
50 been performed by intercepting all ntdb_write() calls. The hooked
51 transaction versions of ntdb_read() and ntdb_write() check this
52 linked list and try to use the elements of the list in preference
53 to the real database.
55 - don't allow any locks to be held when a transaction starts,
56 otherwise we can end up with deadlock (plus lack of lock nesting
57 in POSIX locks would mean the lock is lost)
59 - if the caller gains a lock during the transaction but doesn't
60 release it then fail the commit
62 - allow for nested calls to ntdb_transaction_start(), re-using the
63 existing transaction record. If the inner transaction is canceled
64 then a subsequent commit will fail
66 - keep a mirrored copy of the ntdb hash chain heads to allow for the
67 fast hash heads scan on traverse, updating the mirrored copy in
68 the transaction version of ntdb_write
70 - allow callers to mix transaction and non-transaction use of ntdb,
71 although once a transaction is started then an exclusive lock is
72 gained until the transaction is committed or canceled
74 - the commit stategy involves first saving away all modified data
75 into a linearised buffer in the transaction recovery area, then
76 marking the transaction recovery area with a magic value to
77 indicate a valid recovery record. In total 4 fsync/msync calls are
78 needed per commit to prevent race conditions. It might be possible
79 to reduce this to 3 or even 2 with some more work.
81 - check for a valid recovery record on open of the ntdb, while the
82 open lock is held. Automatically recover from the transaction
83 recovery area if needed, then continue with the open as
84 usual. This allows for smooth crash recovery with no administrator
85 intervention.
87 - if NTDB_NOSYNC is passed to flags in ntdb_open then transactions are
88 still available, but fsync/msync calls are made. This means we
89 still are safe against unexpected death during transaction commit,
90 but not against machine reboots.
94 hold the context of any current transaction
96 struct ntdb_transaction {
97 /* the original io methods - used to do IOs to the real db */
98 const struct ntdb_methods *io_methods;
100 /* the list of transaction blocks. When a block is first
101 written to, it gets created in this list */
102 uint8_t **blocks;
103 size_t num_blocks;
105 /* non-zero when an internal transaction error has
106 occurred. All write operations will then fail until the
107 transaction is ended */
108 int transaction_error;
110 /* when inside a transaction we need to keep track of any
111 nested ntdb_transaction_start() calls, as these are allowed,
112 but don't create a new transaction */
113 unsigned int nesting;
115 /* set when a prepare has already occurred */
116 bool prepared;
117 ntdb_off_t magic_offset;
119 /* old file size before transaction */
120 ntdb_len_t old_map_size;
124 read while in a transaction. We need to check first if the data is in our list
125 of transaction elements, then if not do a real read
127 static enum NTDB_ERROR transaction_read(struct ntdb_context *ntdb, ntdb_off_t off,
128 void *buf, ntdb_len_t len)
130 size_t blk;
131 enum NTDB_ERROR ecode;
133 /* break it down into block sized ops */
134 while (len + (off % NTDB_PGSIZE) > NTDB_PGSIZE) {
135 ntdb_len_t len2 = NTDB_PGSIZE - (off % NTDB_PGSIZE);
136 ecode = transaction_read(ntdb, off, buf, len2);
137 if (ecode != NTDB_SUCCESS) {
138 return ecode;
140 len -= len2;
141 off += len2;
142 buf = (void *)(len2 + (char *)buf);
145 if (len == 0) {
146 return NTDB_SUCCESS;
149 blk = off / NTDB_PGSIZE;
151 /* see if we have it in the block list */
152 if (ntdb->transaction->num_blocks <= blk ||
153 ntdb->transaction->blocks[blk] == NULL) {
154 /* nope, do a real read */
155 ecode = ntdb->transaction->io_methods->tread(ntdb, off, buf, len);
156 if (ecode != NTDB_SUCCESS) {
157 goto fail;
159 return 0;
162 /* now copy it out of this block */
163 memcpy(buf, ntdb->transaction->blocks[blk] + (off % NTDB_PGSIZE), len);
164 return NTDB_SUCCESS;
166 fail:
167 ntdb->transaction->transaction_error = 1;
168 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
169 "transaction_read: failed at off=%zu len=%zu",
170 (size_t)off, (size_t)len);
175 write while in a transaction
177 static enum NTDB_ERROR transaction_write(struct ntdb_context *ntdb, ntdb_off_t off,
178 const void *buf, ntdb_len_t len)
180 size_t blk;
181 enum NTDB_ERROR ecode;
183 /* Only a commit is allowed on a prepared transaction */
184 if (ntdb->transaction->prepared) {
185 ecode = ntdb_logerr(ntdb, NTDB_ERR_EINVAL, NTDB_LOG_ERROR,
186 "transaction_write: transaction already"
187 " prepared, write not allowed");
188 goto fail;
191 /* break it up into block sized chunks */
192 while (len + (off % NTDB_PGSIZE) > NTDB_PGSIZE) {
193 ntdb_len_t len2 = NTDB_PGSIZE - (off % NTDB_PGSIZE);
194 ecode = transaction_write(ntdb, off, buf, len2);
195 if (ecode != NTDB_SUCCESS) {
196 return ecode;
198 len -= len2;
199 off += len2;
200 if (buf != NULL) {
201 buf = (const void *)(len2 + (const char *)buf);
205 if (len == 0) {
206 return NTDB_SUCCESS;
209 blk = off / NTDB_PGSIZE;
210 off = off % NTDB_PGSIZE;
212 if (ntdb->transaction->num_blocks <= blk) {
213 uint8_t **new_blocks;
214 /* expand the blocks array */
215 if (ntdb->transaction->blocks == NULL) {
216 new_blocks = (uint8_t **)ntdb->alloc_fn(ntdb,
217 (blk+1)*sizeof(uint8_t *), ntdb->alloc_data);
218 } else {
219 new_blocks = (uint8_t **)ntdb->expand_fn(
220 ntdb->transaction->blocks,
221 (blk+1)*sizeof(uint8_t *), ntdb->alloc_data);
223 if (new_blocks == NULL) {
224 ecode = ntdb_logerr(ntdb, NTDB_ERR_OOM, NTDB_LOG_ERROR,
225 "transaction_write:"
226 " failed to allocate");
227 goto fail;
229 memset(&new_blocks[ntdb->transaction->num_blocks], 0,
230 (1+(blk - ntdb->transaction->num_blocks))*sizeof(uint8_t *));
231 ntdb->transaction->blocks = new_blocks;
232 ntdb->transaction->num_blocks = blk+1;
235 /* allocate and fill a block? */
236 if (ntdb->transaction->blocks[blk] == NULL) {
237 ntdb->transaction->blocks[blk] = (uint8_t *)
238 ntdb->alloc_fn(ntdb->transaction->blocks, NTDB_PGSIZE,
239 ntdb->alloc_data);
240 if (ntdb->transaction->blocks[blk] == NULL) {
241 ecode = ntdb_logerr(ntdb, NTDB_ERR_OOM, NTDB_LOG_ERROR,
242 "transaction_write:"
243 " failed to allocate");
244 goto fail;
246 memset(ntdb->transaction->blocks[blk], 0, NTDB_PGSIZE);
247 if (ntdb->transaction->old_map_size > blk * NTDB_PGSIZE) {
248 ntdb_len_t len2 = NTDB_PGSIZE;
249 if (len2 + (blk * NTDB_PGSIZE) > ntdb->transaction->old_map_size) {
250 len2 = ntdb->transaction->old_map_size - (blk * NTDB_PGSIZE);
252 ecode = ntdb->transaction->io_methods->tread(ntdb,
253 blk * NTDB_PGSIZE,
254 ntdb->transaction->blocks[blk],
255 len2);
256 if (ecode != NTDB_SUCCESS) {
257 ecode = ntdb_logerr(ntdb, ecode,
258 NTDB_LOG_ERROR,
259 "transaction_write:"
260 " failed to"
261 " read old block: %s",
262 strerror(errno));
263 SAFE_FREE(ntdb, ntdb->transaction->blocks[blk]);
264 goto fail;
269 /* overwrite part of an existing block */
270 if (buf == NULL) {
271 memset(ntdb->transaction->blocks[blk] + off, 0, len);
272 } else {
273 memcpy(ntdb->transaction->blocks[blk] + off, buf, len);
275 return NTDB_SUCCESS;
277 fail:
278 ntdb->transaction->transaction_error = 1;
279 return ecode;
284 write while in a transaction - this variant never expands the transaction blocks, it only
285 updates existing blocks. This means it cannot change the recovery size
287 static void transaction_write_existing(struct ntdb_context *ntdb, ntdb_off_t off,
288 const void *buf, ntdb_len_t len)
290 size_t blk;
292 /* break it up into block sized chunks */
293 while (len + (off % NTDB_PGSIZE) > NTDB_PGSIZE) {
294 ntdb_len_t len2 = NTDB_PGSIZE - (off % NTDB_PGSIZE);
295 transaction_write_existing(ntdb, off, buf, len2);
296 len -= len2;
297 off += len2;
298 if (buf != NULL) {
299 buf = (const void *)(len2 + (const char *)buf);
303 if (len == 0) {
304 return;
307 blk = off / NTDB_PGSIZE;
308 off = off % NTDB_PGSIZE;
310 if (ntdb->transaction->num_blocks <= blk ||
311 ntdb->transaction->blocks[blk] == NULL) {
312 return;
315 /* overwrite part of an existing block */
316 memcpy(ntdb->transaction->blocks[blk] + off, buf, len);
321 out of bounds check during a transaction
323 static enum NTDB_ERROR transaction_oob(struct ntdb_context *ntdb,
324 ntdb_off_t off, ntdb_len_t len, bool probe)
326 if ((off + len >= off && off + len <= ntdb->file->map_size) || probe) {
327 return NTDB_SUCCESS;
330 ntdb_logerr(ntdb, NTDB_ERR_IO, NTDB_LOG_ERROR,
331 "ntdb_oob len %lld beyond transaction size %lld",
332 (long long)(off + len),
333 (long long)ntdb->file->map_size);
334 return NTDB_ERR_IO;
338 transaction version of ntdb_expand().
340 static enum NTDB_ERROR transaction_expand_file(struct ntdb_context *ntdb,
341 ntdb_off_t addition)
343 enum NTDB_ERROR ecode;
345 assert((ntdb->file->map_size + addition) % NTDB_PGSIZE == 0);
347 /* add a write to the transaction elements, so subsequent
348 reads see the zero data */
349 ecode = transaction_write(ntdb, ntdb->file->map_size, NULL, addition);
350 if (ecode == NTDB_SUCCESS) {
351 ntdb->file->map_size += addition;
353 return ecode;
356 static void *transaction_direct(struct ntdb_context *ntdb, ntdb_off_t off,
357 size_t len, bool write_mode)
359 size_t blk = off / NTDB_PGSIZE, end_blk;
361 /* This is wrong for zero-length blocks, but will fail gracefully */
362 end_blk = (off + len - 1) / NTDB_PGSIZE;
364 /* Can only do direct if in single block and we've already copied. */
365 if (write_mode) {
366 ntdb->stats.transaction_write_direct++;
367 if (blk != end_blk
368 || blk >= ntdb->transaction->num_blocks
369 || ntdb->transaction->blocks[blk] == NULL) {
370 ntdb->stats.transaction_write_direct_fail++;
371 return NULL;
373 return ntdb->transaction->blocks[blk] + off % NTDB_PGSIZE;
376 ntdb->stats.transaction_read_direct++;
377 /* Single which we have copied? */
378 if (blk == end_blk
379 && blk < ntdb->transaction->num_blocks
380 && ntdb->transaction->blocks[blk])
381 return ntdb->transaction->blocks[blk] + off % NTDB_PGSIZE;
383 /* Otherwise must be all not copied. */
384 while (blk <= end_blk) {
385 if (blk >= ntdb->transaction->num_blocks)
386 break;
387 if (ntdb->transaction->blocks[blk]) {
388 ntdb->stats.transaction_read_direct_fail++;
389 return NULL;
391 blk++;
393 return ntdb->transaction->io_methods->direct(ntdb, off, len, false);
396 static ntdb_off_t transaction_read_off(struct ntdb_context *ntdb,
397 ntdb_off_t off)
399 ntdb_off_t ret;
400 enum NTDB_ERROR ecode;
402 ecode = transaction_read(ntdb, off, &ret, sizeof(ret));
403 ntdb_convert(ntdb, &ret, sizeof(ret));
404 if (ecode != NTDB_SUCCESS) {
405 return NTDB_ERR_TO_OFF(ecode);
407 return ret;
410 static enum NTDB_ERROR transaction_write_off(struct ntdb_context *ntdb,
411 ntdb_off_t off, ntdb_off_t val)
413 ntdb_convert(ntdb, &val, sizeof(val));
414 return transaction_write(ntdb, off, &val, sizeof(val));
417 static const struct ntdb_methods transaction_methods = {
418 transaction_read,
419 transaction_write,
420 transaction_oob,
421 transaction_expand_file,
422 transaction_direct,
423 transaction_read_off,
424 transaction_write_off,
428 sync to disk
430 static enum NTDB_ERROR transaction_sync(struct ntdb_context *ntdb,
431 ntdb_off_t offset, ntdb_len_t length)
433 if (ntdb->flags & NTDB_NOSYNC) {
434 return NTDB_SUCCESS;
437 if (fsync(ntdb->file->fd) != 0) {
438 return ntdb_logerr(ntdb, NTDB_ERR_IO, NTDB_LOG_ERROR,
439 "ntdb_transaction: fsync failed: %s",
440 strerror(errno));
442 #ifdef MS_SYNC
443 if (ntdb->file->map_ptr) {
444 ntdb_off_t moffset = offset & ~(getpagesize()-1);
445 if (msync(moffset + (char *)ntdb->file->map_ptr,
446 length + (offset - moffset), MS_SYNC) != 0) {
447 return ntdb_logerr(ntdb, NTDB_ERR_IO, NTDB_LOG_ERROR,
448 "ntdb_transaction: msync failed: %s",
449 strerror(errno));
452 #endif
453 return NTDB_SUCCESS;
456 static void free_transaction_blocks(struct ntdb_context *ntdb)
458 int i;
460 /* free all the transaction blocks */
461 for (i=0;i<ntdb->transaction->num_blocks;i++) {
462 if (ntdb->transaction->blocks[i] != NULL) {
463 ntdb->free_fn(ntdb->transaction->blocks[i],
464 ntdb->alloc_data);
467 SAFE_FREE(ntdb, ntdb->transaction->blocks);
468 ntdb->transaction->num_blocks = 0;
471 static void _ntdb_transaction_cancel(struct ntdb_context *ntdb)
473 enum NTDB_ERROR ecode;
475 if (ntdb->transaction == NULL) {
476 ntdb_logerr(ntdb, NTDB_ERR_EINVAL, NTDB_LOG_USE_ERROR,
477 "ntdb_transaction_cancel: no transaction");
478 return;
481 if (ntdb->transaction->nesting != 0) {
482 ntdb->transaction->transaction_error = 1;
483 ntdb->transaction->nesting--;
484 return;
487 ntdb->file->map_size = ntdb->transaction->old_map_size;
489 free_transaction_blocks(ntdb);
491 if (ntdb->transaction->magic_offset) {
492 const struct ntdb_methods *methods = ntdb->transaction->io_methods;
493 uint64_t invalid = NTDB_RECOVERY_INVALID_MAGIC;
495 /* remove the recovery marker */
496 ecode = methods->twrite(ntdb, ntdb->transaction->magic_offset,
497 &invalid, sizeof(invalid));
498 if (ecode == NTDB_SUCCESS)
499 ecode = transaction_sync(ntdb,
500 ntdb->transaction->magic_offset,
501 sizeof(invalid));
502 if (ecode != NTDB_SUCCESS) {
503 ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
504 "ntdb_transaction_cancel: failed to remove"
505 " recovery magic");
509 if (ntdb->file->allrecord_lock.count)
510 ntdb_allrecord_unlock(ntdb, ntdb->file->allrecord_lock.ltype);
512 /* restore the normal io methods */
513 ntdb->io = ntdb->transaction->io_methods;
515 ntdb_transaction_unlock(ntdb, F_WRLCK);
517 if (ntdb_has_open_lock(ntdb))
518 ntdb_unlock_open(ntdb, F_WRLCK);
520 SAFE_FREE(ntdb, ntdb->transaction);
524 start a ntdb transaction. No token is returned, as only a single
525 transaction is allowed to be pending per ntdb_context
527 _PUBLIC_ enum NTDB_ERROR ntdb_transaction_start(struct ntdb_context *ntdb)
529 enum NTDB_ERROR ecode;
531 ntdb->stats.transactions++;
532 /* some sanity checks */
533 if (ntdb->flags & NTDB_INTERNAL) {
534 return ntdb_logerr(ntdb, NTDB_ERR_EINVAL, NTDB_LOG_USE_ERROR,
535 "ntdb_transaction_start:"
536 " cannot start a transaction on an"
537 " internal ntdb");
540 if (ntdb->flags & NTDB_RDONLY) {
541 return ntdb_logerr(ntdb, NTDB_ERR_RDONLY, NTDB_LOG_USE_ERROR,
542 "ntdb_transaction_start:"
543 " cannot start a transaction on a"
544 " read-only ntdb");
547 /* cope with nested ntdb_transaction_start() calls */
548 if (ntdb->transaction != NULL) {
549 if (!(ntdb->flags & NTDB_ALLOW_NESTING)) {
550 return ntdb_logerr(ntdb, NTDB_ERR_IO,
551 NTDB_LOG_USE_ERROR,
552 "ntdb_transaction_start:"
553 " already inside transaction");
555 ntdb->transaction->nesting++;
556 ntdb->stats.transaction_nest++;
557 return 0;
560 if (ntdb_has_hash_locks(ntdb)) {
561 /* the caller must not have any locks when starting a
562 transaction as otherwise we'll be screwed by lack
563 of nested locks in POSIX */
564 return ntdb_logerr(ntdb, NTDB_ERR_LOCK,
565 NTDB_LOG_USE_ERROR,
566 "ntdb_transaction_start:"
567 " cannot start a transaction with locks"
568 " held");
571 ntdb->transaction = (struct ntdb_transaction *)
572 ntdb->alloc_fn(ntdb, sizeof(struct ntdb_transaction),
573 ntdb->alloc_data);
574 if (ntdb->transaction == NULL) {
575 return ntdb_logerr(ntdb, NTDB_ERR_OOM, NTDB_LOG_ERROR,
576 "ntdb_transaction_start:"
577 " cannot allocate");
579 memset(ntdb->transaction, 0, sizeof(*ntdb->transaction));
581 /* get the transaction write lock. This is a blocking lock. As
582 discussed with Volker, there are a number of ways we could
583 make this async, which we will probably do in the future */
584 ecode = ntdb_transaction_lock(ntdb, F_WRLCK);
585 if (ecode != NTDB_SUCCESS) {
586 SAFE_FREE(ntdb, ntdb->transaction->blocks);
587 SAFE_FREE(ntdb, ntdb->transaction);
588 return ecode;
591 /* get a read lock over entire file. This is upgraded to a write
592 lock during the commit */
593 ecode = ntdb_allrecord_lock(ntdb, F_RDLCK, NTDB_LOCK_WAIT, true);
594 if (ecode != NTDB_SUCCESS) {
595 goto fail_allrecord_lock;
598 /* make sure we know about any file expansions already done by
599 anyone else */
600 ntdb_oob(ntdb, ntdb->file->map_size, 1, true);
601 ntdb->transaction->old_map_size = ntdb->file->map_size;
603 /* finally hook the io methods, replacing them with
604 transaction specific methods */
605 ntdb->transaction->io_methods = ntdb->io;
606 ntdb->io = &transaction_methods;
607 return NTDB_SUCCESS;
609 fail_allrecord_lock:
610 ntdb_transaction_unlock(ntdb, F_WRLCK);
611 SAFE_FREE(ntdb, ntdb->transaction->blocks);
612 SAFE_FREE(ntdb, ntdb->transaction);
613 return ecode;
618 cancel the current transaction
620 _PUBLIC_ void ntdb_transaction_cancel(struct ntdb_context *ntdb)
622 ntdb->stats.transaction_cancel++;
623 _ntdb_transaction_cancel(ntdb);
627 work out how much space the linearised recovery data will consume (worst case)
629 static ntdb_len_t ntdb_recovery_size(struct ntdb_context *ntdb)
631 ntdb_len_t recovery_size = 0;
632 int i;
634 recovery_size = 0;
635 for (i=0;i<ntdb->transaction->num_blocks;i++) {
636 if (i * NTDB_PGSIZE >= ntdb->transaction->old_map_size) {
637 break;
639 if (ntdb->transaction->blocks[i] == NULL) {
640 continue;
642 recovery_size += 2*sizeof(ntdb_off_t) + NTDB_PGSIZE;
645 return recovery_size;
648 static enum NTDB_ERROR ntdb_recovery_area(struct ntdb_context *ntdb,
649 const struct ntdb_methods *methods,
650 ntdb_off_t *recovery_offset,
651 struct ntdb_recovery_record *rec)
653 enum NTDB_ERROR ecode;
655 *recovery_offset = ntdb_read_off(ntdb,
656 offsetof(struct ntdb_header, recovery));
657 if (NTDB_OFF_IS_ERR(*recovery_offset)) {
658 return NTDB_OFF_TO_ERR(*recovery_offset);
661 if (*recovery_offset == 0) {
662 rec->max_len = 0;
663 return NTDB_SUCCESS;
666 ecode = methods->tread(ntdb, *recovery_offset, rec, sizeof(*rec));
667 if (ecode != NTDB_SUCCESS)
668 return ecode;
670 ntdb_convert(ntdb, rec, sizeof(*rec));
671 /* ignore invalid recovery regions: can happen in crash */
672 if (rec->magic != NTDB_RECOVERY_MAGIC &&
673 rec->magic != NTDB_RECOVERY_INVALID_MAGIC) {
674 *recovery_offset = 0;
675 rec->max_len = 0;
677 return NTDB_SUCCESS;
680 static unsigned int same(const unsigned char *new,
681 const unsigned char *old,
682 unsigned int length)
684 unsigned int i;
686 for (i = 0; i < length; i++) {
687 if (new[i] != old[i])
688 break;
690 return i;
693 static unsigned int different(const unsigned char *new,
694 const unsigned char *old,
695 unsigned int length,
696 unsigned int min_same,
697 unsigned int *samelen)
699 unsigned int i;
701 *samelen = 0;
702 for (i = 0; i < length; i++) {
703 if (new[i] == old[i]) {
704 (*samelen)++;
705 } else {
706 if (*samelen >= min_same) {
707 return i - *samelen;
709 *samelen = 0;
713 if (*samelen < min_same)
714 *samelen = 0;
715 return length - *samelen;
718 /* Allocates recovery blob, without ntdb_recovery_record at head set up. */
719 static struct ntdb_recovery_record *alloc_recovery(struct ntdb_context *ntdb,
720 ntdb_len_t *len)
722 struct ntdb_recovery_record *rec;
723 size_t i;
724 enum NTDB_ERROR ecode;
725 unsigned char *p;
726 const struct ntdb_methods *old_methods = ntdb->io;
728 rec = ntdb->alloc_fn(ntdb, sizeof(*rec) + ntdb_recovery_size(ntdb),
729 ntdb->alloc_data);
730 if (!rec) {
731 ntdb_logerr(ntdb, NTDB_ERR_OOM, NTDB_LOG_ERROR,
732 "transaction_setup_recovery:"
733 " cannot allocate");
734 return NTDB_ERR_PTR(NTDB_ERR_OOM);
737 /* We temporarily revert to the old I/O methods, so we can use
738 * ntdb_access_read */
739 ntdb->io = ntdb->transaction->io_methods;
741 /* build the recovery data into a single blob to allow us to do a single
742 large write, which should be more efficient */
743 p = (unsigned char *)(rec + 1);
744 for (i=0;i<ntdb->transaction->num_blocks;i++) {
745 ntdb_off_t offset;
746 ntdb_len_t length;
747 unsigned int off;
748 const unsigned char *buffer;
750 if (ntdb->transaction->blocks[i] == NULL) {
751 continue;
754 offset = i * NTDB_PGSIZE;
755 length = NTDB_PGSIZE;
756 if (offset >= ntdb->transaction->old_map_size) {
757 continue;
760 if (offset + length > ntdb->file->map_size) {
761 ecode = ntdb_logerr(ntdb, NTDB_ERR_CORRUPT, NTDB_LOG_ERROR,
762 "ntdb_transaction_setup_recovery:"
763 " transaction data over new region"
764 " boundary");
765 goto fail;
767 buffer = ntdb_access_read(ntdb, offset, length, false);
768 if (NTDB_PTR_IS_ERR(buffer)) {
769 ecode = NTDB_PTR_ERR(buffer);
770 goto fail;
773 /* Skip over anything the same at the start. */
774 off = same(ntdb->transaction->blocks[i], buffer, length);
775 offset += off;
777 while (off < length) {
778 ntdb_len_t len1;
779 unsigned int samelen;
781 len1 = different(ntdb->transaction->blocks[i] + off,
782 buffer + off, length - off,
783 sizeof(offset) + sizeof(len1) + 1,
784 &samelen);
786 memcpy(p, &offset, sizeof(offset));
787 memcpy(p + sizeof(offset), &len1, sizeof(len1));
788 ntdb_convert(ntdb, p, sizeof(offset) + sizeof(len1));
789 p += sizeof(offset) + sizeof(len1);
790 memcpy(p, buffer + off, len1);
791 p += len1;
792 off += len1 + samelen;
793 offset += len1 + samelen;
795 ntdb_access_release(ntdb, buffer);
798 *len = p - (unsigned char *)(rec + 1);
799 ntdb->io = old_methods;
800 return rec;
802 fail:
803 ntdb->free_fn(rec, ntdb->alloc_data);
804 ntdb->io = old_methods;
805 return NTDB_ERR_PTR(ecode);
808 static ntdb_off_t create_recovery_area(struct ntdb_context *ntdb,
809 ntdb_len_t rec_length,
810 struct ntdb_recovery_record *rec)
812 ntdb_off_t off, recovery_off;
813 ntdb_len_t addition;
814 enum NTDB_ERROR ecode;
815 const struct ntdb_methods *methods = ntdb->transaction->io_methods;
817 /* round up to a multiple of page size. Overallocate, since each
818 * such allocation forces us to expand the file. */
819 rec->max_len = ntdb_expand_adjust(ntdb->file->map_size, rec_length);
821 /* Round up to a page. */
822 rec->max_len = ((sizeof(*rec) + rec->max_len + NTDB_PGSIZE-1)
823 & ~(NTDB_PGSIZE-1))
824 - sizeof(*rec);
826 off = ntdb->file->map_size;
828 /* Restore ->map_size before calling underlying expand_file.
829 Also so that we don't try to expand the file again in the
830 transaction commit, which would destroy the recovery
831 area */
832 addition = (ntdb->file->map_size - ntdb->transaction->old_map_size) +
833 sizeof(*rec) + rec->max_len;
834 ntdb->file->map_size = ntdb->transaction->old_map_size;
835 ntdb->stats.transaction_expand_file++;
836 ecode = methods->expand_file(ntdb, addition);
837 if (ecode != NTDB_SUCCESS) {
838 ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
839 "ntdb_recovery_allocate:"
840 " failed to create recovery area");
841 return NTDB_ERR_TO_OFF(ecode);
844 /* we have to reset the old map size so that we don't try to
845 expand the file again in the transaction commit, which
846 would destroy the recovery area */
847 ntdb->transaction->old_map_size = ntdb->file->map_size;
849 /* write the recovery header offset and sync - we can sync without a race here
850 as the magic ptr in the recovery record has not been set */
851 recovery_off = off;
852 ntdb_convert(ntdb, &recovery_off, sizeof(recovery_off));
853 ecode = methods->twrite(ntdb, offsetof(struct ntdb_header, recovery),
854 &recovery_off, sizeof(ntdb_off_t));
855 if (ecode != NTDB_SUCCESS) {
856 ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
857 "ntdb_recovery_allocate:"
858 " failed to write recovery head");
859 return NTDB_ERR_TO_OFF(ecode);
861 transaction_write_existing(ntdb, offsetof(struct ntdb_header, recovery),
862 &recovery_off,
863 sizeof(ntdb_off_t));
864 return off;
868 setup the recovery data that will be used on a crash during commit
870 static enum NTDB_ERROR transaction_setup_recovery(struct ntdb_context *ntdb)
872 ntdb_len_t recovery_size = 0;
873 ntdb_off_t recovery_off = 0;
874 ntdb_off_t old_map_size = ntdb->transaction->old_map_size;
875 struct ntdb_recovery_record *recovery;
876 const struct ntdb_methods *methods = ntdb->transaction->io_methods;
877 uint64_t magic;
878 enum NTDB_ERROR ecode;
880 recovery = alloc_recovery(ntdb, &recovery_size);
881 if (NTDB_PTR_IS_ERR(recovery))
882 return NTDB_PTR_ERR(recovery);
884 /* If we didn't actually change anything we overwrote? */
885 if (recovery_size == 0) {
886 /* In theory, we could have just appended data. */
887 if (ntdb->transaction->num_blocks * NTDB_PGSIZE
888 < ntdb->transaction->old_map_size) {
889 free_transaction_blocks(ntdb);
891 ntdb->free_fn(recovery, ntdb->alloc_data);
892 return NTDB_SUCCESS;
895 ecode = ntdb_recovery_area(ntdb, methods, &recovery_off, recovery);
896 if (ecode) {
897 ntdb->free_fn(recovery, ntdb->alloc_data);
898 return ecode;
901 if (recovery->max_len < recovery_size) {
902 /* Not large enough. Free up old recovery area. */
903 if (recovery_off) {
904 ntdb->stats.frees++;
905 ecode = add_free_record(ntdb, recovery_off,
906 sizeof(*recovery)
907 + recovery->max_len,
908 NTDB_LOCK_WAIT, true);
909 ntdb->free_fn(recovery, ntdb->alloc_data);
910 if (ecode != NTDB_SUCCESS) {
911 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
912 "ntdb_recovery_allocate:"
913 " failed to free previous"
914 " recovery area");
917 /* Refresh recovery after add_free_record above. */
918 recovery = alloc_recovery(ntdb, &recovery_size);
919 if (NTDB_PTR_IS_ERR(recovery))
920 return NTDB_PTR_ERR(recovery);
923 recovery_off = create_recovery_area(ntdb, recovery_size,
924 recovery);
925 if (NTDB_OFF_IS_ERR(recovery_off)) {
926 ntdb->free_fn(recovery, ntdb->alloc_data);
927 return NTDB_OFF_TO_ERR(recovery_off);
931 /* Now we know size, convert rec header. */
932 recovery->magic = NTDB_RECOVERY_INVALID_MAGIC;
933 recovery->len = recovery_size;
934 recovery->eof = old_map_size;
935 ntdb_convert(ntdb, recovery, sizeof(*recovery));
937 /* write the recovery data to the recovery area */
938 ecode = methods->twrite(ntdb, recovery_off, recovery,
939 sizeof(*recovery) + recovery_size);
940 if (ecode != NTDB_SUCCESS) {
941 ntdb->free_fn(recovery, ntdb->alloc_data);
942 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
943 "ntdb_transaction_setup_recovery:"
944 " failed to write recovery data");
946 transaction_write_existing(ntdb, recovery_off, recovery, recovery_size);
948 ntdb->free_fn(recovery, ntdb->alloc_data);
950 /* as we don't have ordered writes, we have to sync the recovery
951 data before we update the magic to indicate that the recovery
952 data is present */
953 ecode = transaction_sync(ntdb, recovery_off, recovery_size);
954 if (ecode != NTDB_SUCCESS)
955 return ecode;
957 magic = NTDB_RECOVERY_MAGIC;
958 ntdb_convert(ntdb, &magic, sizeof(magic));
960 ntdb->transaction->magic_offset
961 = recovery_off + offsetof(struct ntdb_recovery_record, magic);
963 ecode = methods->twrite(ntdb, ntdb->transaction->magic_offset,
964 &magic, sizeof(magic));
965 if (ecode != NTDB_SUCCESS) {
966 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
967 "ntdb_transaction_setup_recovery:"
968 " failed to write recovery magic");
970 transaction_write_existing(ntdb, ntdb->transaction->magic_offset,
971 &magic, sizeof(magic));
973 /* ensure the recovery magic marker is on disk */
974 return transaction_sync(ntdb, ntdb->transaction->magic_offset,
975 sizeof(magic));
978 static enum NTDB_ERROR _ntdb_transaction_prepare_commit(struct ntdb_context *ntdb)
980 const struct ntdb_methods *methods;
981 enum NTDB_ERROR ecode;
983 if (ntdb->transaction == NULL) {
984 return ntdb_logerr(ntdb, NTDB_ERR_EINVAL, NTDB_LOG_USE_ERROR,
985 "ntdb_transaction_prepare_commit:"
986 " no transaction");
989 if (ntdb->transaction->prepared) {
990 _ntdb_transaction_cancel(ntdb);
991 return ntdb_logerr(ntdb, NTDB_ERR_EINVAL, NTDB_LOG_USE_ERROR,
992 "ntdb_transaction_prepare_commit:"
993 " transaction already prepared");
996 if (ntdb->transaction->transaction_error) {
997 _ntdb_transaction_cancel(ntdb);
998 return ntdb_logerr(ntdb, NTDB_ERR_EINVAL, NTDB_LOG_ERROR,
999 "ntdb_transaction_prepare_commit:"
1000 " transaction error pending");
1004 if (ntdb->transaction->nesting != 0) {
1005 return NTDB_SUCCESS;
1008 /* check for a null transaction */
1009 if (ntdb->transaction->blocks == NULL) {
1010 return NTDB_SUCCESS;
1013 methods = ntdb->transaction->io_methods;
1015 /* upgrade the main transaction lock region to a write lock */
1016 ecode = ntdb_allrecord_upgrade(ntdb, NTDB_HASH_LOCK_START);
1017 if (ecode != NTDB_SUCCESS) {
1018 return ecode;
1021 /* get the open lock - this prevents new users attaching to the database
1022 during the commit */
1023 ecode = ntdb_lock_open(ntdb, F_WRLCK, NTDB_LOCK_WAIT|NTDB_LOCK_NOCHECK);
1024 if (ecode != NTDB_SUCCESS) {
1025 return ecode;
1028 /* Sets up ntdb->transaction->recovery and
1029 * ntdb->transaction->magic_offset. */
1030 ecode = transaction_setup_recovery(ntdb);
1031 if (ecode != NTDB_SUCCESS) {
1032 return ecode;
1035 ntdb->transaction->prepared = true;
1037 /* expand the file to the new size if needed */
1038 if (ntdb->file->map_size != ntdb->transaction->old_map_size) {
1039 ntdb_len_t add;
1041 add = ntdb->file->map_size - ntdb->transaction->old_map_size;
1042 /* Restore original map size for ntdb_expand_file */
1043 ntdb->file->map_size = ntdb->transaction->old_map_size;
1044 ecode = methods->expand_file(ntdb, add);
1045 if (ecode != NTDB_SUCCESS) {
1046 return ecode;
1050 /* Keep the open lock until the actual commit */
1051 return NTDB_SUCCESS;
1055 prepare to commit the current transaction
1057 _PUBLIC_ enum NTDB_ERROR ntdb_transaction_prepare_commit(struct ntdb_context *ntdb)
1059 return _ntdb_transaction_prepare_commit(ntdb);
1063 commit the current transaction
1065 _PUBLIC_ enum NTDB_ERROR ntdb_transaction_commit(struct ntdb_context *ntdb)
1067 const struct ntdb_methods *methods;
1068 int i;
1069 enum NTDB_ERROR ecode;
1071 if (ntdb->transaction == NULL) {
1072 return ntdb_logerr(ntdb, NTDB_ERR_EINVAL, NTDB_LOG_USE_ERROR,
1073 "ntdb_transaction_commit:"
1074 " no transaction");
1077 ntdb_trace(ntdb, "ntdb_transaction_commit");
1079 if (ntdb->transaction->nesting != 0) {
1080 ntdb->transaction->nesting--;
1081 return NTDB_SUCCESS;
1084 if (!ntdb->transaction->prepared) {
1085 ecode = _ntdb_transaction_prepare_commit(ntdb);
1086 if (ecode != NTDB_SUCCESS) {
1087 _ntdb_transaction_cancel(ntdb);
1088 return ecode;
1092 /* check for a null transaction (prepare_commit may do this!) */
1093 if (ntdb->transaction->blocks == NULL) {
1094 _ntdb_transaction_cancel(ntdb);
1095 return NTDB_SUCCESS;
1098 methods = ntdb->transaction->io_methods;
1100 /* perform all the writes */
1101 for (i=0;i<ntdb->transaction->num_blocks;i++) {
1102 ntdb_off_t offset;
1103 ntdb_len_t length;
1105 if (ntdb->transaction->blocks[i] == NULL) {
1106 continue;
1109 offset = i * NTDB_PGSIZE;
1110 length = NTDB_PGSIZE;
1112 ecode = methods->twrite(ntdb, offset,
1113 ntdb->transaction->blocks[i], length);
1114 if (ecode != NTDB_SUCCESS) {
1115 /* we've overwritten part of the data and
1116 possibly expanded the file, so we need to
1117 run the crash recovery code */
1118 ntdb->io = methods;
1119 ntdb_transaction_recover(ntdb);
1121 _ntdb_transaction_cancel(ntdb);
1123 return ecode;
1125 SAFE_FREE(ntdb, ntdb->transaction->blocks[i]);
1128 SAFE_FREE(ntdb, ntdb->transaction->blocks);
1129 ntdb->transaction->num_blocks = 0;
1131 /* ensure the new data is on disk */
1132 ecode = transaction_sync(ntdb, 0, ntdb->file->map_size);
1133 if (ecode != NTDB_SUCCESS) {
1134 return ecode;
1138 TODO: maybe write to some dummy hdr field, or write to magic
1139 offset without mmap, before the last sync, instead of the
1140 utime() call
1143 /* on some systems (like Linux 2.6.x) changes via mmap/msync
1144 don't change the mtime of the file, this means the file may
1145 not be backed up (as ntdb rounding to block sizes means that
1146 file size changes are quite rare too). The following forces
1147 mtime changes when a transaction completes */
1148 #if HAVE_UTIME
1149 utime(ntdb->name, NULL);
1150 #endif
1152 /* use a transaction cancel to free memory and remove the
1153 transaction locks: it "restores" map_size, too. */
1154 ntdb->transaction->old_map_size = ntdb->file->map_size;
1155 _ntdb_transaction_cancel(ntdb);
1157 return NTDB_SUCCESS;
1162 recover from an aborted transaction. Must be called with exclusive
1163 database write access already established (including the open
1164 lock to prevent new processes attaching)
1166 enum NTDB_ERROR ntdb_transaction_recover(struct ntdb_context *ntdb)
1168 ntdb_off_t recovery_head, recovery_eof;
1169 unsigned char *data, *p;
1170 struct ntdb_recovery_record rec;
1171 enum NTDB_ERROR ecode;
1173 /* find the recovery area */
1174 recovery_head = ntdb_read_off(ntdb, offsetof(struct ntdb_header,recovery));
1175 if (NTDB_OFF_IS_ERR(recovery_head)) {
1176 ecode = NTDB_OFF_TO_ERR(recovery_head);
1177 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
1178 "ntdb_transaction_recover:"
1179 " failed to read recovery head");
1182 if (recovery_head == 0) {
1183 /* we have never allocated a recovery record */
1184 return NTDB_SUCCESS;
1187 /* read the recovery record */
1188 ecode = ntdb_read_convert(ntdb, recovery_head, &rec, sizeof(rec));
1189 if (ecode != NTDB_SUCCESS) {
1190 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
1191 "ntdb_transaction_recover:"
1192 " failed to read recovery record");
1195 if (rec.magic != NTDB_RECOVERY_MAGIC) {
1196 /* there is no valid recovery data */
1197 return NTDB_SUCCESS;
1200 if (ntdb->flags & NTDB_RDONLY) {
1201 return ntdb_logerr(ntdb, NTDB_ERR_CORRUPT, NTDB_LOG_ERROR,
1202 "ntdb_transaction_recover:"
1203 " attempt to recover read only database");
1206 recovery_eof = rec.eof;
1208 data = (unsigned char *)ntdb->alloc_fn(ntdb, rec.len, ntdb->alloc_data);
1209 if (data == NULL) {
1210 return ntdb_logerr(ntdb, NTDB_ERR_OOM, NTDB_LOG_ERROR,
1211 "ntdb_transaction_recover:"
1212 " failed to allocate recovery data");
1215 /* read the full recovery data */
1216 ecode = ntdb->io->tread(ntdb, recovery_head + sizeof(rec), data,
1217 rec.len);
1218 if (ecode != NTDB_SUCCESS) {
1219 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
1220 "ntdb_transaction_recover:"
1221 " failed to read recovery data");
1224 /* recover the file data */
1225 p = data;
1226 while (p+sizeof(ntdb_off_t)+sizeof(ntdb_len_t) < data + rec.len) {
1227 ntdb_off_t ofs;
1228 ntdb_len_t len;
1229 ntdb_convert(ntdb, p, sizeof(ofs) + sizeof(len));
1230 memcpy(&ofs, p, sizeof(ofs));
1231 memcpy(&len, p + sizeof(ofs), sizeof(len));
1232 p += sizeof(ofs) + sizeof(len);
1234 ecode = ntdb->io->twrite(ntdb, ofs, p, len);
1235 if (ecode != NTDB_SUCCESS) {
1236 ntdb->free_fn(data, ntdb->alloc_data);
1237 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
1238 "ntdb_transaction_recover:"
1239 " failed to recover %zu bytes"
1240 " at offset %zu",
1241 (size_t)len, (size_t)ofs);
1243 p += len;
1246 ntdb->free_fn(data, ntdb->alloc_data);
1248 ecode = transaction_sync(ntdb, 0, ntdb->file->map_size);
1249 if (ecode != NTDB_SUCCESS) {
1250 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
1251 "ntdb_transaction_recover:"
1252 " failed to sync recovery");
1255 /* if the recovery area is after the recovered eof then remove it */
1256 if (recovery_eof <= recovery_head) {
1257 ecode = ntdb_write_off(ntdb, offsetof(struct ntdb_header,
1258 recovery),
1260 if (ecode != NTDB_SUCCESS) {
1261 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
1262 "ntdb_transaction_recover:"
1263 " failed to remove recovery head");
1267 /* remove the recovery magic */
1268 ecode = ntdb_write_off(ntdb,
1269 recovery_head
1270 + offsetof(struct ntdb_recovery_record, magic),
1271 NTDB_RECOVERY_INVALID_MAGIC);
1272 if (ecode != NTDB_SUCCESS) {
1273 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
1274 "ntdb_transaction_recover:"
1275 " failed to remove recovery magic");
1278 ecode = transaction_sync(ntdb, 0, recovery_eof);
1279 if (ecode != NTDB_SUCCESS) {
1280 return ntdb_logerr(ntdb, ecode, NTDB_LOG_ERROR,
1281 "ntdb_transaction_recover:"
1282 " failed to sync2 recovery");
1285 ntdb_logerr(ntdb, NTDB_SUCCESS, NTDB_LOG_WARNING,
1286 "ntdb_transaction_recover: recovered %zu byte database",
1287 (size_t)recovery_eof);
1289 /* all done */
1290 return NTDB_SUCCESS;
1293 ntdb_bool_err ntdb_needs_recovery(struct ntdb_context *ntdb)
1295 ntdb_off_t recovery_head;
1296 struct ntdb_recovery_record rec;
1297 enum NTDB_ERROR ecode;
1299 /* find the recovery area */
1300 recovery_head = ntdb_read_off(ntdb, offsetof(struct ntdb_header,recovery));
1301 if (NTDB_OFF_IS_ERR(recovery_head)) {
1302 return recovery_head;
1305 if (recovery_head == 0) {
1306 /* we have never allocated a recovery record */
1307 return false;
1310 /* read the recovery record */
1311 ecode = ntdb_read_convert(ntdb, recovery_head, &rec, sizeof(rec));
1312 if (ecode != NTDB_SUCCESS) {
1313 return NTDB_ERR_TO_OFF(ecode);
1316 return (rec.magic == NTDB_RECOVERY_MAGIC);