2 Unix SMB/CIFS implementation.
4 Generic, persistent and shared between processes cache mechanism for use
5 by various parts of the Samba code
7 Copyright (C) Rafal Szczesniak 2002
8 Copyright (C) Volker Lendecke 2009
10 This program is free software; you can redistribute it and/or modify
11 it under the terms of the GNU General Public License as published by
12 the Free Software Foundation; either version 3 of the License, or
13 (at your option) any later version.
15 This program is distributed in the hope that it will be useful,
16 but WITHOUT ANY WARRANTY; without even the implied warranty of
17 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 GNU General Public License for more details.
20 You should have received a copy of the GNU General Public License
21 along with this program. If not, see <http://www.gnu.org/licenses/>.
25 #include "system/filesys.h"
26 #include "system/glob.h"
30 #define DBGC_CLASS DBGC_TDB
32 #define TIMEOUT_LEN 12
33 #define CACHE_DATA_FMT "%12u/"
34 #define READ_CACHE_DATA_FMT_TEMPLATE "%%12u/%%%us"
35 #define BLOB_TYPE "DATA_BLOB"
36 #define BLOB_TYPE_LEN 9
38 static struct tdb_context
*cache
;
39 static struct tdb_context
*cache_notrans
;
43 * @brief Generic, persistent and shared between processes cache mechanism
44 * for use by various parts of the Samba code
50 * Cache initialisation function. Opens cache tdb file or creates
51 * it if does not exist.
53 * @return true on successful initialisation of the cache or
57 static bool gencache_init(void)
59 char* cache_fname
= NULL
;
60 int open_flags
= O_RDWR
|O_CREAT
;
61 bool first_try
= true;
63 /* skip file open if it's already opened */
64 if (cache
) return True
;
66 cache_fname
= lock_path("gencache.tdb");
68 DEBUG(5, ("Opening cache file at %s\n", cache_fname
));
71 cache
= tdb_open_log(cache_fname
, 0, TDB_DEFAULT
|TDB_INCOMPATIBLE_HASH
, open_flags
, 0644);
74 ret
= tdb_check(cache
, NULL
, NULL
);
79 DEBUG(0, ("gencache_init: tdb_check(%s) failed\n",
84 DEBUG(0, ("gencache_init: tdb_check(%s) failed - retry after truncate\n",
86 truncate(cache_fname
, 0);
91 if (!cache
&& (errno
== EACCES
)) {
92 open_flags
= O_RDONLY
;
93 cache
= tdb_open_log(cache_fname
, 0, TDB_DEFAULT
|TDB_INCOMPATIBLE_HASH
, open_flags
,
96 DEBUG(5, ("gencache_init: Opening cache file %s read-only.\n", cache_fname
));
101 DEBUG(5, ("Attempt to open gencache.tdb has failed.\n"));
105 cache_fname
= lock_path("gencache_notrans.tdb");
107 DEBUG(5, ("Opening cache file at %s\n", cache_fname
));
109 cache_notrans
= tdb_open_log(cache_fname
, 0,
111 TDB_INCOMPATIBLE_HASH
|
114 if (cache_notrans
== NULL
) {
115 DEBUG(5, ("Opening %s failed: %s\n", cache_fname
,
125 static TDB_DATA
last_stabilize_key(void)
128 result
.dptr
= discard_const_p(uint8_t, "@LAST_STABILIZED");
133 struct gencache_have_val_state
{
135 const DATA_BLOB
*data
;
139 static void gencache_have_val_parser(time_t old_timeout
, DATA_BLOB data
,
142 struct gencache_have_val_state
*state
=
143 (struct gencache_have_val_state
*)private_data
;
144 time_t now
= time(NULL
);
145 int cache_time_left
, new_time_left
, additional_time
;
148 * Excuse the many variables, but these time calculations are
149 * confusing to me. We do not want to write to gencache with a
150 * possibly expensive transaction if we are about to write the same
151 * value, just extending the remaining timeout by less than 10%.
154 cache_time_left
= old_timeout
- now
;
155 if (cache_time_left
<= 0) {
157 * timed out, write new value
162 new_time_left
= state
->new_timeout
- now
;
163 if (new_time_left
<= 0) {
165 * Huh -- no new timeout?? Write it.
170 if (new_time_left
< cache_time_left
) {
172 * Someone wants to shorten the timeout. Let it happen.
178 * By how much does the new timeout extend the remaining cache time?
180 additional_time
= new_time_left
- cache_time_left
;
182 if (additional_time
* 10 < 0) {
184 * Integer overflow. We extend by so much that we have to write it.
190 * The comparison below is essentially equivalent to
192 * new_time_left > cache_time_left * 1.10
194 * but without floating point calculations.
197 if (additional_time
* 10 > cache_time_left
) {
199 * We extend the cache timeout by more than 10%. Do it.
205 * Now the more expensive data compare.
207 if (data_blob_cmp(state
->data
, &data
) != 0) {
209 * Write a new value. Certainly do it.
215 * Extending the timeout by less than 10% for the same cache value is
216 * not worth the trouble writing a value into gencache under a
217 * possibly expensive transaction.
222 static bool gencache_have_val(const char *keystr
, const DATA_BLOB
*data
,
225 struct gencache_have_val_state state
;
227 state
.new_timeout
= timeout
;
231 if (!gencache_parse(keystr
, gencache_have_val_parser
, &state
)) {
238 * Set an entry in the cache file. If there's no such
241 * @param keystr string that represents a key of this entry
242 * @param blob DATA_BLOB value being cached
243 * @param timeout time when the value is expired
245 * @retval true when entry is successfuly stored
246 * @retval false on failure
249 bool gencache_set_data_blob(const char *keystr
, const DATA_BLOB
*blob
,
255 time_t last_stabilize
;
256 static int writecount
;
258 if (tdb_data_cmp(string_term_tdb_data(keystr
),
259 last_stabilize_key()) == 0) {
260 DEBUG(10, ("Can't store %s as a key\n", keystr
));
264 if ((keystr
== NULL
) || (blob
== NULL
)) {
268 if (!gencache_init()) return False
;
270 if (gencache_have_val(keystr
, blob
, timeout
)) {
271 DEBUG(10, ("Did not store value for %s, we already got it\n",
276 val
= talloc_asprintf(talloc_tos(), CACHE_DATA_FMT
, (int)timeout
);
280 val
= talloc_realloc(NULL
, val
, char, talloc_array_length(val
)-1);
284 val
= (char *)talloc_append_blob(NULL
, val
, *blob
);
289 DEBUG(10, ("Adding cache entry with key=[%s] and timeout="
290 "[%s] (%d seconds %s)\n", keystr
,
291 timestring(talloc_tos(), timeout
),
292 (int)(timeout
- time(NULL
)),
293 timeout
> time(NULL
) ? "ahead" : "in the past"));
295 ret
= tdb_store_bystring(
296 cache_notrans
, keystr
,
297 make_tdb_data((uint8_t *)val
, talloc_array_length(val
)),
306 * Every 100 writes within a single process, stabilize the cache with
307 * a transaction. This is done to prevent a single transaction to
308 * become huge and chew lots of memory.
311 if (writecount
> lp_parm_int(-1, "gencache", "stabilize_count", 100)) {
312 gencache_stabilize();
318 * Every 5 minutes, call gencache_stabilize() to not let grow
319 * gencache_notrans.tdb too large.
323 databuf
= tdb_fetch_compat(cache_notrans
, last_stabilize_key());
324 if ((databuf
.dptr
!= NULL
)
325 && (databuf
.dptr
[databuf
.dsize
-1] == '\0')) {
326 last_stabilize
= atoi((char *)databuf
.dptr
);
327 SAFE_FREE(databuf
.dptr
);
330 + lp_parm_int(-1, "gencache", "stabilize_interval", 300))
332 gencache_stabilize();
340 * Delete one entry from the cache file.
342 * @param keystr string that represents a key of this entry
344 * @retval true upon successful deletion
345 * @retval false in case of failure
348 bool gencache_del(const char *keystr
)
350 bool exists
, was_expired
;
354 if (keystr
== NULL
) {
358 if (!gencache_init()) return False
;
360 DEBUG(10, ("Deleting cache entry (key=[%s])\n", keystr
));
363 * We delete an element by setting its timeout to 0. This way we don't
364 * have to do a transaction on gencache.tdb every time we delete an
368 exists
= gencache_get_data_blob(keystr
, &value
, NULL
, &was_expired
);
370 if (!exists
&& was_expired
) {
372 * gencache_get_data_blob has implicitly deleted this
373 * entry, so we have to return success here.
379 data_blob_free(&value
);
380 ret
= gencache_set(keystr
, "", 0);
385 static bool gencache_pull_timeout(char *val
, time_t *pres
, char **pendptr
)
394 res
= strtol(val
, &endptr
, 10);
396 if ((endptr
== NULL
) || (*endptr
!= '/')) {
397 DEBUG(2, ("Invalid gencache data format: %s\n", val
));
403 if (pendptr
!= NULL
) {
409 struct gencache_parse_state
{
410 void (*parser
)(time_t timeout
, DATA_BLOB blob
, void *private_data
);
414 static int gencache_parse_fn(TDB_DATA key
, TDB_DATA data
, void *private_data
)
416 struct gencache_parse_state
*state
;
422 if (data
.dptr
== NULL
) {
425 ret
= gencache_pull_timeout((char *)data
.dptr
, &t
, &endptr
);
429 state
= (struct gencache_parse_state
*)private_data
;
430 blob
= data_blob_const(
431 endptr
+1, data
.dsize
- PTR_DIFF(endptr
+1, data
.dptr
));
432 state
->parser(t
, blob
, state
->private_data
);
436 bool gencache_parse(const char *keystr
,
437 void (*parser
)(time_t timeout
, DATA_BLOB blob
,
441 struct gencache_parse_state state
;
445 if (keystr
== NULL
) {
448 if (tdb_data_cmp(string_term_tdb_data(keystr
),
449 last_stabilize_key()) == 0) {
452 if (!gencache_init()) {
456 key
= string_term_tdb_data(keystr
);
457 state
.parser
= parser
;
458 state
.private_data
= private_data
;
460 ret
= tdb_parse_record(cache_notrans
, key
, gencache_parse_fn
, &state
);
464 ret
= tdb_parse_record(cache
, key
, gencache_parse_fn
, &state
);
468 struct gencache_get_data_blob_state
{
474 static void gencache_get_data_blob_parser(time_t timeout
, DATA_BLOB blob
,
477 struct gencache_get_data_blob_state
*state
=
478 (struct gencache_get_data_blob_state
*)private_data
;
481 state
->result
= false;
484 state
->timeout
= timeout
;
486 if (state
->blob
== NULL
) {
487 state
->result
= true;
491 *state
->blob
= data_blob(blob
.data
, blob
.length
);
492 if (state
->blob
->data
== NULL
) {
493 state
->result
= false;
496 state
->result
= true;
500 * Get existing entry from the cache file.
502 * @param keystr string that represents a key of this entry
503 * @param blob DATA_BLOB that is filled with entry's blob
504 * @param timeout pointer to a time_t that is filled with entry's
507 * @retval true when entry is successfuly fetched
508 * @retval False for failure
511 bool gencache_get_data_blob(const char *keystr
, DATA_BLOB
*blob
,
512 time_t *timeout
, bool *was_expired
)
514 struct gencache_get_data_blob_state state
;
515 bool expired
= false;
517 state
.result
= false;
520 if (!gencache_parse(keystr
, gencache_get_data_blob_parser
, &state
)) {
526 if (state
.timeout
<= time(NULL
)) {
528 * We're expired, delete the entry. We can't use gencache_del
529 * here, because that uses gencache_get_data_blob for checking
530 * the existence of a record. We know the thing exists and
531 * directly store an empty value with 0 timeout.
533 gencache_set(keystr
, "", 0);
538 *timeout
= state
.timeout
;
544 if (was_expired
!= NULL
) {
545 *was_expired
= expired
;
547 if (state
.result
&& state
.blob
) {
548 data_blob_free(state
.blob
);
553 struct stabilize_state
{
557 static int stabilize_fn(struct tdb_context
*tdb
, TDB_DATA key
, TDB_DATA val
,
563 * Migrate the clear-if-first gencache data to the stable,
564 * transaction-based gencache.tdb
567 bool gencache_stabilize(void)
569 struct stabilize_state state
;
573 if (!gencache_init()) {
577 res
= tdb_transaction_start_nonblock(cache
);
579 if (tdb_error(cache
) == TDB_ERR_NOLOCK
)
582 * Someone else already does the stabilize,
583 * this does not have to be done twice
588 DEBUG(10, ("Could not start transaction on gencache.tdb: "
589 "%s\n", tdb_errorstr_compat(cache
)));
592 res
= tdb_transaction_start(cache_notrans
);
594 tdb_transaction_cancel(cache
);
595 DEBUG(10, ("Could not start transaction on "
596 "gencache_notrans.tdb: %s\n",
597 tdb_errorstr_compat(cache_notrans
)));
602 state
.written
= false;
604 res
= tdb_traverse(cache_notrans
, stabilize_fn
, &state
);
605 if ((res
< 0) || state
.error
) {
606 tdb_transaction_cancel(cache_notrans
);
607 tdb_transaction_cancel(cache
);
611 if (!state
.written
) {
612 tdb_transaction_cancel(cache_notrans
);
613 tdb_transaction_cancel(cache
);
617 res
= tdb_transaction_commit(cache
);
619 DEBUG(10, ("tdb_transaction_commit on gencache.tdb failed: "
620 "%s\n", tdb_errorstr_compat(cache
)));
621 tdb_transaction_cancel(cache_notrans
);
625 res
= tdb_transaction_commit(cache_notrans
);
627 DEBUG(10, ("tdb_transaction_commit on gencache.tdb failed: "
628 "%s\n", tdb_errorstr_compat(cache
)));
632 now
= talloc_asprintf(talloc_tos(), "%d", (int)time(NULL
));
634 tdb_store(cache_notrans
, last_stabilize_key(),
635 string_term_tdb_data(now
), 0);
642 static int stabilize_fn(struct tdb_context
*tdb
, TDB_DATA key
, TDB_DATA val
,
645 struct stabilize_state
*state
= (struct stabilize_state
*)priv
;
649 if (tdb_data_cmp(key
, last_stabilize_key()) == 0) {
653 if (!gencache_pull_timeout((char *)val
.dptr
, &timeout
, NULL
)) {
654 DEBUG(10, ("Ignoring invalid entry\n"));
657 if ((timeout
< time(NULL
)) || (val
.dsize
== 0)) {
658 res
= tdb_delete(cache
, key
);
659 if ((res
!= 0) && (tdb_error(cache
) == TDB_ERR_NOEXIST
)) {
662 state
->written
= true;
665 res
= tdb_store(cache
, key
, val
, 0);
667 state
->written
= true;
672 DEBUG(10, ("Transfer to gencache.tdb failed: %s\n",
673 tdb_errorstr_compat(cache
)));
678 if (tdb_delete(cache_notrans
, key
) != 0) {
679 DEBUG(10, ("tdb_delete from gencache_notrans.tdb failed: "
680 "%s\n", tdb_errorstr_compat(cache_notrans
)));
688 * Get existing entry from the cache file.
690 * @param keystr string that represents a key of this entry
691 * @param valstr buffer that is allocated and filled with the entry value
692 * buffer's disposing must be done outside
693 * @param timeout pointer to a time_t that is filled with entry's
696 * @retval true when entry is successfuly fetched
697 * @retval False for failure
700 bool gencache_get(const char *keystr
, char **value
, time_t *ptimeout
)
705 ret
= gencache_get_data_blob(keystr
, &blob
, ptimeout
, NULL
);
709 if ((blob
.data
== NULL
) || (blob
.length
== 0)) {
710 SAFE_FREE(blob
.data
);
713 if (blob
.data
[blob
.length
-1] != '\0') {
714 /* Not NULL terminated, can't be a string */
715 SAFE_FREE(blob
.data
);
719 *value
= SMB_STRDUP((char *)blob
.data
);
720 data_blob_free(&blob
);
721 if (*value
== NULL
) {
726 data_blob_free(&blob
);
731 * Set an entry in the cache file. If there's no such
734 * @param keystr string that represents a key of this entry
735 * @param value text representation value being cached
736 * @param timeout time when the value is expired
738 * @retval true when entry is successfuly stored
739 * @retval false on failure
742 bool gencache_set(const char *keystr
, const char *value
, time_t timeout
)
744 DATA_BLOB blob
= data_blob_const(value
, strlen(value
)+1);
745 return gencache_set_data_blob(keystr
, &blob
, timeout
);
748 struct gencache_iterate_blobs_state
{
749 void (*fn
)(const char *key
, DATA_BLOB value
,
750 time_t timeout
, void *private_data
);
756 static int gencache_iterate_blobs_fn(struct tdb_context
*tdb
, TDB_DATA key
,
757 TDB_DATA data
, void *priv
)
759 struct gencache_iterate_blobs_state
*state
=
760 (struct gencache_iterate_blobs_state
*)priv
;
762 char *free_key
= NULL
;
766 if (tdb_data_cmp(key
, last_stabilize_key()) == 0) {
769 if (state
->in_persistent
&& tdb_exists(cache_notrans
, key
)) {
773 if (key
.dptr
[key
.dsize
-1] == '\0') {
774 keystr
= (char *)key
.dptr
;
776 /* ensure 0-termination */
777 keystr
= SMB_STRNDUP((char *)key
.dptr
, key
.dsize
);
781 if (!gencache_pull_timeout((char *)data
.dptr
, &timeout
, &endptr
)) {
786 if (fnmatch(state
->pattern
, keystr
, 0) != 0) {
790 DEBUG(10, ("Calling function with arguments "
791 "(key=[%s], timeout=[%s])\n",
792 keystr
, timestring(talloc_tos(), timeout
)));
795 data_blob_const(endptr
,
796 data
.dsize
- PTR_DIFF(endptr
, data
.dptr
)),
797 timeout
, state
->private_data
);
804 void gencache_iterate_blobs(void (*fn
)(const char *key
, DATA_BLOB value
,
805 time_t timeout
, void *private_data
),
806 void *private_data
, const char *pattern
)
808 struct gencache_iterate_blobs_state state
;
810 if ((fn
== NULL
) || (pattern
== NULL
) || !gencache_init()) {
814 DEBUG(5, ("Searching cache keys with pattern %s\n", pattern
));
817 state
.pattern
= pattern
;
818 state
.private_data
= private_data
;
820 state
.in_persistent
= false;
821 tdb_traverse(cache_notrans
, gencache_iterate_blobs_fn
, &state
);
823 state
.in_persistent
= true;
824 tdb_traverse(cache
, gencache_iterate_blobs_fn
, &state
);
828 * Iterate through all entries which key matches to specified pattern
830 * @param fn pointer to the function that will be supplied with each single
831 * matching cache entry (key, value and timeout) as an arguments
832 * @param data void pointer to an arbitrary data that is passed directly to the fn
833 * function on each call
834 * @param keystr_pattern pattern the existing entries' keys are matched to
838 struct gencache_iterate_state
{
839 void (*fn
)(const char *key
, const char *value
, time_t timeout
,
844 static void gencache_iterate_fn(const char *key
, DATA_BLOB value
,
845 time_t timeout
, void *private_data
)
847 struct gencache_iterate_state
*state
=
848 (struct gencache_iterate_state
*)private_data
;
850 char *free_val
= NULL
;
852 if (value
.data
[value
.length
-1] == '\0') {
853 valstr
= (char *)value
.data
;
855 /* ensure 0-termination */
856 valstr
= SMB_STRNDUP((char *)value
.data
, value
.length
);
860 DEBUG(10, ("Calling function with arguments "
861 "(key=[%s], value=[%s], timeout=[%s])\n",
862 key
, valstr
, timestring(talloc_tos(), timeout
)));
864 state
->fn(key
, valstr
, timeout
, state
->private_data
);
869 void gencache_iterate(void (*fn
)(const char *key
, const char *value
,
870 time_t timeout
, void *dptr
),
871 void *private_data
, const char *pattern
)
873 struct gencache_iterate_state state
;
879 state
.private_data
= private_data
;
880 gencache_iterate_blobs(gencache_iterate_fn
, &state
, pattern
);