1 /**
2 * collectd - src/utils_cache.c
3 * Copyright (C) 2007-2010 Florian octo Forster
4 *
5 * Permission is hereby granted, free of charge, to any person obtaining a
6 * copy of this software and associated documentation files (the "Software"),
7 * to deal in the Software without restriction, including without limitation
8 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
9 * and/or sell copies of the Software, and to permit persons to whom the
10 * Software is furnished to do so, subject to the following conditions:
11 *
12 * The above copyright notice and this permission notice shall be included in
13 * all copies or substantial portions of the Software.
14 *
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
18 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
20 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
21 * DEALINGS IN THE SOFTWARE.
22 *
23 * Authors:
24 * Florian octo Forster <octo at collectd.org>
25 **/
27 #include "collectd.h"
28 #include "common.h"
29 #include "plugin.h"
30 #include "utils_avltree.h"
31 #include "utils_cache.h"
32 #include "meta_data.h"
34 #include <assert.h>
35 #include <pthread.h>
37 typedef struct cache_entry_s
38 {
39 char name[6 * DATA_MAX_NAME_LEN];
40 int values_num;
41 gauge_t *values_gauge;
42 value_t *values_raw;
43 /* Time contained in the package
44 * (for calculating rates) */
45 cdtime_t last_time;
46 /* Time according to the local clock
47 * (for purging old entries) */
48 cdtime_t last_update;
49 /* Interval in which the data is collected
50 * (for purding old entries) */
51 cdtime_t interval;
52 int state;
53 int hits;
55 /*
56 * +-----+-----+-----+-----+-----+-----+-----+-----+-----+----
57 * ! 0 ! 1 ! 2 ! 3 ! 4 ! 5 ! 6 ! 7 ! 8 ! ...
58 * +-----+-----+-----+-----+-----+-----+-----+-----+-----+----
59 * ! ds0 ! ds1 ! ds2 ! ds0 ! ds1 ! ds2 ! ds0 ! ds1 ! ds2 ! ...
60 * +-----+-----+-----+-----+-----+-----+-----+-----+-----+----
61 * ! t = 0 ! t = 1 ! t = 2 ! ...
62 * +-----------------+-----------------+-----------------+----
63 */
64 gauge_t *history;
65 size_t history_index; /* points to the next position to write to. */
66 size_t history_length;
68 meta_data_t *meta;
69 } cache_entry_t;
71 static c_avl_tree_t *cache_tree = NULL;
72 static pthread_mutex_t cache_lock = PTHREAD_MUTEX_INITIALIZER;
74 static int cache_compare (const cache_entry_t *a, const cache_entry_t *b)
75 {
76 #if COLLECT_DEBUG
77 assert ((a != NULL) && (b != NULL));
78 #endif
79 return (strcmp (a->name, b->name));
80 } /* int cache_compare */
82 static cache_entry_t *cache_alloc (int values_num)
83 {
84 cache_entry_t *ce;
86 ce = (cache_entry_t *) malloc (sizeof (cache_entry_t));
87 if (ce == NULL)
88 {
89 ERROR ("utils_cache: cache_alloc: malloc failed.");
90 return (NULL);
91 }
92 memset (ce, '\0', sizeof (cache_entry_t));
93 ce->values_num = values_num;
95 ce->values_gauge = calloc (values_num, sizeof (*ce->values_gauge));
96 ce->values_raw = calloc (values_num, sizeof (*ce->values_raw));
97 if ((ce->values_gauge == NULL) || (ce->values_raw == NULL))
98 {
99 sfree (ce->values_gauge);
100 sfree (ce->values_raw);
101 sfree (ce);
102 ERROR ("utils_cache: cache_alloc: calloc failed.");
103 return (NULL);
104 }
106 ce->history = NULL;
107 ce->history_length = 0;
108 ce->meta = NULL;
110 return (ce);
111 } /* cache_entry_t *cache_alloc */
113 static void cache_free (cache_entry_t *ce)
114 {
115 if (ce == NULL)
116 return;
118 sfree (ce->values_gauge);
119 sfree (ce->values_raw);
120 sfree (ce->history);
121 if (ce->meta != NULL)
122 {
123 meta_data_destroy (ce->meta);
124 ce->meta = NULL;
125 }
126 sfree (ce);
127 } /* void cache_free */
129 static void uc_check_range (const data_set_t *ds, cache_entry_t *ce)
130 {
131 int i;
133 for (i = 0; i < ds->ds_num; i++)
134 {
135 if (isnan (ce->values_gauge[i]))
136 continue;
137 else if (ce->values_gauge[i] < ds->ds[i].min)
138 ce->values_gauge[i] = NAN;
139 else if (ce->values_gauge[i] > ds->ds[i].max)
140 ce->values_gauge[i] = NAN;
141 }
142 } /* void uc_check_range */
144 static int uc_insert (const data_set_t *ds, const value_list_t *vl,
145 const char *key)
146 {
147 int i;
148 char *key_copy;
149 cache_entry_t *ce;
151 /* `cache_lock' has been locked by `uc_update' */
153 key_copy = strdup (key);
154 if (key_copy == NULL)
155 {
156 ERROR ("uc_insert: strdup failed.");
157 return (-1);
158 }
160 ce = cache_alloc (ds->ds_num);
161 if (ce == NULL)
162 {
163 sfree (key_copy);
164 ERROR ("uc_insert: cache_alloc (%i) failed.", ds->ds_num);
165 return (-1);
166 }
168 sstrncpy (ce->name, key, sizeof (ce->name));
170 for (i = 0; i < ds->ds_num; i++)
171 {
172 switch (ds->ds[i].type)
173 {
174 case DS_TYPE_COUNTER:
175 ce->values_gauge[i] = NAN;
176 ce->values_raw[i].counter = vl->values[i].counter;
177 break;
179 case DS_TYPE_GAUGE:
180 ce->values_gauge[i] = vl->values[i].gauge;
181 ce->values_raw[i].gauge = vl->values[i].gauge;
182 break;
184 case DS_TYPE_DERIVE:
185 ce->values_gauge[i] = NAN;
186 ce->values_raw[i].derive = vl->values[i].derive;
187 break;
189 case DS_TYPE_ABSOLUTE:
190 ce->values_gauge[i] = NAN;
191 if (vl->interval > 0)
192 ce->values_gauge[i] = ((double) vl->values[i].absolute)
193 / CDTIME_T_TO_DOUBLE (vl->interval);
194 ce->values_raw[i].absolute = vl->values[i].absolute;
195 break;
197 default:
198 /* This shouldn't happen. */
199 ERROR ("uc_insert: Don't know how to handle data source type %i.",
200 ds->ds[i].type);
201 sfree (key_copy);
202 return (-1);
203 } /* switch (ds->ds[i].type) */
204 } /* for (i) */
206 /* Prune invalid gauge data */
207 uc_check_range (ds, ce);
209 ce->last_time = vl->time;
210 ce->last_update = cdtime ();
211 ce->interval = vl->interval;
212 ce->state = STATE_OKAY;
214 if (c_avl_insert (cache_tree, key_copy, ce) != 0)
215 {
216 sfree (key_copy);
217 ERROR ("uc_insert: c_avl_insert failed.");
218 return (-1);
219 }
221 DEBUG ("uc_insert: Added %s to the cache.", key);
222 return (0);
223 } /* int uc_insert */
225 int uc_init (void)
226 {
227 if (cache_tree == NULL)
228 cache_tree = c_avl_create ((int (*) (const void *, const void *))
229 cache_compare);
231 return (0);
232 } /* int uc_init */
234 int uc_check_timeout (void)
235 {
236 cdtime_t now;
237 cache_entry_t *ce;
239 char **keys = NULL;
240 cdtime_t *keys_time = NULL;
241 cdtime_t *keys_interval = NULL;
242 int keys_len = 0;
244 char *key;
245 c_avl_iterator_t *iter;
247 int status;
248 int i;
250 pthread_mutex_lock (&cache_lock);
252 now = cdtime ();
254 /* Build a list of entries to be flushed */
255 iter = c_avl_get_iterator (cache_tree);
256 while (c_avl_iterator_next (iter, (void *) &key, (void *) &ce) == 0)
257 {
258 char **tmp;
259 cdtime_t *tmp_time;
261 /* If the entry is fresh enough, continue. */
262 if ((now - ce->last_update) < (ce->interval * timeout_g))
263 continue;
265 /* If entry has not been updated, add to `keys' array */
266 tmp = (char **) realloc ((void *) keys,
267 (keys_len + 1) * sizeof (char *));
268 if (tmp == NULL)
269 {
270 ERROR ("uc_check_timeout: realloc failed.");
271 continue;
272 }
273 keys = tmp;
275 tmp_time = realloc (keys_time, (keys_len + 1) * sizeof (*keys_time));
276 if (tmp_time == NULL)
277 {
278 ERROR ("uc_check_timeout: realloc failed.");
279 continue;
280 }
281 keys_time = tmp_time;
283 tmp_time = realloc (keys_interval, (keys_len + 1) * sizeof (*keys_interval));
284 if (tmp_time == NULL)
285 {
286 ERROR ("uc_check_timeout: realloc failed.");
287 continue;
288 }
289 keys_interval = tmp_time;
291 keys[keys_len] = strdup (key);
292 if (keys[keys_len] == NULL)
293 {
294 ERROR ("uc_check_timeout: strdup failed.");
295 continue;
296 }
297 keys_time[keys_len] = ce->last_time;
298 keys_interval[keys_len] = ce->interval;
300 keys_len++;
301 } /* while (c_avl_iterator_next) */
303 c_avl_iterator_destroy (iter);
304 pthread_mutex_unlock (&cache_lock);
306 if (keys_len == 0)
307 {
308 /* realloc() may have been called for these. */
309 sfree (keys);
310 sfree (keys_time);
311 sfree (keys_interval);
312 return (0);
313 }
315 /* Call the "missing" callback for each value. Do this before removing the
316 * value from the cache, so that callbacks can still access the data stored,
317 * including plugin specific meta data, rates, history, …. This must be done
318 * without holding the lock, otherwise we will run into a deadlock if a
319 * plugin calls the cache interface. */
320 for (i = 0; i < keys_len; i++)
321 {
322 value_list_t vl = VALUE_LIST_INIT;
324 vl.values = NULL;
325 vl.values_len = 0;
326 vl.meta = NULL;
328 status = parse_identifier_vl (keys[i], &vl);
329 if (status != 0)
330 {
331 ERROR ("uc_check_timeout: parse_identifier_vl (\"%s\") failed.", keys[i]);
332 continue;
333 }
335 vl.time = keys_time[i];
336 vl.interval = keys_interval[i];
338 plugin_dispatch_missing (&vl);
339 } /* for (i = 0; i < keys_len; i++) */
341 /* Now actually remove all the values from the cache. We don't re-evaluate
342 * the timestamp again, so in theory it is possible we remove a value after
343 * it is updated here. */
344 pthread_mutex_lock (&cache_lock);
345 for (i = 0; i < keys_len; i++)
346 {
347 key = NULL;
348 ce = NULL;
350 status = c_avl_remove (cache_tree, keys[i],
351 (void *) &key, (void *) &ce);
352 if (status != 0)
353 {
354 ERROR ("uc_check_timeout: c_avl_remove (\"%s\") failed.", keys[i]);
355 sfree (keys[i]);
356 continue;
357 }
359 sfree (keys[i]);
360 sfree (key);
361 cache_free (ce);
362 } /* for (i = 0; i < keys_len; i++) */
363 pthread_mutex_unlock (&cache_lock);
365 sfree (keys);
366 sfree (keys_time);
367 sfree (keys_interval);
369 return (0);
370 } /* int uc_check_timeout */
372 int uc_update (const data_set_t *ds, const value_list_t *vl)
373 {
374 char name[6 * DATA_MAX_NAME_LEN];
375 cache_entry_t *ce = NULL;
376 int status;
377 int i;
379 if (FORMAT_VL (name, sizeof (name), vl) != 0)
380 {
381 ERROR ("uc_update: FORMAT_VL failed.");
382 return (-1);
383 }
385 pthread_mutex_lock (&cache_lock);
387 status = c_avl_get (cache_tree, name, (void *) &ce);
388 if (status != 0) /* entry does not yet exist */
389 {
390 status = uc_insert (ds, vl, name);
391 pthread_mutex_unlock (&cache_lock);
392 return (status);
393 }
395 assert (ce != NULL);
396 assert (ce->values_num == ds->ds_num);
398 if (ce->last_time >= vl->time)
399 {
400 pthread_mutex_unlock (&cache_lock);
401 NOTICE ("uc_update: Value too old: name = %s; value time = %.3f; "
402 "last cache update = %.3f;",
403 name,
404 CDTIME_T_TO_DOUBLE (vl->time),
405 CDTIME_T_TO_DOUBLE (ce->last_time));
406 return (-1);
407 }
409 for (i = 0; i < ds->ds_num; i++)
410 {
411 switch (ds->ds[i].type)
412 {
413 case DS_TYPE_COUNTER:
414 {
415 counter_t diff;
417 /* check if the counter has wrapped around */
418 if (vl->values[i].counter < ce->values_raw[i].counter)
419 {
420 if (ce->values_raw[i].counter <= 4294967295U)
421 diff = (4294967295U - ce->values_raw[i].counter)
422 + vl->values[i].counter;
423 else
424 diff = (18446744073709551615ULL - ce->values_raw[i].counter)
425 + vl->values[i].counter;
426 }
427 else /* counter has NOT wrapped around */
428 {
429 diff = vl->values[i].counter - ce->values_raw[i].counter;
430 }
432 ce->values_gauge[i] = ((double) diff)
433 / (CDTIME_T_TO_DOUBLE (vl->time - ce->last_time));
434 ce->values_raw[i].counter = vl->values[i].counter;
435 }
436 break;
438 case DS_TYPE_GAUGE:
439 ce->values_raw[i].gauge = vl->values[i].gauge;
440 ce->values_gauge[i] = vl->values[i].gauge;
441 break;
443 case DS_TYPE_DERIVE:
444 {
445 derive_t diff;
447 diff = vl->values[i].derive - ce->values_raw[i].derive;
449 ce->values_gauge[i] = ((double) diff)
450 / (CDTIME_T_TO_DOUBLE (vl->time - ce->last_time));
451 ce->values_raw[i].derive = vl->values[i].derive;
452 }
453 break;
455 case DS_TYPE_ABSOLUTE:
456 ce->values_gauge[i] = ((double) vl->values[i].absolute)
457 / (CDTIME_T_TO_DOUBLE (vl->time - ce->last_time));
458 ce->values_raw[i].absolute = vl->values[i].absolute;
459 break;
461 default:
462 /* This shouldn't happen. */
463 pthread_mutex_unlock (&cache_lock);
464 ERROR ("uc_update: Don't know how to handle data source type %i.",
465 ds->ds[i].type);
466 return (-1);
467 } /* switch (ds->ds[i].type) */
469 DEBUG ("uc_update: %s: ds[%i] = %lf", name, i, ce->values_gauge[i]);
470 } /* for (i) */
472 /* Update the history if it exists. */
473 if (ce->history != NULL)
474 {
475 assert (ce->history_index < ce->history_length);
476 for (i = 0; i < ce->values_num; i++)
477 {
478 size_t hist_idx = (ce->values_num * ce->history_index) + i;
479 ce->history[hist_idx] = ce->values_gauge[i];
480 }
482 assert (ce->history_length > 0);
483 ce->history_index = (ce->history_index + 1) % ce->history_length;
484 }
486 /* Prune invalid gauge data */
487 uc_check_range (ds, ce);
489 ce->last_time = vl->time;
490 ce->last_update = cdtime ();
491 ce->interval = vl->interval;
493 pthread_mutex_unlock (&cache_lock);
495 return (0);
496 } /* int uc_update */
498 int uc_get_rate_by_name (const char *name, gauge_t **ret_values, size_t *ret_values_num)
499 {
500 gauge_t *ret = NULL;
501 size_t ret_num = 0;
502 cache_entry_t *ce = NULL;
503 int status = 0;
505 pthread_mutex_lock (&cache_lock);
507 if (c_avl_get (cache_tree, name, (void *) &ce) == 0)
508 {
509 assert (ce != NULL);
511 /* remove missing values from getval */
512 if (ce->state == STATE_MISSING)
513 {
514 status = -1;
515 }
516 else
517 {
518 ret_num = ce->values_num;
519 ret = (gauge_t *) malloc (ret_num * sizeof (gauge_t));
520 if (ret == NULL)
521 {
522 ERROR ("utils_cache: uc_get_rate_by_name: malloc failed.");
523 status = -1;
524 }
525 else
526 {
527 memcpy (ret, ce->values_gauge, ret_num * sizeof (gauge_t));
528 }
529 }
530 }
531 else
532 {
533 DEBUG ("utils_cache: uc_get_rate_by_name: No such value: %s", name);
534 status = -1;
535 }
537 pthread_mutex_unlock (&cache_lock);
539 if (status == 0)
540 {
541 *ret_values = ret;
542 *ret_values_num = ret_num;
543 }
545 return (status);
546 } /* gauge_t *uc_get_rate_by_name */
548 gauge_t *uc_get_rate (const data_set_t *ds, const value_list_t *vl)
549 {
550 char name[6 * DATA_MAX_NAME_LEN];
551 gauge_t *ret = NULL;
552 size_t ret_num = 0;
553 int status;
555 if (FORMAT_VL (name, sizeof (name), vl) != 0)
556 {
557 ERROR ("utils_cache: uc_get_rate: FORMAT_VL failed.");
558 return (NULL);
559 }
561 status = uc_get_rate_by_name (name, &ret, &ret_num);
562 if (status != 0)
563 return (NULL);
565 /* This is important - the caller has no other way of knowing how many
566 * values are returned. */
567 if (ret_num != (size_t) ds->ds_num)
568 {
569 ERROR ("utils_cache: uc_get_rate: ds[%s] has %i values, "
570 "but uc_get_rate_by_name returned %zu.",
571 ds->type, ds->ds_num, ret_num);
572 sfree (ret);
573 return (NULL);
574 }
576 return (ret);
577 } /* gauge_t *uc_get_rate */
579 size_t uc_get_size() {
580 size_t size_arrays = 0;
582 pthread_mutex_lock (&cache_lock);
583 size_arrays = (size_t) c_avl_size (cache_tree);
584 pthread_mutex_unlock (&cache_lock);
586 return (size_arrays);
587 }
589 int uc_get_names (char ***ret_names, cdtime_t **ret_times, size_t *ret_number)
590 {
591 c_avl_iterator_t *iter;
592 char *key;
593 cache_entry_t *value;
595 char **names = NULL;
596 cdtime_t *times = NULL;
597 size_t number = 0;
598 size_t size_arrays = 0;
600 int status = 0;
602 if ((ret_names == NULL) || (ret_number == NULL))
603 return (-1);
605 pthread_mutex_lock (&cache_lock);
607 size_arrays = (size_t) c_avl_size (cache_tree);
608 if (size_arrays < 1)
609 {
610 /* Handle the "no values" case here, to avoid the error message when
611 * calloc() returns NULL. */
612 pthread_mutex_unlock (&cache_lock);
613 return (0);
614 }
616 names = calloc (size_arrays, sizeof (*names));
617 times = calloc (size_arrays, sizeof (*times));
618 if ((names == NULL) || (times == NULL))
619 {
620 ERROR ("uc_get_names: calloc failed.");
621 sfree (names);
622 sfree (times);
623 pthread_mutex_unlock (&cache_lock);
624 return (ENOMEM);
625 }
627 iter = c_avl_get_iterator (cache_tree);
628 while (c_avl_iterator_next (iter, (void *) &key, (void *) &value) == 0)
629 {
630 /* remove missing values when list values */
631 if (value->state == STATE_MISSING)
632 continue;
634 /* c_avl_size does not return a number smaller than the number of elements
635 * returned by c_avl_iterator_next. */
636 assert (number < size_arrays);
638 if (ret_times != NULL)
639 times[number] = value->last_time;
641 names[number] = strdup (key);
642 if (names[number] == NULL)
643 {
644 status = -1;
645 break;
646 }
648 number++;
649 } /* while (c_avl_iterator_next) */
651 c_avl_iterator_destroy (iter);
652 pthread_mutex_unlock (&cache_lock);
654 if (status != 0)
655 {
656 size_t i;
658 for (i = 0; i < number; i++)
659 {
660 sfree (names[i]);
661 }
662 sfree (names);
663 sfree (times);
665 return (-1);
666 }
668 *ret_names = names;
669 if (ret_times != NULL)
670 *ret_times = times;
671 else
672 sfree (times);
673 *ret_number = number;
675 return (0);
676 } /* int uc_get_names */
678 int uc_get_state (const data_set_t *ds, const value_list_t *vl)
679 {
680 char name[6 * DATA_MAX_NAME_LEN];
681 cache_entry_t *ce = NULL;
682 int ret = STATE_ERROR;
684 if (FORMAT_VL (name, sizeof (name), vl) != 0)
685 {
686 ERROR ("uc_get_state: FORMAT_VL failed.");
687 return (STATE_ERROR);
688 }
690 pthread_mutex_lock (&cache_lock);
692 if (c_avl_get (cache_tree, name, (void *) &ce) == 0)
693 {
694 assert (ce != NULL);
695 ret = ce->state;
696 }
698 pthread_mutex_unlock (&cache_lock);
700 return (ret);
701 } /* int uc_get_state */
703 int uc_set_state (const data_set_t *ds, const value_list_t *vl, int state)
704 {
705 char name[6 * DATA_MAX_NAME_LEN];
706 cache_entry_t *ce = NULL;
707 int ret = -1;
709 if (FORMAT_VL (name, sizeof (name), vl) != 0)
710 {
711 ERROR ("uc_get_state: FORMAT_VL failed.");
712 return (STATE_ERROR);
713 }
715 pthread_mutex_lock (&cache_lock);
717 if (c_avl_get (cache_tree, name, (void *) &ce) == 0)
718 {
719 assert (ce != NULL);
720 ret = ce->state;
721 ce->state = state;
722 }
724 pthread_mutex_unlock (&cache_lock);
726 return (ret);
727 } /* int uc_set_state */
729 int uc_get_history_by_name (const char *name,
730 gauge_t *ret_history, size_t num_steps, size_t num_ds)
731 {
732 cache_entry_t *ce = NULL;
733 size_t i;
734 int status = 0;
736 pthread_mutex_lock (&cache_lock);
738 status = c_avl_get (cache_tree, name, (void *) &ce);
739 if (status != 0)
740 {
741 pthread_mutex_unlock (&cache_lock);
742 return (-ENOENT);
743 }
745 if (((size_t) ce->values_num) != num_ds)
746 {
747 pthread_mutex_unlock (&cache_lock);
748 return (-EINVAL);
749 }
751 /* Check if there are enough values available. If not, increase the buffer
752 * size. */
753 if (ce->history_length < num_steps)
754 {
755 gauge_t *tmp;
756 size_t i;
758 tmp = realloc (ce->history, sizeof (*ce->history)
759 * num_steps * ce->values_num);
760 if (tmp == NULL)
761 {
762 pthread_mutex_unlock (&cache_lock);
763 return (-ENOMEM);
764 }
766 for (i = ce->history_length * ce->values_num;
767 i < (num_steps * ce->values_num);
768 i++)
769 tmp[i] = NAN;
771 ce->history = tmp;
772 ce->history_length = num_steps;
773 } /* if (ce->history_length < num_steps) */
775 /* Copy the values to the output buffer. */
776 for (i = 0; i < num_steps; i++)
777 {
778 size_t src_index;
779 size_t dst_index;
781 if (i < ce->history_index)
782 src_index = ce->history_index - (i + 1);
783 else
784 src_index = ce->history_length + ce->history_index - (i + 1);
785 src_index = src_index * num_ds;
787 dst_index = i * num_ds;
789 memcpy (ret_history + dst_index, ce->history + src_index,
790 sizeof (*ret_history) * num_ds);
791 }
793 pthread_mutex_unlock (&cache_lock);
795 return (0);
796 } /* int uc_get_history_by_name */
798 int uc_get_history (const data_set_t *ds, const value_list_t *vl,
799 gauge_t *ret_history, size_t num_steps, size_t num_ds)
800 {
801 char name[6 * DATA_MAX_NAME_LEN];
803 if (FORMAT_VL (name, sizeof (name), vl) != 0)
804 {
805 ERROR ("utils_cache: uc_get_history: FORMAT_VL failed.");
806 return (-1);
807 }
809 return (uc_get_history_by_name (name, ret_history, num_steps, num_ds));
810 } /* int uc_get_history */
812 int uc_get_hits (const data_set_t *ds, const value_list_t *vl)
813 {
814 char name[6 * DATA_MAX_NAME_LEN];
815 cache_entry_t *ce = NULL;
816 int ret = STATE_ERROR;
818 if (FORMAT_VL (name, sizeof (name), vl) != 0)
819 {
820 ERROR ("uc_get_state: FORMAT_VL failed.");
821 return (STATE_ERROR);
822 }
824 pthread_mutex_lock (&cache_lock);
826 if (c_avl_get (cache_tree, name, (void *) &ce) == 0)
827 {
828 assert (ce != NULL);
829 ret = ce->hits;
830 }
832 pthread_mutex_unlock (&cache_lock);
834 return (ret);
835 } /* int uc_get_hits */
837 int uc_set_hits (const data_set_t *ds, const value_list_t *vl, int hits)
838 {
839 char name[6 * DATA_MAX_NAME_LEN];
840 cache_entry_t *ce = NULL;
841 int ret = -1;
843 if (FORMAT_VL (name, sizeof (name), vl) != 0)
844 {
845 ERROR ("uc_get_state: FORMAT_VL failed.");
846 return (STATE_ERROR);
847 }
849 pthread_mutex_lock (&cache_lock);
851 if (c_avl_get (cache_tree, name, (void *) &ce) == 0)
852 {
853 assert (ce != NULL);
854 ret = ce->hits;
855 ce->hits = hits;
856 }
858 pthread_mutex_unlock (&cache_lock);
860 return (ret);
861 } /* int uc_set_hits */
863 int uc_inc_hits (const data_set_t *ds, const value_list_t *vl, int step)
864 {
865 char name[6 * DATA_MAX_NAME_LEN];
866 cache_entry_t *ce = NULL;
867 int ret = -1;
869 if (FORMAT_VL (name, sizeof (name), vl) != 0)
870 {
871 ERROR ("uc_get_state: FORMAT_VL failed.");
872 return (STATE_ERROR);
873 }
875 pthread_mutex_lock (&cache_lock);
877 if (c_avl_get (cache_tree, name, (void *) &ce) == 0)
878 {
879 assert (ce != NULL);
880 ret = ce->hits;
881 ce->hits = ret + step;
882 }
884 pthread_mutex_unlock (&cache_lock);
886 return (ret);
887 } /* int uc_inc_hits */
889 /*
890 * Meta data interface
891 */
892 /* XXX: This function will acquire `cache_lock' but will not free it! */
893 static meta_data_t *uc_get_meta (const value_list_t *vl) /* {{{ */
894 {
895 char name[6 * DATA_MAX_NAME_LEN];
896 cache_entry_t *ce = NULL;
897 int status;
899 status = FORMAT_VL (name, sizeof (name), vl);
900 if (status != 0)
901 {
902 ERROR ("utils_cache: uc_get_meta: FORMAT_VL failed.");
903 return (NULL);
904 }
906 pthread_mutex_lock (&cache_lock);
908 status = c_avl_get (cache_tree, name, (void *) &ce);
909 if (status != 0)
910 {
911 pthread_mutex_unlock (&cache_lock);
912 return (NULL);
913 }
914 assert (ce != NULL);
916 if (ce->meta == NULL)
917 ce->meta = meta_data_create ();
919 if (ce->meta == NULL)
920 pthread_mutex_unlock (&cache_lock);
922 return (ce->meta);
923 } /* }}} meta_data_t *uc_get_meta */
925 /* Sorry about this preprocessor magic, but it really makes this file much
926 * shorter.. */
927 #define UC_WRAP(wrap_function) { \
928 meta_data_t *meta; \
929 int status; \
930 meta = uc_get_meta (vl); \
931 if (meta == NULL) return (-1); \
932 status = wrap_function (meta, key); \
933 pthread_mutex_unlock (&cache_lock); \
934 return (status); \
935 }
936 int uc_meta_data_exists (const value_list_t *vl, const char *key)
937 UC_WRAP (meta_data_exists)
939 int uc_meta_data_delete (const value_list_t *vl, const char *key)
940 UC_WRAP (meta_data_delete)
941 #undef UC_WRAP
943 /* We need a new version of this macro because the following functions take
944 * two argumetns. */
945 #define UC_WRAP(wrap_function) { \
946 meta_data_t *meta; \
947 int status; \
948 meta = uc_get_meta (vl); \
949 if (meta == NULL) return (-1); \
950 status = wrap_function (meta, key, value); \
951 pthread_mutex_unlock (&cache_lock); \
952 return (status); \
953 }
954 int uc_meta_data_add_string (const value_list_t *vl,
955 const char *key,
956 const char *value)
957 UC_WRAP(meta_data_add_string)
958 int uc_meta_data_add_signed_int (const value_list_t *vl,
959 const char *key,
960 int64_t value)
961 UC_WRAP(meta_data_add_signed_int)
962 int uc_meta_data_add_unsigned_int (const value_list_t *vl,
963 const char *key,
964 uint64_t value)
965 UC_WRAP(meta_data_add_unsigned_int)
966 int uc_meta_data_add_double (const value_list_t *vl,
967 const char *key,
968 double value)
969 UC_WRAP(meta_data_add_double)
970 int uc_meta_data_add_boolean (const value_list_t *vl,
971 const char *key,
972 _Bool value)
973 UC_WRAP(meta_data_add_boolean)
975 int uc_meta_data_get_string (const value_list_t *vl,
976 const char *key,
977 char **value)
978 UC_WRAP(meta_data_get_string)
979 int uc_meta_data_get_signed_int (const value_list_t *vl,
980 const char *key,
981 int64_t *value)
982 UC_WRAP(meta_data_get_signed_int)
983 int uc_meta_data_get_unsigned_int (const value_list_t *vl,
984 const char *key,
985 uint64_t *value)
986 UC_WRAP(meta_data_get_unsigned_int)
987 int uc_meta_data_get_double (const value_list_t *vl,
988 const char *key,
989 double *value)
990 UC_WRAP(meta_data_get_double)
991 int uc_meta_data_get_boolean (const value_list_t *vl,
992 const char *key,
993 _Bool *value)
994 UC_WRAP(meta_data_get_boolean)
995 #undef UC_WRAP
997 /* vim: set sw=2 ts=8 sts=2 tw=78 : */