b4fb8554d29df5f9e42c0ac937333878d05193ae
1 /**
2 * collectd - src/utils_threshold.c
3 * Copyright (C) 2007,2008 Florian octo Forster
4 *
5 * This program is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License as published by the
7 * Free Software Foundation; only version 2 of the License is applicable.
8 *
9 * This program is distributed in the hope that it will be useful, but
10 * WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 * General Public License for more details.
13 *
14 * You should have received a copy of the GNU General Public License along
15 * with this program; if not, write to the Free Software Foundation, Inc.,
16 * 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
17 *
18 * Author:
19 * Florian octo Forster <octo at verplant.org>
20 **/
22 #include "collectd.h"
23 #include "common.h"
24 #include "plugin.h"
25 #include "utils_avltree.h"
26 #include "utils_cache.h"
28 #include <assert.h>
29 #include <pthread.h>
31 /*
32 * Private data structures
33 * {{{ */
34 #define UT_FLAG_INVERT 0x01
35 #define UT_FLAG_PERSIST 0x02
37 typedef struct threshold_s
38 {
39 char host[DATA_MAX_NAME_LEN];
40 char plugin[DATA_MAX_NAME_LEN];
41 char plugin_instance[DATA_MAX_NAME_LEN];
42 char type[DATA_MAX_NAME_LEN];
43 char type_instance[DATA_MAX_NAME_LEN];
44 char data_source[DATA_MAX_NAME_LEN];
45 gauge_t warning_min;
46 gauge_t warning_max;
47 gauge_t failure_min;
48 gauge_t failure_max;
49 int flags;
50 struct threshold_s *next;
51 } threshold_t;
52 /* }}} */
54 /*
55 * Private (static) variables
56 * {{{ */
57 static c_avl_tree_t *threshold_tree = NULL;
58 static pthread_mutex_t threshold_lock = PTHREAD_MUTEX_INITIALIZER;
59 /* }}} */
61 /*
62 * Threshold management
63 * ====================
64 * The following functions add, delete, search, etc. configured thresholds to
65 * the underlying AVL trees.
66 * {{{ */
67 static threshold_t *threshold_get (const char *hostname,
68 const char *plugin, const char *plugin_instance,
69 const char *type, const char *type_instance)
70 {
71 char name[6 * DATA_MAX_NAME_LEN];
72 threshold_t *th = NULL;
74 format_name (name, sizeof (name),
75 (hostname == NULL) ? "" : hostname,
76 (plugin == NULL) ? "" : plugin, plugin_instance,
77 (type == NULL) ? "" : type, type_instance);
78 name[sizeof (name) - 1] = '\0';
80 if (c_avl_get (threshold_tree, name, (void *) &th) == 0)
81 return (th);
82 else
83 return (NULL);
84 } /* threshold_t *threshold_get */
86 static int ut_threshold_add (const threshold_t *th)
87 {
88 char name[6 * DATA_MAX_NAME_LEN];
89 char *name_copy;
90 threshold_t *th_copy;
91 threshold_t *th_ptr;
92 int status = 0;
94 if (format_name (name, sizeof (name), th->host,
95 th->plugin, th->plugin_instance,
96 th->type, th->type_instance) != 0)
97 {
98 ERROR ("ut_threshold_add: format_name failed.");
99 return (-1);
100 }
102 name_copy = strdup (name);
103 if (name_copy == NULL)
104 {
105 ERROR ("ut_threshold_add: strdup failed.");
106 return (-1);
107 }
109 th_copy = (threshold_t *) malloc (sizeof (threshold_t));
110 if (th_copy == NULL)
111 {
112 sfree (name_copy);
113 ERROR ("ut_threshold_add: malloc failed.");
114 return (-1);
115 }
116 memcpy (th_copy, th, sizeof (threshold_t));
117 th_ptr = NULL;
119 DEBUG ("ut_threshold_add: Adding entry `%s'", name);
121 pthread_mutex_lock (&threshold_lock);
123 th_ptr = threshold_get (th->host, th->plugin, th->plugin_instance,
124 th->type, th->type_instance);
126 while ((th_ptr != NULL) && (th_ptr->next != NULL))
127 th_ptr = th_ptr->next;
129 if (th_ptr == NULL) /* no such threshold yet */
130 {
131 status = c_avl_insert (threshold_tree, name_copy, th_copy);
132 }
133 else /* th_ptr points to the last threshold in the list */
134 {
135 th_ptr->next = th_copy;
136 /* name_copy isn't needed */
137 sfree (name_copy);
138 }
140 pthread_mutex_unlock (&threshold_lock);
142 if (status != 0)
143 {
144 ERROR ("ut_threshold_add: c_avl_insert (%s) failed.", name);
145 sfree (name_copy);
146 sfree (th_copy);
147 }
149 return (status);
150 } /* int ut_threshold_add */
151 /*
152 * End of the threshold management functions
153 * }}} */
155 /*
156 * Configuration
157 * =============
158 * The following approximately two hundred functions are used to handle the
159 * configuration and fill the threshold list.
160 * {{{ */
161 static int ut_config_type_datasource (threshold_t *th, oconfig_item_t *ci)
162 {
163 if ((ci->values_num != 1)
164 || (ci->values[0].type != OCONFIG_TYPE_STRING))
165 {
166 WARNING ("threshold values: The `DataSource' option needs exactly one "
167 "string argument.");
168 return (-1);
169 }
171 sstrncpy (th->data_source, ci->values[0].value.string,
172 sizeof (th->data_source));
174 return (0);
175 } /* int ut_config_type_datasource */
177 static int ut_config_type_instance (threshold_t *th, oconfig_item_t *ci)
178 {
179 if ((ci->values_num != 1)
180 || (ci->values[0].type != OCONFIG_TYPE_STRING))
181 {
182 WARNING ("threshold values: The `Instance' option needs exactly one "
183 "string argument.");
184 return (-1);
185 }
187 strncpy (th->type_instance, ci->values[0].value.string,
188 sizeof (th->type_instance));
189 th->type_instance[sizeof (th->type_instance) - 1] = '\0';
191 return (0);
192 } /* int ut_config_type_instance */
194 static int ut_config_type_max (threshold_t *th, oconfig_item_t *ci)
195 {
196 if ((ci->values_num != 1)
197 || (ci->values[0].type != OCONFIG_TYPE_NUMBER))
198 {
199 WARNING ("threshold values: The `%s' option needs exactly one "
200 "number argument.", ci->key);
201 return (-1);
202 }
204 if (strcasecmp (ci->key, "WarningMax") == 0)
205 th->warning_max = ci->values[0].value.number;
206 else
207 th->failure_max = ci->values[0].value.number;
209 return (0);
210 } /* int ut_config_type_max */
212 static int ut_config_type_min (threshold_t *th, oconfig_item_t *ci)
213 {
214 if ((ci->values_num != 1)
215 || (ci->values[0].type != OCONFIG_TYPE_NUMBER))
216 {
217 WARNING ("threshold values: The `%s' option needs exactly one "
218 "number argument.", ci->key);
219 return (-1);
220 }
222 if (strcasecmp (ci->key, "WarningMin") == 0)
223 th->warning_min = ci->values[0].value.number;
224 else
225 th->failure_min = ci->values[0].value.number;
227 return (0);
228 } /* int ut_config_type_min */
230 static int ut_config_type_invert (threshold_t *th, oconfig_item_t *ci)
231 {
232 if ((ci->values_num != 1)
233 || (ci->values[0].type != OCONFIG_TYPE_BOOLEAN))
234 {
235 WARNING ("threshold values: The `Invert' option needs exactly one "
236 "boolean argument.");
237 return (-1);
238 }
240 if (ci->values[0].value.boolean)
241 th->flags |= UT_FLAG_INVERT;
242 else
243 th->flags &= ~UT_FLAG_INVERT;
245 return (0);
246 } /* int ut_config_type_invert */
248 static int ut_config_type_persist (threshold_t *th, oconfig_item_t *ci)
249 {
250 if ((ci->values_num != 1)
251 || (ci->values[0].type != OCONFIG_TYPE_BOOLEAN))
252 {
253 WARNING ("threshold values: The `Persist' option needs exactly one "
254 "boolean argument.");
255 return (-1);
256 }
258 if (ci->values[0].value.boolean)
259 th->flags |= UT_FLAG_PERSIST;
260 else
261 th->flags &= ~UT_FLAG_PERSIST;
263 return (0);
264 } /* int ut_config_type_persist */
266 static int ut_config_type (const threshold_t *th_orig, oconfig_item_t *ci)
267 {
268 int i;
269 threshold_t th;
270 int status = 0;
272 if ((ci->values_num != 1)
273 || (ci->values[0].type != OCONFIG_TYPE_STRING))
274 {
275 WARNING ("threshold values: The `Type' block needs exactly one string "
276 "argument.");
277 return (-1);
278 }
280 if (ci->children_num < 1)
281 {
282 WARNING ("threshold values: The `Type' block needs at least one option.");
283 return (-1);
284 }
286 memcpy (&th, th_orig, sizeof (th));
287 strncpy (th.type, ci->values[0].value.string, sizeof (th.type));
288 th.type[sizeof (th.type) - 1] = '\0';
290 th.warning_min = NAN;
291 th.warning_max = NAN;
292 th.failure_min = NAN;
293 th.failure_max = NAN;
295 for (i = 0; i < ci->children_num; i++)
296 {
297 oconfig_item_t *option = ci->children + i;
298 status = 0;
300 if (strcasecmp ("Instance", option->key) == 0)
301 status = ut_config_type_instance (&th, option);
302 else if (strcasecmp ("DataSource", option->key) == 0)
303 status = ut_config_type_datasource (&th, option);
304 else if ((strcasecmp ("WarningMax", option->key) == 0)
305 || (strcasecmp ("FailureMax", option->key) == 0))
306 status = ut_config_type_max (&th, option);
307 else if ((strcasecmp ("WarningMin", option->key) == 0)
308 || (strcasecmp ("FailureMin", option->key) == 0))
309 status = ut_config_type_min (&th, option);
310 else if (strcasecmp ("Invert", option->key) == 0)
311 status = ut_config_type_invert (&th, option);
312 else if (strcasecmp ("Persist", option->key) == 0)
313 status = ut_config_type_persist (&th, option);
314 else
315 {
316 WARNING ("threshold values: Option `%s' not allowed inside a `Type' "
317 "block.", option->key);
318 status = -1;
319 }
321 if (status != 0)
322 break;
323 }
325 if (status == 0)
326 {
327 status = ut_threshold_add (&th);
328 }
330 return (status);
331 } /* int ut_config_type */
333 static int ut_config_plugin_instance (threshold_t *th, oconfig_item_t *ci)
334 {
335 if ((ci->values_num != 1)
336 || (ci->values[0].type != OCONFIG_TYPE_STRING))
337 {
338 WARNING ("threshold values: The `Instance' option needs exactly one "
339 "string argument.");
340 return (-1);
341 }
343 strncpy (th->plugin_instance, ci->values[0].value.string,
344 sizeof (th->plugin_instance));
345 th->plugin_instance[sizeof (th->plugin_instance) - 1] = '\0';
347 return (0);
348 } /* int ut_config_plugin_instance */
350 static int ut_config_plugin (const threshold_t *th_orig, oconfig_item_t *ci)
351 {
352 int i;
353 threshold_t th;
354 int status = 0;
356 if ((ci->values_num != 1)
357 || (ci->values[0].type != OCONFIG_TYPE_STRING))
358 {
359 WARNING ("threshold values: The `Plugin' block needs exactly one string "
360 "argument.");
361 return (-1);
362 }
364 if (ci->children_num < 1)
365 {
366 WARNING ("threshold values: The `Plugin' block needs at least one nested "
367 "block.");
368 return (-1);
369 }
371 memcpy (&th, th_orig, sizeof (th));
372 strncpy (th.plugin, ci->values[0].value.string, sizeof (th.plugin));
373 th.plugin[sizeof (th.plugin) - 1] = '\0';
375 for (i = 0; i < ci->children_num; i++)
376 {
377 oconfig_item_t *option = ci->children + i;
378 status = 0;
380 if (strcasecmp ("Type", option->key) == 0)
381 status = ut_config_type (&th, option);
382 else if (strcasecmp ("Instance", option->key) == 0)
383 status = ut_config_plugin_instance (&th, option);
384 else
385 {
386 WARNING ("threshold values: Option `%s' not allowed inside a `Plugin' "
387 "block.", option->key);
388 status = -1;
389 }
391 if (status != 0)
392 break;
393 }
395 return (status);
396 } /* int ut_config_plugin */
398 static int ut_config_host (const threshold_t *th_orig, oconfig_item_t *ci)
399 {
400 int i;
401 threshold_t th;
402 int status = 0;
404 if ((ci->values_num != 1)
405 || (ci->values[0].type != OCONFIG_TYPE_STRING))
406 {
407 WARNING ("threshold values: The `Host' block needs exactly one string "
408 "argument.");
409 return (-1);
410 }
412 if (ci->children_num < 1)
413 {
414 WARNING ("threshold values: The `Host' block needs at least one nested "
415 "block.");
416 return (-1);
417 }
419 memcpy (&th, th_orig, sizeof (th));
420 strncpy (th.host, ci->values[0].value.string, sizeof (th.host));
421 th.host[sizeof (th.host) - 1] = '\0';
423 for (i = 0; i < ci->children_num; i++)
424 {
425 oconfig_item_t *option = ci->children + i;
426 status = 0;
428 if (strcasecmp ("Type", option->key) == 0)
429 status = ut_config_type (&th, option);
430 else if (strcasecmp ("Plugin", option->key) == 0)
431 status = ut_config_plugin (&th, option);
432 else
433 {
434 WARNING ("threshold values: Option `%s' not allowed inside a `Host' "
435 "block.", option->key);
436 status = -1;
437 }
439 if (status != 0)
440 break;
441 }
443 return (status);
444 } /* int ut_config_host */
446 int ut_config (const oconfig_item_t *ci)
447 {
448 int i;
449 int status = 0;
451 threshold_t th;
453 if (ci->values_num != 0)
454 {
455 ERROR ("threshold values: The `Threshold' block may not have any "
456 "arguments.");
457 return (-1);
458 }
460 if (threshold_tree == NULL)
461 {
462 threshold_tree = c_avl_create ((void *) strcmp);
463 if (threshold_tree == NULL)
464 {
465 ERROR ("ut_config: c_avl_create failed.");
466 return (-1);
467 }
468 }
470 memset (&th, '\0', sizeof (th));
471 th.warning_min = NAN;
472 th.warning_max = NAN;
473 th.failure_min = NAN;
474 th.failure_max = NAN;
476 for (i = 0; i < ci->children_num; i++)
477 {
478 oconfig_item_t *option = ci->children + i;
479 status = 0;
481 if (strcasecmp ("Type", option->key) == 0)
482 status = ut_config_type (&th, option);
483 else if (strcasecmp ("Plugin", option->key) == 0)
484 status = ut_config_plugin (&th, option);
485 else if (strcasecmp ("Host", option->key) == 0)
486 status = ut_config_host (&th, option);
487 else
488 {
489 WARNING ("threshold values: Option `%s' not allowed here.", option->key);
490 status = -1;
491 }
493 if (status != 0)
494 break;
495 }
497 return (status);
498 } /* int um_config */
499 /*
500 * End of the functions used to configure threshold values.
501 */
502 /* }}} */
504 static threshold_t *threshold_search (const data_set_t *ds,
505 const value_list_t *vl)
506 {
507 threshold_t *th;
509 if ((th = threshold_get (vl->host, vl->plugin, vl->plugin_instance,
510 ds->type, vl->type_instance)) != NULL)
511 return (th);
512 else if ((th = threshold_get (vl->host, vl->plugin, vl->plugin_instance,
513 ds->type, NULL)) != NULL)
514 return (th);
515 else if ((th = threshold_get (vl->host, vl->plugin, NULL,
516 ds->type, vl->type_instance)) != NULL)
517 return (th);
518 else if ((th = threshold_get (vl->host, vl->plugin, NULL,
519 ds->type, NULL)) != NULL)
520 return (th);
521 else if ((th = threshold_get (vl->host, "", NULL,
522 ds->type, vl->type_instance)) != NULL)
523 return (th);
524 else if ((th = threshold_get (vl->host, "", NULL,
525 ds->type, NULL)) != NULL)
526 return (th);
527 else if ((th = threshold_get ("", vl->plugin, vl->plugin_instance,
528 ds->type, vl->type_instance)) != NULL)
529 return (th);
530 else if ((th = threshold_get ("", vl->plugin, vl->plugin_instance,
531 ds->type, NULL)) != NULL)
532 return (th);
533 else if ((th = threshold_get ("", vl->plugin, NULL,
534 ds->type, vl->type_instance)) != NULL)
535 return (th);
536 else if ((th = threshold_get ("", vl->plugin, NULL,
537 ds->type, NULL)) != NULL)
538 return (th);
539 else if ((th = threshold_get ("", "", NULL,
540 ds->type, vl->type_instance)) != NULL)
541 return (th);
542 else if ((th = threshold_get ("", "", NULL,
543 ds->type, NULL)) != NULL)
544 return (th);
546 return (NULL);
547 } /* threshold_t *threshold_search */
549 /*
550 * int ut_report_state
551 *
552 * Checks if the `state' differs from the old state and creates a notification
553 * if appropriate.
554 * Does not fail.
555 */
556 static int ut_report_state (const data_set_t *ds,
557 const value_list_t *vl,
558 const threshold_t *th,
559 const gauge_t *values,
560 int ds_index,
561 int state)
562 { /* {{{ */
563 int state_old;
564 notification_t n;
566 char *buf;
567 size_t bufsize;
569 int status;
571 state_old = uc_get_state (ds, vl);
573 /* If the state didn't change, only report if `persistent' is specified and
574 * the state is not `okay'. */
575 if (state == state_old)
576 {
577 if ((th->flags & UT_FLAG_PERSIST) == 0)
578 return (0);
579 else if (state == STATE_OKAY)
580 return (0);
581 }
583 if (state != state_old)
584 uc_set_state (ds, vl, state);
586 NOTIFICATION_INIT_VL (&n, vl, ds);
588 buf = n.message;
589 bufsize = sizeof (n.message);
591 if (state == STATE_OKAY)
592 n.severity = NOTIF_OKAY;
593 else if (state == STATE_WARNING)
594 n.severity = NOTIF_WARNING;
595 else
596 n.severity = NOTIF_FAILURE;
598 n.time = vl->time;
600 status = snprintf (buf, bufsize, "Host %s, plugin %s",
601 vl->host, vl->plugin);
602 buf += status;
603 bufsize -= status;
605 if (vl->plugin_instance[0] != '\0')
606 {
607 status = snprintf (buf, bufsize, " (instance %s)",
608 vl->plugin_instance);
609 buf += status;
610 bufsize -= status;
611 }
613 status = snprintf (buf, bufsize, " type %s", ds->type);
614 buf += status;
615 bufsize -= status;
617 if (vl->type_instance[0] != '\0')
618 {
619 status = snprintf (buf, bufsize, " (instance %s)",
620 vl->type_instance);
621 buf += status;
622 bufsize -= status;
623 }
625 /* Send an okay notification */
626 if (state == STATE_OKAY)
627 {
628 status = snprintf (buf, bufsize, ": All data sources are within range again.");
629 buf += status;
630 bufsize -= status;
631 }
632 else
633 {
634 double min;
635 double max;
637 min = (state == STATE_ERROR) ? th->failure_min : th->warning_min;
638 max = (state == STATE_ERROR) ? th->failure_max : th->warning_max;
640 if (th->flags & UT_FLAG_INVERT)
641 {
642 if (!isnan (min) && !isnan (max))
643 {
644 status = snprintf (buf, bufsize, ": Data source \"%s\" is currently "
645 "%f. That is within the %s region of %f and %f.",
646 ds->ds[ds_index].name, values[ds_index],
647 (state == STATE_ERROR) ? "failure" : "warning",
648 min, min);
649 }
650 else
651 {
652 status = snprintf (buf, bufsize, ": Data source \"%s\" is currently "
653 "%f. That is %s the %s threshold of %f.",
654 ds->ds[ds_index].name, values[ds_index],
655 isnan (min) ? "below" : "above",
656 (state == STATE_ERROR) ? "failure" : "warning",
657 isnan (min) ? max : min);
658 }
659 }
660 else /* is not inverted */
661 {
662 status = snprintf (buf, bufsize, ": Data source \"%s\" is currently "
663 "%f. That is %s the %s threshold of %f.",
664 ds->ds[ds_index].name, values[ds_index],
665 (values[ds_index] < min) ? "below" : "above",
666 (state == STATE_ERROR) ? "failure" : "warning",
667 (values[ds_index] < min) ? min : max);
668 }
669 buf += status;
670 bufsize -= status;
671 }
673 plugin_dispatch_notification (&n);
675 return (0);
676 } /* }}} int ut_report_state */
678 /*
679 * int ut_check_one_data_source
680 *
681 * Checks one data source against the given threshold configuration. If the
682 * `DataSource' option is set in the threshold, and the name does NOT match,
683 * `okay' is returned. If the threshold does match, its failure and warning
684 * min and max values are checked and `failure' or `warning' is returned if
685 * appropriate.
686 * Does not fail.
687 */
688 static int ut_check_one_data_source (const data_set_t *ds,
689 const value_list_t *vl,
690 const threshold_t *th,
691 const gauge_t *values,
692 int ds_index)
693 { /* {{{ */
694 const char *ds_name;
695 int is_warning = 0;
696 int is_failure = 0;
698 /* check if this threshold applies to this data source */
699 ds_name = ds->ds[ds_index].name;
700 if ((th->data_source[0] != 0)
701 && (strcmp (ds_name, th->data_source) != 0))
702 return (STATE_OKAY);
704 if ((th->flags & UT_FLAG_INVERT) != 0)
705 {
706 is_warning--;
707 is_failure--;
708 }
710 if ((!isnan (th->failure_min) && (th->failure_min > values[ds_index]))
711 || (!isnan (th->failure_max) && (th->failure_max < values[ds_index])))
712 is_failure++;
713 if (is_failure != 0)
714 return (STATE_ERROR);
716 if ((!isnan (th->warning_min) && (th->warning_min > values[ds_index]))
717 || (!isnan (th->warning_max) && (th->warning_max < values[ds_index])))
718 is_warning++;
719 if (is_warning != 0)
720 return (STATE_WARNING);
722 return (STATE_OKAY);
723 } /* }}} int ut_check_one_data_source */
725 /*
726 * int ut_check_one_threshold
727 *
728 * Checks all data sources of a value list against the given threshold, using
729 * the ut_check_one_data_source function above. Returns the worst status,
730 * which is `okay' if nothing has failed.
731 * Returns less than zero if the data set doesn't have any data sources.
732 */
733 static int ut_check_one_threshold (const data_set_t *ds,
734 const value_list_t *vl,
735 const threshold_t *th,
736 const gauge_t *values,
737 int *ret_ds_index)
738 { /* {{{ */
739 int ret = -1;
740 int ds_index = -1;
741 int i;
743 for (i = 0; i < ds->ds_num; i++)
744 {
745 int status;
747 status = ut_check_one_data_source (ds, vl, th, values, i);
748 if (ret < status)
749 {
750 ret = status;
751 ds_index = i;
752 }
753 } /* for (ds->ds_num) */
755 if (ret_ds_index != NULL)
756 *ret_ds_index = ds_index;
758 return (ret);
759 } /* }}} int ut_check_one_threshold */
761 /*
762 * int ut_check_threshold (PUBLIC)
763 *
764 * Gets a list of matching thresholds and searches for the worst status by one
765 * of the thresholds. Then reports that status using the ut_report_state
766 * function above.
767 * Returns zero on success and if no threshold has been configured. Returns
768 * less than zero on failure.
769 */
770 int ut_check_threshold (const data_set_t *ds, const value_list_t *vl)
771 { /* {{{ */
772 threshold_t *th;
773 gauge_t *values;
774 int status;
776 int worst_state = -1;
777 threshold_t *worst_th = NULL;
778 int worst_ds_index = -1;
780 if (threshold_tree == NULL)
781 return (0);
783 /* Is this lock really necessary? So far, thresholds are only inserted at
784 * startup. -octo */
785 pthread_mutex_lock (&threshold_lock);
786 th = threshold_search (ds, vl);
787 pthread_mutex_unlock (&threshold_lock);
788 if (th == NULL)
789 return (0);
791 DEBUG ("ut_check_threshold: Found matching threshold(s)");
793 values = uc_get_rate (ds, vl);
794 if (values == NULL)
795 return (0);
797 while (th != NULL)
798 {
799 int ds_index = -1;
801 status = ut_check_one_threshold (ds, vl, th, values, &ds_index);
802 if (status < 0)
803 {
804 ERROR ("ut_check_threshold: ut_check_one_threshold failed.");
805 sfree (values);
806 return (-1);
807 }
809 if (worst_state < status)
810 {
811 worst_state = status;
812 worst_th = th;
813 worst_ds_index = ds_index;
814 }
816 th = th->next;
817 } /* while (th) */
819 status = ut_report_state (ds, vl, worst_th, values,
820 worst_ds_index, worst_state);
821 if (status != 0)
822 {
823 ERROR ("ut_check_threshold: ut_report_state failed.");
824 sfree (values);
825 return (-1);
826 }
828 sfree (values);
830 return (0);
831 } /* }}} int ut_check_threshold */
833 int ut_check_interesting (const char *name)
834 {
835 char *name_copy = NULL;
836 char *host = NULL;
837 char *plugin = NULL;
838 char *plugin_instance = NULL;
839 char *type = NULL;
840 char *type_instance = NULL;
841 int status;
842 data_set_t ds;
843 value_list_t vl;
844 threshold_t *th;
846 /* If there is no tree nothing is interesting. */
847 if (threshold_tree == NULL)
848 return (0);
850 name_copy = strdup (name);
851 if (name_copy == NULL)
852 {
853 ERROR ("ut_check_interesting: strdup failed.");
854 return (-1);
855 }
857 status = parse_identifier (name_copy, &host,
858 &plugin, &plugin_instance, &type, &type_instance);
859 if (status != 0)
860 {
861 ERROR ("ut_check_interesting: parse_identifier failed.");
862 return (-1);
863 }
865 memset (&ds, '\0', sizeof (ds));
866 memset (&vl, '\0', sizeof (vl));
868 strncpy (vl.host, host, sizeof (vl.host));
869 vl.host[sizeof (vl.host) - 1] = '\0';
870 strncpy (vl.plugin, plugin, sizeof (vl.plugin));
871 vl.plugin[sizeof (vl.plugin) - 1] = '\0';
872 if (plugin_instance != NULL)
873 {
874 strncpy (vl.plugin_instance, plugin_instance, sizeof (vl.plugin_instance));
875 vl.plugin_instance[sizeof (vl.plugin_instance) - 1] = '\0';
876 }
877 strncpy (ds.type, type, sizeof (ds.type));
878 ds.type[sizeof (ds.type) - 1] = '\0';
879 if (type_instance != NULL)
880 {
881 strncpy (vl.type_instance, type_instance, sizeof (vl.type_instance));
882 vl.type_instance[sizeof (vl.type_instance) - 1] = '\0';
883 }
885 sfree (name_copy);
886 host = plugin = plugin_instance = type = type_instance = NULL;
888 th = threshold_search (&ds, &vl);
889 if (th == NULL)
890 return (0);
891 if ((th->flags & UT_FLAG_PERSIST) == 0)
892 return (1);
893 return (2);
894 } /* int ut_check_interesting */
896 /* vim: set sw=2 ts=8 sts=2 tw=78 fdm=marker : */