From: Florian Forster Date: Mon, 7 Feb 2011 07:47:35 +0000 (+0100) Subject: Merge branch 'collectd-4.10' into collectd-5.0 X-Git-Tag: collectd-5.0.0~5 X-Git-Url: https://git.tokkee.org/?a=commitdiff_plain;h=4dc9287f4de0283ae986444377075dcbdada2871;p=collectd.git Merge branch 'collectd-4.10' into collectd-5.0 --- 4dc9287f4de0283ae986444377075dcbdada2871 diff --cc src/threshold.c index 369051a2,00000000..277b4538 mode 100644,000000..100644 --- a/src/threshold.c +++ b/src/threshold.c @@@ -1,1000 -1,0 +1,1026 @@@ +/** + * collectd - src/threshold.c + * Copyright (C) 2007-2010 Florian Forster + * Copyright (C) 2008-2009 Sebastian Harl + * Copyright (C) 2009 Andrés J. Díaz + * + * This program is free software; you can redistribute it and/or modify it + * under the terms of the GNU General Public License as published by the + * Free Software Foundation; only version 2 of the License is applicable. + * + * This program is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * General Public License for more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA + * + * Author: + * Florian octo Forster + * Sebastian Harl + * Andrés J. Díaz + **/ + +#include "collectd.h" +#include "common.h" +#include "plugin.h" +#include "utils_avltree.h" +#include "utils_cache.h" + +#include +#include + +/* + * Private data structures + * {{{ */ +#define UT_FLAG_INVERT 0x01 +#define UT_FLAG_PERSIST 0x02 +#define UT_FLAG_PERCENTAGE 0x04 +#define UT_FLAG_INTERESTING 0x08 +typedef struct threshold_s +{ + char host[DATA_MAX_NAME_LEN]; + char plugin[DATA_MAX_NAME_LEN]; + char plugin_instance[DATA_MAX_NAME_LEN]; + char type[DATA_MAX_NAME_LEN]; + char type_instance[DATA_MAX_NAME_LEN]; + char data_source[DATA_MAX_NAME_LEN]; + gauge_t warning_min; + gauge_t warning_max; + gauge_t failure_min; + gauge_t failure_max; + gauge_t hysteresis; + unsigned int flags; + int hits; + struct threshold_s *next; +} threshold_t; +/* }}} */ + +/* + * Private (static) variables + * {{{ */ +static c_avl_tree_t *threshold_tree = NULL; +static pthread_mutex_t threshold_lock = PTHREAD_MUTEX_INITIALIZER; +/* }}} */ + +/* + * Threshold management + * ==================== + * The following functions add, delete, search, etc. configured thresholds to + * the underlying AVL trees. + */ +/* + * threshold_t *threshold_get + * + * Retrieve one specific threshold configuration. For looking up a threshold + * matching a value_list_t, see "threshold_search" below. Returns NULL if the + * specified threshold doesn't exist. + */ +static threshold_t *threshold_get (const char *hostname, + const char *plugin, const char *plugin_instance, + const char *type, const char *type_instance) +{ /* {{{ */ + char name[6 * DATA_MAX_NAME_LEN]; + threshold_t *th = NULL; + + format_name (name, sizeof (name), + (hostname == NULL) ? "" : hostname, + (plugin == NULL) ? "" : plugin, plugin_instance, + (type == NULL) ? "" : type, type_instance); + name[sizeof (name) - 1] = '\0'; + + if (c_avl_get (threshold_tree, name, (void *) &th) == 0) + return (th); + else + return (NULL); +} /* }}} threshold_t *threshold_get */ + +/* + * int ut_threshold_add + * + * Adds a threshold configuration to the list of thresholds. The threshold_t + * structure is copied and may be destroyed after this call. Returns zero on + * success, non-zero otherwise. + */ +static int ut_threshold_add (const threshold_t *th) +{ /* {{{ */ + char name[6 * DATA_MAX_NAME_LEN]; + char *name_copy; + threshold_t *th_copy; + threshold_t *th_ptr; + int status = 0; + + if (format_name (name, sizeof (name), th->host, + th->plugin, th->plugin_instance, + th->type, th->type_instance) != 0) + { + ERROR ("ut_threshold_add: format_name failed."); + return (-1); + } + + name_copy = strdup (name); + if (name_copy == NULL) + { + ERROR ("ut_threshold_add: strdup failed."); + return (-1); + } + + th_copy = (threshold_t *) malloc (sizeof (threshold_t)); + if (th_copy == NULL) + { + sfree (name_copy); + ERROR ("ut_threshold_add: malloc failed."); + return (-1); + } + memcpy (th_copy, th, sizeof (threshold_t)); + th_ptr = NULL; + + DEBUG ("ut_threshold_add: Adding entry `%s'", name); + + pthread_mutex_lock (&threshold_lock); + + th_ptr = threshold_get (th->host, th->plugin, th->plugin_instance, + th->type, th->type_instance); + + while ((th_ptr != NULL) && (th_ptr->next != NULL)) + th_ptr = th_ptr->next; + + if (th_ptr == NULL) /* no such threshold yet */ + { + status = c_avl_insert (threshold_tree, name_copy, th_copy); + } + else /* th_ptr points to the last threshold in the list */ + { + th_ptr->next = th_copy; + /* name_copy isn't needed */ + sfree (name_copy); + } + + pthread_mutex_unlock (&threshold_lock); + + if (status != 0) + { + ERROR ("ut_threshold_add: c_avl_insert (%s) failed.", name); + sfree (name_copy); + sfree (th_copy); + } + + return (status); +} /* }}} int ut_threshold_add */ + +/* + * threshold_t *threshold_search + * + * Searches for a threshold configuration using all the possible variations of + * "Host", "Plugin" and "Type" blocks. Returns NULL if no threshold could be + * found. + * XXX: This is likely the least efficient function in collectd. + */ +static threshold_t *threshold_search (const value_list_t *vl) +{ /* {{{ */ + threshold_t *th; + + if ((th = threshold_get (vl->host, vl->plugin, vl->plugin_instance, + vl->type, vl->type_instance)) != NULL) + return (th); + else if ((th = threshold_get (vl->host, vl->plugin, vl->plugin_instance, + vl->type, NULL)) != NULL) + return (th); + else if ((th = threshold_get (vl->host, vl->plugin, NULL, + vl->type, vl->type_instance)) != NULL) + return (th); + else if ((th = threshold_get (vl->host, vl->plugin, NULL, + vl->type, NULL)) != NULL) + return (th); + else if ((th = threshold_get (vl->host, "", NULL, + vl->type, vl->type_instance)) != NULL) + return (th); + else if ((th = threshold_get (vl->host, "", NULL, + vl->type, NULL)) != NULL) + return (th); + else if ((th = threshold_get ("", vl->plugin, vl->plugin_instance, + vl->type, vl->type_instance)) != NULL) + return (th); + else if ((th = threshold_get ("", vl->plugin, vl->plugin_instance, + vl->type, NULL)) != NULL) + return (th); + else if ((th = threshold_get ("", vl->plugin, NULL, + vl->type, vl->type_instance)) != NULL) + return (th); + else if ((th = threshold_get ("", vl->plugin, NULL, + vl->type, NULL)) != NULL) + return (th); + else if ((th = threshold_get ("", "", NULL, + vl->type, vl->type_instance)) != NULL) + return (th); + else if ((th = threshold_get ("", "", NULL, + vl->type, NULL)) != NULL) + return (th); + + return (NULL); +} /* }}} threshold_t *threshold_search */ + +/* + * Configuration + * ============= + * The following approximately two hundred functions are used to handle the + * configuration and fill the threshold list. + * {{{ */ +static int ut_config_type_datasource (threshold_t *th, oconfig_item_t *ci) +{ + if ((ci->values_num != 1) + || (ci->values[0].type != OCONFIG_TYPE_STRING)) + { + WARNING ("threshold values: The `DataSource' option needs exactly one " + "string argument."); + return (-1); + } + + sstrncpy (th->data_source, ci->values[0].value.string, + sizeof (th->data_source)); + + return (0); +} /* int ut_config_type_datasource */ + +static int ut_config_type_instance (threshold_t *th, oconfig_item_t *ci) +{ + if ((ci->values_num != 1) + || (ci->values[0].type != OCONFIG_TYPE_STRING)) + { + WARNING ("threshold values: The `Instance' option needs exactly one " + "string argument."); + return (-1); + } + + sstrncpy (th->type_instance, ci->values[0].value.string, + sizeof (th->type_instance)); + + return (0); +} /* int ut_config_type_instance */ + +static int ut_config_type_max (threshold_t *th, oconfig_item_t *ci) +{ + if ((ci->values_num != 1) + || (ci->values[0].type != OCONFIG_TYPE_NUMBER)) + { + WARNING ("threshold values: The `%s' option needs exactly one " + "number argument.", ci->key); + return (-1); + } + + if (strcasecmp (ci->key, "WarningMax") == 0) + th->warning_max = ci->values[0].value.number; + else + th->failure_max = ci->values[0].value.number; + + return (0); +} /* int ut_config_type_max */ + +static int ut_config_type_min (threshold_t *th, oconfig_item_t *ci) +{ + if ((ci->values_num != 1) + || (ci->values[0].type != OCONFIG_TYPE_NUMBER)) + { + WARNING ("threshold values: The `%s' option needs exactly one " + "number argument.", ci->key); + return (-1); + } + + if (strcasecmp (ci->key, "WarningMin") == 0) + th->warning_min = ci->values[0].value.number; + else + th->failure_min = ci->values[0].value.number; + + return (0); +} /* int ut_config_type_min */ + +static int ut_config_type_hits (threshold_t *th, oconfig_item_t *ci) +{ + if ((ci->values_num != 1) + || (ci->values[0].type != OCONFIG_TYPE_NUMBER)) + { + WARNING ("threshold values: The `%s' option needs exactly one " + "number argument.", ci->key); + return (-1); + } + + th->hits = ci->values[0].value.number; + + return (0); +} /* int ut_config_type_hits */ + +static int ut_config_type_hysteresis (threshold_t *th, oconfig_item_t *ci) +{ + if ((ci->values_num != 1) + || (ci->values[0].type != OCONFIG_TYPE_NUMBER)) + { + WARNING ("threshold values: The `%s' option needs exactly one " + "number argument.", ci->key); + return (-1); + } + + th->hysteresis = ci->values[0].value.number; + + return (0); +} /* int ut_config_type_hysteresis */ + +static int ut_config_type (const threshold_t *th_orig, oconfig_item_t *ci) +{ + int i; + threshold_t th; + int status = 0; + + if ((ci->values_num != 1) + || (ci->values[0].type != OCONFIG_TYPE_STRING)) + { + WARNING ("threshold values: The `Type' block needs exactly one string " + "argument."); + return (-1); + } + + if (ci->children_num < 1) + { + WARNING ("threshold values: The `Type' block needs at least one option."); + return (-1); + } + + memcpy (&th, th_orig, sizeof (th)); + sstrncpy (th.type, ci->values[0].value.string, sizeof (th.type)); + + th.warning_min = NAN; + th.warning_max = NAN; + th.failure_min = NAN; + th.failure_max = NAN; + th.hits = 0; + th.hysteresis = 0; + th.flags = UT_FLAG_INTERESTING; /* interesting by default */ + + for (i = 0; i < ci->children_num; i++) + { + oconfig_item_t *option = ci->children + i; + status = 0; + + if (strcasecmp ("Instance", option->key) == 0) + status = ut_config_type_instance (&th, option); + else if (strcasecmp ("DataSource", option->key) == 0) + status = ut_config_type_datasource (&th, option); + else if ((strcasecmp ("WarningMax", option->key) == 0) + || (strcasecmp ("FailureMax", option->key) == 0)) + status = ut_config_type_max (&th, option); + else if ((strcasecmp ("WarningMin", option->key) == 0) + || (strcasecmp ("FailureMin", option->key) == 0)) + status = ut_config_type_min (&th, option); + else if (strcasecmp ("Interesting", option->key) == 0) + status = cf_util_get_flag (option, &th.flags, UT_FLAG_INTERESTING); + else if (strcasecmp ("Invert", option->key) == 0) + status = cf_util_get_flag (option, &th.flags, UT_FLAG_INVERT); + else if (strcasecmp ("Persist", option->key) == 0) + status = cf_util_get_flag (option, &th.flags, UT_FLAG_PERSIST); + else if (strcasecmp ("Percentage", option->key) == 0) + status = cf_util_get_flag (option, &th.flags, UT_FLAG_PERCENTAGE); + else if (strcasecmp ("Hits", option->key) == 0) + status = ut_config_type_hits (&th, option); + else if (strcasecmp ("Hysteresis", option->key) == 0) + status = ut_config_type_hysteresis (&th, option); + else + { + WARNING ("threshold values: Option `%s' not allowed inside a `Type' " + "block.", option->key); + status = -1; + } + + if (status != 0) + break; + } + + if (status == 0) + { + status = ut_threshold_add (&th); + } + + return (status); +} /* int ut_config_type */ + +static int ut_config_plugin_instance (threshold_t *th, oconfig_item_t *ci) +{ + if ((ci->values_num != 1) + || (ci->values[0].type != OCONFIG_TYPE_STRING)) + { + WARNING ("threshold values: The `Instance' option needs exactly one " + "string argument."); + return (-1); + } + + sstrncpy (th->plugin_instance, ci->values[0].value.string, + sizeof (th->plugin_instance)); + + return (0); +} /* int ut_config_plugin_instance */ + +static int ut_config_plugin (const threshold_t *th_orig, oconfig_item_t *ci) +{ + int i; + threshold_t th; + int status = 0; + + if ((ci->values_num != 1) + || (ci->values[0].type != OCONFIG_TYPE_STRING)) + { + WARNING ("threshold values: The `Plugin' block needs exactly one string " + "argument."); + return (-1); + } + + if (ci->children_num < 1) + { + WARNING ("threshold values: The `Plugin' block needs at least one nested " + "block."); + return (-1); + } + + memcpy (&th, th_orig, sizeof (th)); + sstrncpy (th.plugin, ci->values[0].value.string, sizeof (th.plugin)); + + for (i = 0; i < ci->children_num; i++) + { + oconfig_item_t *option = ci->children + i; + status = 0; + + if (strcasecmp ("Type", option->key) == 0) + status = ut_config_type (&th, option); + else if (strcasecmp ("Instance", option->key) == 0) + status = ut_config_plugin_instance (&th, option); + else + { + WARNING ("threshold values: Option `%s' not allowed inside a `Plugin' " + "block.", option->key); + status = -1; + } + + if (status != 0) + break; + } + + return (status); +} /* int ut_config_plugin */ + +static int ut_config_host (const threshold_t *th_orig, oconfig_item_t *ci) +{ + int i; + threshold_t th; + int status = 0; + + if ((ci->values_num != 1) + || (ci->values[0].type != OCONFIG_TYPE_STRING)) + { + WARNING ("threshold values: The `Host' block needs exactly one string " + "argument."); + return (-1); + } + + if (ci->children_num < 1) + { + WARNING ("threshold values: The `Host' block needs at least one nested " + "block."); + return (-1); + } + + memcpy (&th, th_orig, sizeof (th)); + sstrncpy (th.host, ci->values[0].value.string, sizeof (th.host)); + + for (i = 0; i < ci->children_num; i++) + { + oconfig_item_t *option = ci->children + i; + status = 0; + + if (strcasecmp ("Type", option->key) == 0) + status = ut_config_type (&th, option); + else if (strcasecmp ("Plugin", option->key) == 0) + status = ut_config_plugin (&th, option); + else + { + WARNING ("threshold values: Option `%s' not allowed inside a `Host' " + "block.", option->key); + status = -1; + } + + if (status != 0) + break; + } + + return (status); +} /* int ut_config_host */ + +int ut_config (oconfig_item_t *ci) +{ + int i; + int status = 0; + + threshold_t th; + + if (ci->values_num != 0) + { + ERROR ("threshold values: The `Threshold' block may not have any " + "arguments."); + return (-1); + } + + if (threshold_tree == NULL) + { + threshold_tree = c_avl_create ((void *) strcmp); + if (threshold_tree == NULL) + { + ERROR ("ut_config: c_avl_create failed."); + return (-1); + } + } + + memset (&th, '\0', sizeof (th)); + th.warning_min = NAN; + th.warning_max = NAN; + th.failure_min = NAN; + th.failure_max = NAN; + + th.hits = 0; + th.hysteresis = 0; + th.flags = UT_FLAG_INTERESTING; /* interesting by default */ + + for (i = 0; i < ci->children_num; i++) + { + oconfig_item_t *option = ci->children + i; + status = 0; + + if (strcasecmp ("Type", option->key) == 0) + status = ut_config_type (&th, option); + else if (strcasecmp ("Plugin", option->key) == 0) + status = ut_config_plugin (&th, option); + else if (strcasecmp ("Host", option->key) == 0) + status = ut_config_host (&th, option); + else + { + WARNING ("threshold values: Option `%s' not allowed here.", option->key); + status = -1; + } + + if (status != 0) + break; + } + + return (status); +} /* int um_config */ +/* + * End of the functions used to configure threshold values. + */ +/* }}} */ + +/* + * int ut_report_state + * + * Checks if the `state' differs from the old state and creates a notification + * if appropriate. + * Does not fail. + */ +static int ut_report_state (const data_set_t *ds, + const value_list_t *vl, + const threshold_t *th, + const gauge_t *values, + int ds_index, + int state) +{ /* {{{ */ + int state_old; + notification_t n; + + char *buf; + size_t bufsize; + + int status; + + /* Check if hits matched */ + if ( (th->hits != 0) ) + { + int hits = uc_get_hits(ds,vl); + /* The STATE_OKAY always reset hits, or if hits reaise the limit */ + if ( (state == STATE_OKAY) || (hits > th->hits) ) + { + DEBUG("ut_report_state: reset uc_get_hits = 0"); + uc_set_hits(ds,vl,0); /* reset hit counter and notify */ + } else { + DEBUG("ut_report_state: th->hits = %d, uc_get_hits = %d",th->hits,uc_get_hits(ds,vl)); + (void) uc_inc_hits(ds,vl,1); /* increase hit counter */ + return (0); + } + } /* end check hits */ + + state_old = uc_get_state (ds, vl); + + /* If the state didn't change, only report if `persistent' is specified and + * the state is not `okay'. */ + if (state == state_old) + { + if ((th->flags & UT_FLAG_PERSIST) == 0) + return (0); + else if (state == STATE_OKAY) + return (0); + } + + if (state != state_old) + uc_set_state (ds, vl, state); + + NOTIFICATION_INIT_VL (&n, vl); + + buf = n.message; + bufsize = sizeof (n.message); + + if (state == STATE_OKAY) + n.severity = NOTIF_OKAY; + else if (state == STATE_WARNING) + n.severity = NOTIF_WARNING; + else + n.severity = NOTIF_FAILURE; + + n.time = vl->time; + + status = ssnprintf (buf, bufsize, "Host %s, plugin %s", + vl->host, vl->plugin); + buf += status; + bufsize -= status; + + if (vl->plugin_instance[0] != '\0') + { + status = ssnprintf (buf, bufsize, " (instance %s)", + vl->plugin_instance); + buf += status; + bufsize -= status; + } + + status = ssnprintf (buf, bufsize, " type %s", vl->type); + buf += status; + bufsize -= status; + + if (vl->type_instance[0] != '\0') + { + status = ssnprintf (buf, bufsize, " (instance %s)", + vl->type_instance); + buf += status; + bufsize -= status; + } + + plugin_notification_meta_add_string (&n, "DataSource", + ds->ds[ds_index].name); + plugin_notification_meta_add_double (&n, "CurrentValue", values[ds_index]); + plugin_notification_meta_add_double (&n, "WarningMin", th->warning_min); + plugin_notification_meta_add_double (&n, "WarningMax", th->warning_max); + plugin_notification_meta_add_double (&n, "FailureMin", th->failure_min); + plugin_notification_meta_add_double (&n, "FailureMax", th->failure_max); + + /* Send an okay notification */ + if (state == STATE_OKAY) + { + if (state_old == STATE_MISSING) + status = ssnprintf (buf, bufsize, + ": Value is no longer missing."); + else + status = ssnprintf (buf, bufsize, + ": All data sources are within range again."); + buf += status; + bufsize -= status; + } + else + { + double min; + double max; + + min = (state == STATE_ERROR) ? th->failure_min : th->warning_min; + max = (state == STATE_ERROR) ? th->failure_max : th->warning_max; + + if (th->flags & UT_FLAG_INVERT) + { + if (!isnan (min) && !isnan (max)) + { + status = ssnprintf (buf, bufsize, ": Data source \"%s\" is currently " + "%f. That is within the %s region of %f%s and %f%s.", + ds->ds[ds_index].name, values[ds_index], + (state == STATE_ERROR) ? "failure" : "warning", + min, ((th->flags & UT_FLAG_PERCENTAGE) != 0) ? "%" : "", + max, ((th->flags & UT_FLAG_PERCENTAGE) != 0) ? "%" : ""); + } + else + { + status = ssnprintf (buf, bufsize, ": Data source \"%s\" is currently " + "%f. That is %s the %s threshold of %f%s.", + ds->ds[ds_index].name, values[ds_index], + isnan (min) ? "below" : "above", + (state == STATE_ERROR) ? "failure" : "warning", + isnan (min) ? max : min, + ((th->flags & UT_FLAG_PERCENTAGE) != 0) ? "%" : ""); + } + } ++ else if (th->flags & UT_FLAG_PERCENTAGE) ++ { ++ gauge_t value; ++ gauge_t sum; ++ int i; ++ ++ sum = 0.0; ++ for (i = 0; i < vl->values_len; i++) ++ { ++ if (isnan (values[i])) ++ continue; ++ ++ sum += values[i]; ++ } ++ ++ if (sum == 0.0) ++ value = NAN; ++ else ++ value = 100.0 * values[ds_index] / sum; ++ ++ status = ssnprintf (buf, bufsize, ": Data source \"%s\" is currently " ++ "%g (%.2f%%). That is %s the %s threshold of %.2f%%.", ++ ds->ds[ds_index].name, values[ds_index], value, ++ (value < min) ? "below" : "above", ++ (state == STATE_ERROR) ? "failure" : "warning", ++ (value < min) ? min : max); ++ } + else /* is not inverted */ + { + status = ssnprintf (buf, bufsize, ": Data source \"%s\" is currently " - "%f. That is %s the %s threshold of %f%s.", ++ "%f. That is %s the %s threshold of %f.", + ds->ds[ds_index].name, values[ds_index], + (values[ds_index] < min) ? "below" : "above", + (state == STATE_ERROR) ? "failure" : "warning", - (values[ds_index] < min) ? min : max, - ((th->flags & UT_FLAG_PERCENTAGE) != 0) ? "%" : ""); ++ (values[ds_index] < min) ? min : max); + } + buf += status; + bufsize -= status; + } + + plugin_dispatch_notification (&n); + + plugin_notification_meta_free (n.meta); + return (0); +} /* }}} int ut_report_state */ + +/* + * int ut_check_one_data_source + * + * Checks one data source against the given threshold configuration. If the + * `DataSource' option is set in the threshold, and the name does NOT match, + * `okay' is returned. If the threshold does match, its failure and warning + * min and max values are checked and `failure' or `warning' is returned if + * appropriate. + * Does not fail. + */ +static int ut_check_one_data_source (const data_set_t *ds, + const value_list_t __attribute__((unused)) *vl, + const threshold_t *th, + const gauge_t *values, + int ds_index) +{ /* {{{ */ + const char *ds_name; + int is_warning = 0; + int is_failure = 0; + int prev_state = STATE_OKAY; + + /* check if this threshold applies to this data source */ + if (ds != NULL) + { + ds_name = ds->ds[ds_index].name; + if ((th->data_source[0] != 0) + && (strcmp (ds_name, th->data_source) != 0)) + return (STATE_OKAY); + } + + if ((th->flags & UT_FLAG_INVERT) != 0) + { + is_warning--; + is_failure--; + } + + /* XXX: This is an experimental code, not optimized, not fast, not reliable, + * and probably, do not work as you expect. Enjoy! :D */ + if ( (th->hysteresis > 0) && ((prev_state = uc_get_state(ds,vl)) != STATE_OKAY) ) + { + switch(prev_state) + { + case STATE_ERROR: + if ( (!isnan (th->failure_min) && ((th->failure_min + th->hysteresis) < values[ds_index])) || + (!isnan (th->failure_max) && ((th->failure_max - th->hysteresis) > values[ds_index])) ) + return (STATE_OKAY); + else + is_failure++; + case STATE_WARNING: + if ( (!isnan (th->warning_min) && ((th->warning_min + th->hysteresis) < values[ds_index])) || + (!isnan (th->warning_max) && ((th->warning_max - th->hysteresis) > values[ds_index])) ) + return (STATE_OKAY); + else + is_warning++; + } + } + else { /* no hysteresis */ + if ((!isnan (th->failure_min) && (th->failure_min > values[ds_index])) + || (!isnan (th->failure_max) && (th->failure_max < values[ds_index]))) + is_failure++; + + if ((!isnan (th->warning_min) && (th->warning_min > values[ds_index])) + || (!isnan (th->warning_max) && (th->warning_max < values[ds_index]))) + is_warning++; + } + + if (is_failure != 0) + return (STATE_ERROR); + + if (is_warning != 0) + return (STATE_WARNING); + + return (STATE_OKAY); +} /* }}} int ut_check_one_data_source */ + +/* + * int ut_check_one_threshold + * + * Checks all data sources of a value list against the given threshold, using + * the ut_check_one_data_source function above. Returns the worst status, + * which is `okay' if nothing has failed. + * Returns less than zero if the data set doesn't have any data sources. + */ +static int ut_check_one_threshold (const data_set_t *ds, + const value_list_t *vl, + const threshold_t *th, + const gauge_t *values, + int *ret_ds_index) +{ /* {{{ */ + int ret = -1; + int ds_index = -1; + int i; + gauge_t values_copy[ds->ds_num]; + + memcpy (values_copy, values, sizeof (values_copy)); + + if ((th->flags & UT_FLAG_PERCENTAGE) != 0) + { + int num = 0; + gauge_t sum=0.0; + + if (ds->ds_num == 1) + { + WARNING ("ut_check_one_threshold: The %s type has only one data " + "source, but you have configured to check this as a percentage. " + "That doesn't make much sense, because the percentage will always " + "be 100%%!", ds->type); + } + + /* Prepare `sum' and `num'. */ + for (i = 0; i < ds->ds_num; i++) + if (!isnan (values[i])) + { + num++; + sum += values[i]; + } + + if ((num == 0) /* All data sources are undefined. */ + || (sum == 0.0)) /* Sum is zero, cannot calculate percentage. */ + { + for (i = 0; i < ds->ds_num; i++) + values_copy[i] = NAN; + } + else /* We can actually calculate the percentage. */ + { + for (i = 0; i < ds->ds_num; i++) + values_copy[i] = 100.0 * values[i] / sum; + } + } /* if (UT_FLAG_PERCENTAGE) */ + + for (i = 0; i < ds->ds_num; i++) + { + int status; + + status = ut_check_one_data_source (ds, vl, th, values_copy, i); + if (ret < status) + { + ret = status; + ds_index = i; + } + } /* for (ds->ds_num) */ + + if (ret_ds_index != NULL) + *ret_ds_index = ds_index; + + return (ret); +} /* }}} int ut_check_one_threshold */ + +/* + * int ut_check_threshold + * + * Gets a list of matching thresholds and searches for the worst status by one + * of the thresholds. Then reports that status using the ut_report_state + * function above. + * Returns zero on success and if no threshold has been configured. Returns + * less than zero on failure. + */ +static int ut_check_threshold (const data_set_t *ds, const value_list_t *vl, + __attribute__((unused)) user_data_t *ud) +{ /* {{{ */ + threshold_t *th; + gauge_t *values; + int status; + + int worst_state = -1; + threshold_t *worst_th = NULL; + int worst_ds_index = -1; + + if (threshold_tree == NULL) + return (0); + + /* Is this lock really necessary? So far, thresholds are only inserted at + * startup. -octo */ + pthread_mutex_lock (&threshold_lock); + th = threshold_search (vl); + pthread_mutex_unlock (&threshold_lock); + if (th == NULL) + return (0); + + DEBUG ("ut_check_threshold: Found matching threshold(s)"); + + values = uc_get_rate (ds, vl); + if (values == NULL) + return (0); + + while (th != NULL) + { + int ds_index = -1; + + status = ut_check_one_threshold (ds, vl, th, values, &ds_index); + if (status < 0) + { + ERROR ("ut_check_threshold: ut_check_one_threshold failed."); + sfree (values); + return (-1); + } + + if (worst_state < status) + { + worst_state = status; + worst_th = th; + worst_ds_index = ds_index; + } + + th = th->next; + } /* while (th) */ + + status = ut_report_state (ds, vl, worst_th, values, + worst_ds_index, worst_state); + if (status != 0) + { + ERROR ("ut_check_threshold: ut_report_state failed."); + sfree (values); + return (-1); + } + + sfree (values); + + return (0); +} /* }}} int ut_check_threshold */ + +/* + * int ut_missing + * + * This function is called whenever a value goes "missing". + */ +static int ut_missing (const value_list_t *vl, + __attribute__((unused)) user_data_t *ud) +{ /* {{{ */ + threshold_t *th; + cdtime_t missing_time; + char identifier[6 * DATA_MAX_NAME_LEN]; + notification_t n; + + th = threshold_search (vl); + if (th == NULL) + return (0); + + missing_time = cdtime () - vl->time; + FORMAT_VL (identifier, sizeof (identifier), vl); + + NOTIFICATION_INIT_VL (&n, vl); + ssnprintf (n.message, sizeof (n.message), + "%s has not been updated for %.3f seconds.", + identifier, CDTIME_T_TO_DOUBLE (missing_time)); + + plugin_dispatch_notification (&n); + + return (0); +} /* }}} int ut_missing */ + +void module_register (void) +{ + plugin_register_complex_config ("threshold", ut_config); + plugin_register_missing ("threshold", ut_missing, + /* user data = */ NULL); + plugin_register_write ("threshold", ut_check_threshold, + /* user data = */ NULL); +} + +/* vim: set sw=2 ts=8 sts=2 tw=78 et fdm=marker : */