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// SPDX-License-Identifier: GPL-3.0-or-later
#include "rrd.h"
#ifndef NETDATA_RRDCALC_H
#define NETDATA_RRDCALC_H 1
// calculated variables (defined in health configuration)
// These aggregate time-series data at fixed intervals
// (defined in their update_every member below)
// They increase the overhead of netdata.
//
// These calculations are stored under RRDHOST.
// Then are also linked to RRDSET (of course only when a
// matching chart is found).
typedef enum {
RRDCALC_FLAG_DB_ERROR = (1 << 0),
RRDCALC_FLAG_DB_NAN = (1 << 1),
// RRDCALC_FLAG_DB_STALE = (1 << 2),
RRDCALC_FLAG_CALC_ERROR = (1 << 3),
RRDCALC_FLAG_WARN_ERROR = (1 << 4),
RRDCALC_FLAG_CRIT_ERROR = (1 << 5),
RRDCALC_FLAG_RUNNABLE = (1 << 6),
RRDCALC_FLAG_DISABLED = (1 << 7),
RRDCALC_FLAG_SILENCED = (1 << 8),
RRDCALC_FLAG_RUN_ONCE = (1 << 9),
RRDCALC_FLAG_FROM_TEMPLATE = (1 << 10), // the rrdcalc has been created from a template
} RRDCALC_FLAGS;
typedef enum {
// This list uses several other options from RRDR_OPTIONS for db lookups.
// To add an item here, you need to reserve a bit in RRDR_OPTIONS.
RRDCALC_OPTION_NO_CLEAR_NOTIFICATION = 0x80000000,
} RRDCALC_OPTIONS;
#define RRDCALC_ALL_OPTIONS_EXCLUDING_THE_RRDR_ONES (RRDCALC_OPTION_NO_CLEAR_NOTIFICATION)
struct rrdcalc {
STRING *key; // the unique key in the host's rrdcalc_root_index
uint32_t id; // the unique id of this alarm
uint32_t next_event_id; // the next event id that will be used for this alarm
uuid_t config_hash_id; // a predictable hash_id based on specific alert configuration
STRING *name; // the name of this alarm
STRING *chart; // the chart id this should be linked to
STRING *exec; // the command to execute when this alarm switches state
STRING *recipient; // the recipient of the alarm (the first parameter to exec)
STRING *classification; // the class that this alarm belongs
STRING *component; // the component that this alarm refers to
STRING *type; // type of the alarm
STRING *plugin_match; // the plugin name that should be linked to
SIMPLE_PATTERN *plugin_pattern;
STRING *module_match; // the module name that should be linked to
SIMPLE_PATTERN *module_pattern;
STRING *source; // the source of this alarm
STRING *units; // the units of the alarm
STRING *original_info; // the original info field before any variable replacement
STRING *info; // a short description of the alarm
int update_every; // update frequency for the alarm
// the red and green threshold of this alarm (to be set to the chart)
NETDATA_DOUBLE green;
NETDATA_DOUBLE red;
// ------------------------------------------------------------------------
// database lookup settings
STRING *dimensions; // the chart dimensions
STRING *foreach_dimension; // the group of dimensions that the `foreach` will be applied.
SIMPLE_PATTERN *foreach_dimension_pattern; // used if and only if there is a simple pattern for the chart.
RRDR_GROUPING group; // grouping method: average, max, etc.
int before; // ending point in time-series
int after; // starting point in time-series
RRDCALC_OPTIONS options; // configuration options
// ------------------------------------------------------------------------
// expressions related to the alarm
EVAL_EXPRESSION *calculation; // expression to calculate the value of the alarm
EVAL_EXPRESSION *warning; // expression to check the warning condition
EVAL_EXPRESSION *critical; // expression to check the critical condition
// ------------------------------------------------------------------------
// notification delay settings
int delay_up_duration; // duration to delay notifications when alarm raises
int delay_down_duration; // duration to delay notifications when alarm lowers
int delay_max_duration; // the absolute max delay to apply to this alarm
float delay_multiplier; // multiplier for all delays when alarms switch status
// while now < delay_up_to
// ------------------------------------------------------------------------
// notification repeat settings
uint32_t warn_repeat_every; // interval between repeating warning notifications
uint32_t crit_repeat_every; // interval between repeating critical notifications
// ------------------------------------------------------------------------
// Labels settings
STRING *host_labels; // the label read from an alarm file
SIMPLE_PATTERN *host_labels_pattern; // the simple pattern of labels
// ------------------------------------------------------------------------
// runtime information
RRDCALC_STATUS old_status; // the old status of the alarm
RRDCALC_STATUS status; // the current status of the alarm
NETDATA_DOUBLE value; // the current value of the alarm
NETDATA_DOUBLE old_value; // the previous value of the alarm
RRDCALC_FLAGS run_flags; // check RRDCALC_FLAG_*
time_t last_updated; // the last update timestamp of the alarm
time_t next_update; // the next update timestamp of the alarm
time_t last_status_change; // the timestamp of the last time this alarm changed status
time_t last_repeat; // the last time the alarm got repeated
uint32_t times_repeat; // number of times the alarm got repeated
time_t db_after; // the first timestamp evaluated by the db lookup
time_t db_before; // the last timestamp evaluated by the db lookup
time_t delay_up_to_timestamp; // the timestamp up to which we should delay notifications
int delay_up_current; // the current up notification delay duration
int delay_down_current; // the current down notification delay duration
int delay_last; // the last delay we used
// ------------------------------------------------------------------------
// variables this alarm exposes to the rest of the alarms
const RRDVAR_ACQUIRED *rrdvar_local;
const RRDVAR_ACQUIRED *rrdvar_family;
const RRDVAR_ACQUIRED *rrdvar_host_chart_id;
const RRDVAR_ACQUIRED *rrdvar_host_chart_name;
// ------------------------------------------------------------------------
// the chart this alarm it is linked to
size_t labels_version;
struct rrdset *rrdset;
struct rrdcalc *next;
struct rrdcalc *prev;
};
#define rrdcalc_name(rc) string2str((rc)->name)
#define rrdcalc_chart_name(rc) string2str((rc)->chart)
#define rrdcalc_exec(rc) string2str((rc)->exec)
#define rrdcalc_recipient(rc) string2str((rc)->recipient)
#define rrdcalc_classification(rc) string2str((rc)->classification)
#define rrdcalc_component(rc) string2str((rc)->component)
#define rrdcalc_type(rc) string2str((rc)->type)
#define rrdcalc_plugin_match(rc) string2str((rc)->plugin_match)
#define rrdcalc_module_match(rc) string2str((rc)->module_match)
#define rrdcalc_source(rc) string2str((rc)->source)
#define rrdcalc_units(rc) string2str((rc)->units)
#define rrdcalc_original_info(rc) string2str((rc)->original_info)
#define rrdcalc_info(rc) string2str((rc)->info)
#define rrdcalc_dimensions(rc) string2str((rc)->dimensions)
#define rrdcalc_foreachdim(rc) string2str((rc)->foreach_dimension)
#define rrdcalc_host_labels(rc) string2str((rc)->host_labels)
#define foreach_rrdcalc_in_rrdhost_read(host, rc) \
dfe_start_read((host)->rrdcalc_root_index, rc) \
#define foreach_rrdcalc_in_rrdhost_reentrant(host, rc) \
dfe_start_reentrant((host)->rrdcalc_root_index, rc)
#define foreach_rrdcalc_in_rrdhost_done(rc) \
dfe_done(rc)
struct alert_config {
STRING *alarm;
STRING *template_key;
STRING *os;
STRING *host;
STRING *on;
STRING *families;
STRING *plugin;
STRING *module;
STRING *charts;
STRING *lookup;
STRING *calc;
STRING *warn;
STRING *crit;
STRING *every;
STRING *green;
STRING *red;
STRING *exec;
STRING *to;
STRING *units;
STRING *info;
STRING *classification;
STRING *component;
STRING *type;
STRING *delay;
STRING *options;
STRING *repeat;
STRING *host_labels;
STRING *p_db_lookup_dimensions;
STRING *p_db_lookup_method;
uint32_t p_db_lookup_options;
int32_t p_db_lookup_after;
int32_t p_db_lookup_before;
int32_t p_update_every;
};
#define RRDCALC_HAS_DB_LOOKUP(rc) ((rc)->after)
void rrdcalc_update_info_using_rrdset_labels(RRDCALC *rc);
void rrdcalc_link_matching_alerts_to_rrdset(RRDSET *st);
const RRDCALC_ACQUIRED *rrdcalc_from_rrdset_get(RRDSET *st, const char *alert_name);
void rrdcalc_from_rrdset_release(RRDSET *st, const RRDCALC_ACQUIRED *rca);
RRDCALC *rrdcalc_acquired_to_rrdcalc(const RRDCALC_ACQUIRED *rca);
const char *rrdcalc_status2string(RRDCALC_STATUS status);
void rrdcalc_free_unused_rrdcalc_loaded_from_config(RRDCALC *rc);
uint32_t rrdcalc_get_unique_id(RRDHOST *host, STRING *chart, STRING *name, uint32_t *next_event_id);
void rrdcalc_add_from_rrdcalctemplate(RRDHOST *host, RRDCALCTEMPLATE *rt, RRDSET *st, const char *overwrite_alert_name, const char *overwrite_dimensions);
int rrdcalc_add_from_config(RRDHOST *host, RRDCALC *rc);
void rrdcalc_delete_alerts_not_matching_host_labels_from_all_hosts();
void rrdcalc_delete_alerts_not_matching_host_labels_from_this_host(RRDHOST *host);
static inline int rrdcalc_isrepeating(RRDCALC *rc) {
if (unlikely(rc->warn_repeat_every > 0 || rc->crit_repeat_every > 0)) {
return 1;
}
return 0;
}
void rrdcalc_unlink_all_rrdset_alerts(RRDSET *st);
void rrdcalc_delete_all(RRDHOST *host);
void rrdcalc_rrdhost_index_init(RRDHOST *host);
void rrdcalc_rrdhost_index_destroy(RRDHOST *host);
#define RRDCALC_VAR_MAX 100
#define RRDCALC_VAR_FAMILY "${family}"
#define RRDCALC_VAR_LABEL "${label:"
#define RRDCALC_VAR_LABEL_LEN (sizeof(RRDCALC_VAR_LABEL)-1)
#endif //NETDATA_RRDCALC_H
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