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#ifndef NETDATA_HEALTH_H
#define NETDATA_HEALTH_H
extern int default_health_enabled;
extern int rrdvar_compare(void *a, void *b);
#define RRDVAR_TYPE_CALCULATED 1
#define RRDVAR_TYPE_TIME_T 2
#define RRDVAR_TYPE_COLLECTED 3
#define RRDVAR_TYPE_TOTAL 4
#define RRDVAR_TYPE_INT 5
#define RRDVAR_TYPE_CALCULATED_ALLOCATED 6
// the variables as stored in the variables indexes
// there are 3 indexes:
// 1. at each chart (RRDSET.variables_root_index)
// 2. at each context (RRDFAMILY.variables_root_index)
// 3. at each host (RRDHOST.variables_root_index)
typedef struct rrdvar {
avl avl;
char *name;
uint32_t hash;
int type;
void *value;
time_t last_updated;
} RRDVAR;
// variables linked to charts
// We link variables to point to the values that are already
// calculated / processed by the normal data collection process
// This means, there will be no speed penalty for using
// these variables
typedef struct rrdsetvar {
char *key_fullid; // chart type.chart id.variable
char *key_fullname; // chart type.chart name.variable
char *variable; // variable
int type;
void *value;
uint32_t options;
RRDVAR *var_local;
RRDVAR *var_family;
RRDVAR *var_host;
RRDVAR *var_family_name;
RRDVAR *var_host_name;
struct rrdset *rrdset;
struct rrdsetvar *next;
} RRDSETVAR;
// variables linked to individual dimensions
// We link variables to point the values that are already
// calculated / processed by the normal data collection process
// This means, there will be no speed penalty for using
// these variables
typedef struct rrddimvar {
char *prefix;
char *suffix;
char *key_id; // dimension id
char *key_name; // dimension name
char *key_contextid; // context + dimension id
char *key_contextname; // context + dimension name
char *key_fullidid; // chart type.chart id + dimension id
char *key_fullidname; // chart type.chart id + dimension name
char *key_fullnameid; // chart type.chart name + dimension id
char *key_fullnamename; // chart type.chart name + dimension name
int type;
void *value;
uint32_t options;
RRDVAR *var_local_id;
RRDVAR *var_local_name;
RRDVAR *var_family_id;
RRDVAR *var_family_name;
RRDVAR *var_family_contextid;
RRDVAR *var_family_contextname;
RRDVAR *var_host_chartidid;
RRDVAR *var_host_chartidname;
RRDVAR *var_host_chartnameid;
RRDVAR *var_host_chartnamename;
struct rrddim *rrddim;
struct rrddimvar *next;
} RRDDIMVAR;
// calculated variables (defined in health configuration)
// These aggregate time-series data at fixed intervals
// (defined in their update_every member below)
// These increase the overhead of netdata.
//
// These calculations are allocated and linked (->next)
// under RRDHOST.
// Then are also linked to RRDSET (of course only when the
// chart is found, via ->rrdset_next and ->rrdset_prev).
// This double-linked list is maintained sorted at all times
// having as RRDSET.calculations the RRDCALC to be processed
// next.
#define RRDCALC_STATUS_REMOVED -2
#define RRDCALC_STATUS_UNDEFINED -1
#define RRDCALC_STATUS_UNINITIALIZED 0
#define RRDCALC_STATUS_CLEAR 1
#define RRDCALC_STATUS_RAISED 2
#define RRDCALC_STATUS_WARNING 3
#define RRDCALC_STATUS_CRITICAL 4
#define RRDCALC_FLAG_DB_ERROR 0x00000001
#define RRDCALC_FLAG_DB_NAN 0x00000002
/* #define RRDCALC_FLAG_DB_STALE 0x00000004 */
#define RRDCALC_FLAG_CALC_ERROR 0x00000008
#define RRDCALC_FLAG_WARN_ERROR 0x00000010
#define RRDCALC_FLAG_CRIT_ERROR 0x00000020
#define RRDCALC_FLAG_RUNNABLE 0x00000040
#define RRDCALC_FLAG_NO_CLEAR_NOTIFICATION 0x80000000
typedef struct rrdcalc {
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
char *name; // the name of this alarm
uint32_t hash;
char *exec; // the command to execute when this alarm switches state
char *recipient; // the recipient of the alarm (the first parameter to exec)
char *chart; // the chart id this should be linked to
uint32_t hash_chart;
char *source; // the source of this alarm
char *units; // the units of the alarm
char *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)
calculated_number green;
calculated_number red;
// ------------------------------------------------------------------------
// database lookup settings
char *dimensions; // the chart dimensions
int group; // grouping method: average, max, etc.
int before; // ending point in time-series
int after; // starting point in time-series
uint32_t options; // calculation 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
// ------------------------------------------------------------------------
// runtime information
int status; // the current status of the alarm
calculated_number value; // the current value of the alarm
calculated_number old_value; // the previous value of the alarm
uint32_t rrdcalc_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 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
RRDVAR *local;
RRDVAR *family;
RRDVAR *hostid;
RRDVAR *hostname;
// ------------------------------------------------------------------------
// the chart this alarm it is linked to
struct rrdset *rrdset;
// linking of this alarm on its chart
struct rrdcalc *rrdset_next;
struct rrdcalc *rrdset_prev;
struct rrdcalc *next;
} RRDCALC;
#define RRDCALC_HAS_DB_LOOKUP(rc) ((rc)->after)
// RRDCALCTEMPLATE
// these are to be applied to charts found dynamically
// based on their context.
typedef struct rrdcalctemplate {
char *name;
uint32_t hash_name;
char *exec;
char *recipient;
char *context;
uint32_t hash_context;
char *family_match;
SIMPLE_PATTERN *family_pattern;
char *source; // the source of this alarm
char *units; // the units of the alarm
char *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)
calculated_number green;
calculated_number red;
// ------------------------------------------------------------------------
// database lookup settings
char *dimensions; // the chart dimensions
int group; // grouping method: average, max, etc.
int before; // ending point in time-series
int after; // starting point in time-series
uint32_t options; // calculation options
// ------------------------------------------------------------------------
// 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
// ------------------------------------------------------------------------
// expressions related to the alarm
EVAL_EXPRESSION *calculation;
EVAL_EXPRESSION *warning;
EVAL_EXPRESSION *critical;
struct rrdcalctemplate *next;
} RRDCALCTEMPLATE;
#define RRDCALCTEMPLATE_HAS_CALCULATION(rt) ((rt)->after)
#define HEALTH_ENTRY_FLAG_PROCESSED 0x00000001
#define HEALTH_ENTRY_FLAG_UPDATED 0x00000002
#define HEALTH_ENTRY_FLAG_EXEC_RUN 0x00000004
#define HEALTH_ENTRY_FLAG_EXEC_FAILED 0x00000008
#define HEALTH_ENTRY_FLAG_SAVED 0x10000000
#define HEALTH_ENTRY_FLAG_NO_CLEAR_NOTIFICATION 0x80000000
typedef struct alarm_entry {
uint32_t unique_id;
uint32_t alarm_id;
uint32_t alarm_event_id;
time_t when;
time_t duration;
time_t non_clear_duration;
char *name;
uint32_t hash_name;
char *chart;
uint32_t hash_chart;
char *family;
char *exec;
char *recipient;
time_t exec_run_timestamp;
int exec_code;
char *source;
char *units;
char *info;
calculated_number old_value;
calculated_number new_value;
char *old_value_string;
char *new_value_string;
int old_status;
int new_status;
uint32_t flags;
int delay;
time_t delay_up_to_timestamp;
uint32_t updated_by_id;
uint32_t updates_id;
struct alarm_entry *next;
} ALARM_ENTRY;
typedef struct alarm_log {
uint32_t next_log_id;
uint32_t next_alarm_id;
unsigned int count;
unsigned int max;
ALARM_ENTRY *alarms;
netdata_rwlock_t alarm_log_rwlock;
} ALARM_LOG;
#include "rrd.h"
extern void rrdsetvar_rename_all(RRDSET *st);
extern RRDSETVAR *rrdsetvar_create(RRDSET *st, const char *variable, int type, void *value, uint32_t options);
extern void rrdsetvar_free(RRDSETVAR *rs);
extern void rrddimvar_rename_all(RRDDIM *rd);
extern RRDDIMVAR *rrddimvar_create(RRDDIM *rd, int type, const char *prefix, const char *suffix, void *value, uint32_t options);
extern void rrddimvar_free(RRDDIMVAR *rs);
extern void rrdsetcalc_link_matching(RRDSET *st);
extern void rrdsetcalc_unlink(RRDCALC *rc);
extern void rrdcalctemplate_link_matching(RRDSET *st);
extern RRDCALC *rrdcalc_find(RRDSET *st, const char *name);
extern void health_init(void);
extern void *health_main(void *ptr);
extern void health_reload(void);
extern int health_variable_lookup(const char *variable, uint32_t hash, RRDCALC *rc, calculated_number *result);
extern void health_alarms2json(RRDHOST *host, BUFFER *wb, int all);
extern void health_alarm_log2json(RRDHOST *host, BUFFER *wb, uint32_t after);
void health_api_v1_chart_variables2json(RRDSET *st, BUFFER *buf);
extern RRDVAR *rrdvar_custom_host_variable_create(RRDHOST *host, const char *name);
extern void rrdvar_custom_host_variable_destroy(RRDHOST *host, const char *name);
extern void rrdvar_custom_host_variable_set(RRDVAR *rv, calculated_number value);
extern const char *rrdcalc_status2string(int status);
extern int health_alarm_log_open(RRDHOST *host);
extern void health_alarm_log_close(RRDHOST *host);
extern void health_log_rotate(RRDHOST *host);
extern void health_alarm_log_save(RRDHOST *host, ALARM_ENTRY *ae);
extern ssize_t health_alarm_log_read(RRDHOST *host, FILE *fp, const char *filename);
extern void health_alarm_log_load(RRDHOST *host);
extern void health_alarm_log(
RRDHOST *host,
uint32_t alarm_id,
uint32_t alarm_event_id,
time_t when,
const char *name,
const char *chart,
const char *family,
const char *exec,
const char *recipient,
time_t duration,
calculated_number old_value,
calculated_number new_value,
int old_status,
int new_status,
const char *source,
const char *units,
const char *info,
int delay,
uint32_t flags
);
extern void health_readdir(RRDHOST *host, const char *path);
extern char *health_config_dir(void);
extern void health_reload_host(RRDHOST *host);
extern void health_alarm_log_free(RRDHOST *host);
extern void rrdcalc_free(RRDHOST *host, RRDCALC *rc);
extern void rrdcalctemplate_free(RRDHOST *host, RRDCALCTEMPLATE *rt);
#ifdef NETDATA_HEALTH_INTERNALS
#define RRDVAR_MAX_LENGTH 1024
extern int rrdcalc_exists(RRDHOST *host, const char *chart, const char *name, uint32_t hash_chart, uint32_t hash_name);
extern uint32_t rrdcalc_get_unique_id(RRDHOST *host, const char *chart, const char *name, uint32_t *next_event_id);
extern int rrdvar_fix_name(char *variable);
extern RRDCALC *rrdcalc_create(RRDHOST *host, RRDCALCTEMPLATE *rt, const char *chart);
extern void rrdcalc_create_part2(RRDHOST *host, RRDCALC *rc);
extern RRDVAR *rrdvar_create_and_index(const char *scope, avl_tree_lock *tree, const char *name, int type, void *value);
extern void rrdvar_free(RRDHOST *host, avl_tree_lock *tree, RRDVAR *rv);
extern void health_alarm_log_free_one_nochecks_nounlink(ALARM_ENTRY *ae);
#endif // NETDATA_HEALTH_INTERNALS
#endif //NETDATA_HEALTH_H
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