// SPDX-License-Identifier: GPL-3.0-or-later
#include "rrd.h"
// the variables as stored in the variables indexes
// there are 3 indexes:
// 1. at each chart (RRDSET.rrdvar_root_index)
// 2. at each context (RRDFAMILY.rrdvar_root_index)
// 3. at each host (RRDHOST.rrdvar_root_index)
typedef struct rrdvar {
STRING *name;
void *value;
RRDVAR_FLAGS flags:24;
RRDVAR_TYPE type:8;
} RRDVAR;
// ----------------------------------------------------------------------------
// RRDVAR management
inline int rrdvar_fix_name(char *variable) {
int fixed = 0;
while(*variable) {
if (!isalnum(*variable) && *variable != '.' && *variable != '_') {
*variable++ = '_';
fixed++;
}
else
variable++;
}
return fixed;
}
inline STRING *rrdvar_name_to_string(const char *name) {
char *variable = strdupz(name);
rrdvar_fix_name(variable);
STRING *name_string = string_strdupz(variable);
freez(variable);
return name_string;
}
struct rrdvar_constructor {
STRING *name;
void *value;
RRDVAR_FLAGS options:16;
RRDVAR_TYPE type:8;
enum {
RRDVAR_REACT_NONE = 0,
RRDVAR_REACT_NEW = (1 << 0),
} react_action;
};
static void rrdvar_insert_callback(const DICTIONARY_ITEM *item __maybe_unused, void *rrdvar, void *constructor_data) {
RRDVAR *rv = rrdvar;
struct rrdvar_constructor *ctr = constructor_data;
ctr->options &= ~RRDVAR_OPTIONS_REMOVED_ON_NEW_OBJECTS;
rv->name = string_dup(ctr->name);
rv->type = ctr->type;
rv->flags = ctr->options;
if(!ctr->value) {
NETDATA_DOUBLE *v = mallocz(sizeof(NETDATA_DOUBLE));
*v = NAN;
rv->value = v;
rv->flags |= RRDVAR_FLAG_ALLOCATED;
}
else
rv->value = ctr->value;
ctr->react_action = RRDVAR_REACT_NEW;
}
static void rrdvar_delete_callback(const DICTIONARY_ITEM *item __maybe_unused, void *rrdvar, void *nothing __maybe_unused) {
RRDVAR *rv = rrdvar;
if(rv->flags & RRDVAR_FLAG_ALLOCATED)
freez(rv->value);
string_freez(rv->name);
rv->name = NULL;
}
DICTIONARY *rrdvariables_create(void) {
DICTIONARY *dict = dictionary_create(DICT_OPTION_DONT_OVERWRITE_VALUE);
dictionary_register_insert_callback(dict, rrdvar_insert_callback, NULL);
dictionary_register_delete_callback(dict, rrdvar_delete_callback, NULL);
return dict;
}
void rrdvariables_destroy(DICTIONARY *dict) {
dictionary_destroy(dict);
}
static inline const RRDVAR_ACQUIRED *rrdvar_get_and_acquire(DICTIONARY *dict, STRING *name) {
return (const RRDVAR_ACQUIRED *)dictionary_get_and_acquire_item_advanced(dict, string2str(name), (ssize_t)string_strlen(name) + 1);
}
inline void rrdvar_release_and_del(DICTIONARY *dict, const RRDVAR_ACQUIRED *rva) {
if(unlikely(!dict || !rva)) return;
RRDVAR *rv = dictionary_acquired_item_value((const DICTIONARY_ITEM *)rva);
dictionary_del_advanced(dict, string2str(rv->name), (ssize_t)string_strlen(rv->name) + 1);
dictionary_acquired_item_release(dict, (const DICTIONARY_ITEM *)rva);
}
inline const RRDVAR_ACQUIRED *rrdvar_add_and_acquire(const char *scope __maybe_unused, DICTIONARY *dict, STRING *name, RRDVAR_TYPE type, RRDVAR_FLAGS options, void *value) {
if(unlikely(!dict || !name)) return NULL;
struct rrdvar_constructor tmp = {
.name = name,
.value = value,
.type = type,
.options = options,
.react_action = RRDVAR_REACT_NONE,
};
return (const RRDVAR_ACQUIRED *)dictionary_set_and_acquire_item_advanced(dict, string2str(name), (ssize_t)string_strlen(name) + 1, NULL, sizeof(RRDVAR), &tmp);
}
void rrdvar_delete_all(DICTIONARY *dict) {
dictionary_flush(dict);
}
// ----------------------------------------------------------------------------
// CUSTOM HOST VARIABLES
inline int rrdvar_walkthrough_read(DICTIONARY *dict, int (*callback)(const DICTIONARY_ITEM *item, void *rrdvar, void *data), void *data) {
if(unlikely(!dict)) return 0; // when health is not enabled
return dictionary_walkthrough_read(dict, callback, data);
}
const RRDVAR_ACQUIRED *rrdvar_custom_host_variable_add_and_acquire(RRDHOST *host, const char *name) {
DICTIONARY *dict = host->rrdvars;
if(unlikely(!dict)) return NULL; // when health is not enabled
STRING *name_string = rrdvar_name_to_string(name);
const RRDVAR_ACQUIRED *rva = rrdvar_add_and_acquire("host", dict, name_string, RRDVAR_TYPE_CALCULATED, RRDVAR_FLAG_CUSTOM_HOST_VAR, NULL);
string_freez(name_string);
return rva;
}
void rrdvar_custom_host_variable_set(RRDHOST *host, const RRDVAR_ACQUIRED *rva, NETDATA_DOUBLE value) {
if(unlikely(!host->rrdvars || !rva)) return; // when health is not enabled
if(rrdvar_type(rva) != RRDVAR_TYPE_CALCULATED || !(rrdvar_flags(rva) & (RRDVAR_FLAG_CUSTOM_HOST_VAR | RRDVAR_FLAG_ALLOCATED)))
error("requested to set variable '%s' to value " NETDATA_DOUBLE_FORMAT " but the variable is not a custom one.", rrdvar_name(rva), value);
else {
RRDVAR *rv = dictionary_acquired_item_value((const DICTIONARY_ITEM *)rva);
NETDATA_DOUBLE *v = rv->value;
if(*v != value) {
*v = value;
// if the host is streaming, send this variable upstream immediately
rrdpush_sender_send_this_host_variable_now(host, rva);
}
}
}
void rrdvar_release(DICTIONARY *dict, const RRDVAR_ACQUIRED *rva) {
if(unlikely(!dict || !rva)) return; // when health is not enabled
dictionary_acquired_item_release(dict, (const DICTIONARY_ITEM *)rva);
}
// ----------------------------------------------------------------------------
// RRDVAR lookup
NETDATA_DOUBLE rrdvar2number(const RRDVAR_ACQUIRED *rva) {
if(unlikely(!rva)) return NAN;
RRDVAR *rv = dictionary_acquired_item_value((const DICTIONARY_ITEM *)rva);
switch(rv->type) {
case RRDVAR_TYPE_CALCULATED: {
NETDATA_DOUBLE *n = (NETDATA_DOUBLE *)rv->value;
return *n;
}
case RRDVAR_TYPE_TIME_T: {
time_t *n = (time_t *)rv->value;
return (NETDATA_DOUBLE)*n;
}
case RRDVAR_TYPE_COLLECTED: {
collected_number *n = (collected_number *)rv->value;
return (NETDATA_DOUBLE)*n;
}
case RRDVAR_TYPE_TOTAL: {
total_number *n = (total_number *)rv->value;
return (NETDATA_DOUBLE)*n;
}
case RRDVAR_TYPE_INT: {
int *n = (int *)rv->value;
return *n;
}
default:
error("I don't know how to convert RRDVAR type %u to NETDATA_DOUBLE", rv->type);
return NAN;
}
}
int health_variable_lookup(STRING *variable, RRDCALC *rc, NETDATA_DOUBLE *result) {
RRDSET *st = rc->rrdset;
if(!st) return 0;
RRDHOST *host = st->rrdhost;
const RRDVAR_ACQUIRED *rva;
rva = rrdvar_get_and_acquire(st->rrdvars, variable);
if(rva) {
*result = rrdvar2number(rva);
dictionary_acquired_item_release(st->rrdvars, (const DICTIONARY_ITEM *)rva);
return 1;
}
rva = rrdvar_get_and_acquire(rrdfamily_rrdvars_dict(st->rrdfamily), variable);
if(rva) {
*result = rrdvar2number(rva);
dictionary_acquired_item_release(rrdfamily_rrdvars_dict(st->rrdfamily), (const DICTIONARY_ITEM *)rva);
return 1;
}
rva = rrdvar_get_and_acquire(host->rrdvars, variable);
if(rva) {
*result = rrdvar2number(rva);
dictionary_acquired_item_release(host->rrdvars, (const DICTIONARY_ITEM *)rva);
return 1;
}
return 0;
}
// ----------------------------------------------------------------------------
// RRDVAR to JSON
struct variable2json_helper {
BUFFER *buf;
size_t counter;
RRDVAR_FLAGS options;
};
static int single_variable2json_callback(const DICTIONARY_ITEM *item __maybe_unused, void *entry __maybe_unused, void *helper_data) {
struct variable2json_helper *helper = (struct variable2json_helper *)helper_data;
const RRDVAR_ACQUIRED *rva = (const RRDVAR_ACQUIRED *)item;
NETDATA_DOUBLE value = rrdvar2number(rva);
if (helper->options == RRDVAR_FLAG_NONE || rrdvar_flags(rva) & helper->options) {
if(unlikely(isnan(value) || isinf(value)))
buffer_sprintf(helper->buf, "%s\n\t\t\"%s\": null", helper->counter?",":"", rrdvar_name(rva));
else
buffer_sprintf(helper->buf, "%s\n\t\t\"%s\": %0.5" NETDATA_DOUBLE_MODIFIER, helper->counter?",":"", rrdvar_name(rva), (NETDATA_DOUBLE)value);
helper->counter++;
}
return 0;
}
void health_api_v1_chart_custom_variables2json(RRDSET *st, BUFFER *buf) {
struct variable2json_helper helper = {
.buf = buf,
.counter = 0,
.options = RRDVAR_FLAG_CUSTOM_CHART_VAR};
buffer_sprintf(buf, "{");
rrdvar_walkthrough_read(st->rrdvars, single_variable2json_callback, &helper);
buffer_strcat(buf, "\n\t\t\t}");
}
void health_api_v1_chart_variables2json(RRDSET *st, BUFFER *buf) {
RRDHOST *host = st->rrdhost;
struct variable2json_helper helper = {
.buf = buf,
.counter = 0,
.options = RRDVAR_FLAG_NONE};
buffer_sprintf(buf, "{\n\t\"chart\": \"%s\",\n\t\"chart_name\": \"%s\",\n\t\"chart_context\": \"%s\",\n\t\"chart_variables\": {", rrdset_id(st), rrdset_name(st), rrdset_context(st));
rrdvar_walkthrough_read(st->rrdvars, single_variable2json_callback, &helper);
buffer_sprintf(buf, "\n\t},\n\t\"family\": \"%s\",\n\t\"family_variables\": {", rrdset_family(st));
helper.counter = 0;
rrdvar_walkthrough_read(rrdfamily_rrdvars_dict(st->rrdfamily), single_variable2json_callback, &helper);
buffer_sprintf(buf, "\n\t},\n\t\"host\": \"%s\",\n\t\"host_variables\": {", rrdhost_hostname(host));
helper.counter = 0;
rrdvar_walkthrough_read(host->rrdvars, single_variable2json_callback, &helper);
buffer_strcat(buf, "\n\t}\n}\n");
}
// ----------------------------------------------------------------------------
// RRDVAR private members examination
const char *rrdvar_name(const RRDVAR_ACQUIRED *rva) {
return dictionary_acquired_item_name((const DICTIONARY_ITEM *)rva);
}
RRDVAR_FLAGS rrdvar_flags(const RRDVAR_ACQUIRED *rva) {
RRDVAR *rv = dictionary_acquired_item_value((const DICTIONARY_ITEM *)rva);
return rv->flags;
}
RRDVAR_TYPE rrdvar_type(const RRDVAR_ACQUIRED *rva) {
RRDVAR *rv = dictionary_acquired_item_value((const DICTIONARY_ITEM *)rva);
return rv->type;
}