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// SPDX-License-Identifier: GPL-3.0-or-later
#define NETDATA_HEALTH_INTERNALS
#include "rrd.h"
// ----------------------------------------------------------------------------
// 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;
}
int rrdvar_compare(void* a, void* b) {
if(((RRDVAR *)a)->hash < ((RRDVAR *)b)->hash) return -1;
else if(((RRDVAR *)a)->hash > ((RRDVAR *)b)->hash) return 1;
else return strcmp(((RRDVAR *)a)->name, ((RRDVAR *)b)->name);
}
static inline RRDVAR *rrdvar_index_add(avl_tree_lock *tree, RRDVAR *rv) {
RRDVAR *ret = (RRDVAR *)avl_insert_lock(tree, (avl *)(rv));
if(ret != rv)
debug(D_VARIABLES, "Request to insert RRDVAR '%s' into index failed. Already exists.", rv->name);
return ret;
}
static inline RRDVAR *rrdvar_index_del(avl_tree_lock *tree, RRDVAR *rv) {
RRDVAR *ret = (RRDVAR *)avl_remove_lock(tree, (avl *)(rv));
if(!ret)
error("Request to remove RRDVAR '%s' from index failed. Not Found.", rv->name);
return ret;
}
static inline RRDVAR *rrdvar_index_find(avl_tree_lock *tree, const char *name, uint32_t hash) {
RRDVAR tmp;
tmp.name = (char *)name;
tmp.hash = (hash)?hash:simple_hash(tmp.name);
return (RRDVAR *)avl_search_lock(tree, (avl *)&tmp);
}
inline void rrdvar_free(RRDHOST *host, avl_tree_lock *tree, RRDVAR *rv) {
(void)host;
if(!rv) return;
if(tree) {
debug(D_VARIABLES, "Deleting variable '%s'", rv->name);
if(unlikely(!rrdvar_index_del(tree, rv)))
error("RRDVAR: Attempted to delete variable '%s' from host '%s', but it is not found.", rv->name, host->hostname);
}
if(rv->options & RRDVAR_OPTION_ALLOCATED)
freez(rv->value);
freez(rv->name);
freez(rv);
}
inline RRDVAR *rrdvar_create_and_index(const char *scope, avl_tree_lock *tree, const char *name, RRDVAR_TYPE type, RRDVAR_OPTIONS options, void *value) {
char *variable = strdupz(name);
rrdvar_fix_name(variable);
uint32_t hash = simple_hash(variable);
RRDVAR *rv = rrdvar_index_find(tree, variable, hash);
if(unlikely(!rv)) {
debug(D_VARIABLES, "Variable '%s' not found in scope '%s'. Creating a new one.", variable, scope);
rv = callocz(1, sizeof(RRDVAR));
rv->name = variable;
rv->hash = hash;
rv->type = type;
rv->options = options;
rv->value = value;
rv->last_updated = now_realtime_sec();
RRDVAR *ret = rrdvar_index_add(tree, rv);
if(unlikely(ret != rv)) {
debug(D_VARIABLES, "Variable '%s' in scope '%s' already exists", variable, scope);
freez(rv);
freez(variable);
rv = NULL;
}
else
debug(D_VARIABLES, "Variable '%s' created in scope '%s'", variable, scope);
}
else {
debug(D_VARIABLES, "Variable '%s' is already found in scope '%s'.", variable, scope);
// already exists
freez(variable);
// this is important
// it must return NULL - not the existing variable - or double-free will happen
rv = NULL;
}
return rv;
}
void rrdvar_free_remaining_variables(RRDHOST *host, avl_tree_lock *tree_lock) {
// This is not bullet proof - avl should support some means to destroy it
// with a callback for each item already in the index
RRDVAR *rv, *last = NULL;
while((rv = (RRDVAR *)tree_lock->avl_tree.root)) {
if(unlikely(rv == last)) {
error("RRDVAR: INTERNAL ERROR: Cannot cleanup tree of RRDVARs");
break;
}
last = rv;
rrdvar_free(host, tree_lock, rv);
}
}
// ----------------------------------------------------------------------------
// CUSTOM HOST VARIABLES
inline int rrdvar_callback_for_all_host_variables(RRDHOST *host, int (*callback)(void * /*rrdvar*/, void * /*data*/), void *data) {
return avl_traverse_lock(&host->rrdvar_root_index, callback, data);
}
static RRDVAR *rrdvar_custom_variable_create(const char *scope, avl_tree_lock *tree_lock, const char *name) {
calculated_number *v = callocz(1, sizeof(calculated_number));
*v = NAN;
RRDVAR *rv = rrdvar_create_and_index(scope, tree_lock, name, RRDVAR_TYPE_CALCULATED, RRDVAR_OPTION_CUSTOM_HOST_VAR|RRDVAR_OPTION_ALLOCATED, v);
if(unlikely(!rv)) {
free(v);
debug(D_VARIABLES, "Requested variable '%s' already exists - possibly 2 plugins are updating it at the same time.", name);
char *variable = strdupz(name);
rrdvar_fix_name(variable);
uint32_t hash = simple_hash(variable);
// find the existing one to return it
rv = rrdvar_index_find(tree_lock, variable, hash);
freez(variable);
}
return rv;
}
RRDVAR *rrdvar_custom_host_variable_create(RRDHOST *host, const char *name) {
return rrdvar_custom_variable_create("host", &host->rrdvar_root_index, name);
}
void rrdvar_custom_host_variable_set(RRDHOST *host, RRDVAR *rv, calculated_number value) {
if(rv->type != RRDVAR_TYPE_CALCULATED || !(rv->options & RRDVAR_OPTION_CUSTOM_HOST_VAR) || !(rv->options & RRDVAR_OPTION_ALLOCATED))
error("requested to set variable '%s' to value " CALCULATED_NUMBER_FORMAT " but the variable is not a custom one.", rv->name, value);
else {
calculated_number *v = rv->value;
if(*v != value) {
*v = value;
rv->last_updated = now_realtime_sec();
// if the host is streaming, send this variable upstream immediately
rrdpush_sender_send_this_host_variable_now(host, rv);
}
}
}
int foreach_host_variable_callback(RRDHOST *host, int (*callback)(RRDVAR * /*rv*/, void * /*data*/), void *data) {
return avl_traverse_lock(&host->rrdvar_root_index, (int (*)(void *, void *))callback, data);
}
// ----------------------------------------------------------------------------
// RRDVAR lookup
calculated_number rrdvar2number(RRDVAR *rv) {
switch(rv->type) {
case RRDVAR_TYPE_CALCULATED: {
calculated_number *n = (calculated_number *)rv->value;
return *n;
}
case RRDVAR_TYPE_TIME_T: {
time_t *n = (time_t *)rv->value;
return *n;
}
case RRDVAR_TYPE_COLLECTED: {
collected_number *n = (collected_number *)rv->value;
return *n;
}
case RRDVAR_TYPE_TOTAL: {
total_number *n = (total_number *)rv->value;
return *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 calculated_number", rv->type);
return NAN;
}
}
int health_variable_lookup(const char *variable, uint32_t hash, RRDCALC *rc, calculated_number *result) {
RRDSET *st = rc->rrdset;
if(!st) return 0;
RRDHOST *host = st->rrdhost;
RRDVAR *rv;
rv = rrdvar_index_find(&st->rrdvar_root_index, variable, hash);
if(rv) {
*result = rrdvar2number(rv);
return 1;
}
rv = rrdvar_index_find(&st->rrdfamily->rrdvar_root_index, variable, hash);
if(rv) {
*result = rrdvar2number(rv);
return 1;
}
rv = rrdvar_index_find(&host->rrdvar_root_index, variable, hash);
if(rv) {
*result = rrdvar2number(rv);
return 1;
}
return 0;
}
// ----------------------------------------------------------------------------
// RRDVAR to JSON
struct variable2json_helper {
BUFFER *buf;
size_t counter;
};
static int single_variable2json(void *entry, void *data) {
struct variable2json_helper *helper = (struct variable2json_helper *)data;
RRDVAR *rv = (RRDVAR *)entry;
calculated_number value = rrdvar2number(rv);
if(unlikely(isnan(value) || isinf(value)))
buffer_sprintf(helper->buf, "%s\n\t\t\"%s\": null", helper->counter?",":"", rv->name);
else
buffer_sprintf(helper->buf, "%s\n\t\t\"%s\": %0.5" LONG_DOUBLE_MODIFIER, helper->counter?",":"", rv->name, (LONG_DOUBLE)value);
helper->counter++;
return 0;
}
void health_api_v1_chart_variables2json(RRDSET *st, BUFFER *buf) {
RRDHOST *host = st->rrdhost;
struct variable2json_helper helper = {
.buf = buf,
.counter = 0
};
buffer_sprintf(buf, "{\n\t\"chart\": \"%s\",\n\t\"chart_name\": \"%s\",\n\t\"chart_context\": \"%s\",\n\t\"chart_variables\": {", st->id, st->name, st->context);
avl_traverse_lock(&st->rrdvar_root_index, single_variable2json, (void *)&helper);
buffer_sprintf(buf, "\n\t},\n\t\"family\": \"%s\",\n\t\"family_variables\": {", st->family);
helper.counter = 0;
avl_traverse_lock(&st->rrdfamily->rrdvar_root_index, single_variable2json, (void *)&helper);
buffer_sprintf(buf, "\n\t},\n\t\"host\": \"%s\",\n\t\"host_variables\": {", host->hostname);
helper.counter = 0;
avl_traverse_lock(&host->rrdvar_root_index, single_variable2json, (void *)&helper);
buffer_strcat(buf, "\n\t}\n}\n");
}
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