// SPDX-License-Identifier: GPL-3.0-or-later #include "rrd.h" typedef struct rrdsetvar { STRING *name; // variable name void *value; // we need this to maintain the allocation for custom chart variables const RRDVAR_ACQUIRED *rrdvar_local; const RRDVAR_ACQUIRED *rrdvar_family_chart_id; const RRDVAR_ACQUIRED *rrdvar_family_chart_name; const RRDVAR_ACQUIRED *rrdvar_host_chart_id; const RRDVAR_ACQUIRED *rrdvar_host_chart_name; RRDVAR_FLAGS flags:24; RRDVAR_TYPE type:8; } RRDSETVAR; // should only be called while the rrdsetvar dict is write locked // otherwise, 2+ threads may be setting the same variables at the same time static inline void rrdsetvar_free_rrdvars_unsafe(RRDSET *st, RRDSETVAR *rs) { RRDHOST *host = st->rrdhost; // ------------------------------------------------------------------------ // CHART if(st->rrdvars) { rrdvar_release_and_del(st->rrdvars, rs->rrdvar_local); rs->rrdvar_local = NULL; } // ------------------------------------------------------------------------ // FAMILY if(st->rrdfamily) { rrdvar_release_and_del(rrdfamily_rrdvars_dict(st->rrdfamily), rs->rrdvar_family_chart_id); rs->rrdvar_family_chart_id = NULL; rrdvar_release_and_del(rrdfamily_rrdvars_dict(st->rrdfamily), rs->rrdvar_family_chart_name); rs->rrdvar_family_chart_name = NULL; } // ------------------------------------------------------------------------ // HOST if(host->rrdvars && host->health.health_enabled) { rrdvar_release_and_del(host->rrdvars, rs->rrdvar_host_chart_id); rs->rrdvar_host_chart_id = NULL; rrdvar_release_and_del(host->rrdvars, rs->rrdvar_host_chart_name); rs->rrdvar_host_chart_name = NULL; } } // should only be called while the rrdsetvar dict is write locked // otherwise, 2+ threads may be setting the same variables at the same time static inline void rrdsetvar_update_rrdvars_unsafe(RRDSET *st, RRDSETVAR *rs) { RRDHOST *host = st->rrdhost; RRDVAR_FLAGS options = rs->flags; options &= ~RRDVAR_OPTIONS_REMOVED_WHEN_PROPAGATING_TO_RRDVAR; // ------------------------------------------------------------------------ // free the old ones (if any) rrdsetvar_free_rrdvars_unsafe(st, rs); // ------------------------------------------------------------------------ // KEYS char buffer[RRDVAR_MAX_LENGTH + 1]; snprintfz(buffer, RRDVAR_MAX_LENGTH, "%s.%s", rrdset_id(st), string2str(rs->name)); STRING *key_chart_id = string_strdupz(buffer); snprintfz(buffer, RRDVAR_MAX_LENGTH, "%s.%s", rrdset_name(st), string2str(rs->name)); STRING *key_chart_name = string_strdupz(buffer); // ------------------------------------------------------------------------ // CHART if(st->rrdvars) { rs->rrdvar_local = rrdvar_add_and_acquire("local", st->rrdvars, rs->name, rs->type, options, rs->value); } // ------------------------------------------------------------------------ // FAMILY if(st->rrdfamily) { rs->rrdvar_family_chart_id = rrdvar_add_and_acquire("family", rrdfamily_rrdvars_dict(st->rrdfamily), key_chart_id, rs->type, options, rs->value); rs->rrdvar_family_chart_name = rrdvar_add_and_acquire("family", rrdfamily_rrdvars_dict(st->rrdfamily), key_chart_name, rs->type, options, rs->value); } // ------------------------------------------------------------------------ // HOST if(host->rrdvars && host->health.health_enabled) { rs->rrdvar_host_chart_id = rrdvar_add_and_acquire("host", host->rrdvars, key_chart_id, rs->type, options, rs->value); rs->rrdvar_host_chart_name = rrdvar_add_and_acquire("host", host->rrdvars, key_chart_name, rs->type, options, rs->value); } // free the keys string_freez(key_chart_id); string_freez(key_chart_name); } static void rrdsetvar_free_value_unsafe(RRDSETVAR *rs) { if(rs->flags & RRDVAR_FLAG_ALLOCATED) { void *old = rs->value; rs->value = NULL; rs->flags &= ~RRDVAR_FLAG_ALLOCATED; freez(old); } } static void rrdsetvar_set_value_unsafe(RRDSETVAR *rs, void *new_value) { rrdsetvar_free_value_unsafe(rs); if(new_value) rs->value = new_value; else { NETDATA_DOUBLE *n = mallocz(sizeof(NETDATA_DOUBLE)); *n = NAN; rs->value = n; rs->flags |= RRDVAR_FLAG_ALLOCATED; } } struct rrdsetvar_constructor { RRDSET *rrdset; const char *name; void *value; RRDVAR_FLAGS flags :16; RRDVAR_TYPE type:8; }; static void rrdsetvar_insert_callback(const DICTIONARY_ITEM *item __maybe_unused, void *rrdsetvar, void *constructor_data) { RRDSETVAR *rs = rrdsetvar; struct rrdsetvar_constructor *ctr = constructor_data; ctr->flags &= ~RRDVAR_OPTIONS_REMOVED_ON_NEW_OBJECTS; rs->name = string_strdupz(ctr->name); rs->type = ctr->type; rs->flags = ctr->flags; rrdsetvar_set_value_unsafe(rs, ctr->value); // create the rrdvariables while we are having a write lock to the dictionary rrdsetvar_update_rrdvars_unsafe(ctr->rrdset, rs); } static bool rrdsetvar_conflict_callback(const DICTIONARY_ITEM *item __maybe_unused, void *rrdsetvar, void *new_rrdsetvar __maybe_unused, void *constructor_data) { RRDSETVAR *rs = rrdsetvar; struct rrdsetvar_constructor *ctr = constructor_data; ctr->flags &= ~RRDVAR_OPTIONS_REMOVED_ON_NEW_OBJECTS; RRDVAR_FLAGS options = rs->flags; options &= ~RRDVAR_OPTIONS_REMOVED_ON_NEW_OBJECTS; if(((ctr->value == NULL && rs->value != NULL && rs->flags & RRDVAR_FLAG_ALLOCATED) || (rs->value == ctr->value)) && ctr->flags == options && rs->type == ctr->type) { // don't reset it - everything is the same, or as it should... return false; } internal_error(true, "RRDSETVAR: resetting variable '%s' of chart '%s' of host '%s', options from 0x%x to 0x%x, type from %d to %d", string2str(rs->name), rrdset_id(ctr->rrdset), rrdhost_hostname(ctr->rrdset->rrdhost), options, ctr->flags, rs->type, ctr->type); rrdsetvar_free_value_unsafe(rs); // we are going to change the options, so free it before setting it rs->flags = ctr->flags; rs->type = ctr->type; rrdsetvar_set_value_unsafe(rs, ctr->value); // recreate the rrdvariables while we are having a write lock to the dictionary rrdsetvar_update_rrdvars_unsafe(ctr->rrdset, rs); return true; } static void rrdsetvar_delete_callback(const DICTIONARY_ITEM *item __maybe_unused, void *rrdsetvar, void *rrdset __maybe_unused) { RRDSET *st = rrdset; RRDSETVAR *rs = rrdsetvar; rrdsetvar_free_rrdvars_unsafe(st, rs); rrdsetvar_free_value_unsafe(rs); string_freez(rs->name); rs->name = NULL; } void rrdsetvar_index_init(RRDSET *st) { if(!st->rrdsetvar_root_index) { st->rrdsetvar_root_index = dictionary_create_advanced(DICT_OPTION_DONT_OVERWRITE_VALUE | DICT_OPTION_FIXED_SIZE, &dictionary_stats_category_rrdhealth, sizeof(RRDSETVAR)); dictionary_register_insert_callback(st->rrdsetvar_root_index, rrdsetvar_insert_callback, NULL); dictionary_register_conflict_callback(st->rrdsetvar_root_index, rrdsetvar_conflict_callback, NULL); dictionary_register_delete_callback(st->rrdsetvar_root_index, rrdsetvar_delete_callback, st); } } void rrdsetvar_index_destroy(RRDSET *st) { dictionary_destroy(st->rrdsetvar_root_index); st->rrdsetvar_root_index = NULL; } const RRDSETVAR_ACQUIRED *rrdsetvar_add_and_acquire(RRDSET *st, const char *name, RRDVAR_TYPE type, void *value, RRDVAR_FLAGS flags) { struct rrdsetvar_constructor tmp = { .name = name, .type = type, .value = value, .flags = flags, .rrdset = st, }; const RRDSETVAR_ACQUIRED *rsa = (const RRDSETVAR_ACQUIRED *)dictionary_set_and_acquire_item_advanced(st->rrdsetvar_root_index, name, -1, NULL, sizeof(RRDSETVAR), &tmp); return rsa; } void rrdsetvar_add_and_leave_released(RRDSET *st, const char *name, RRDVAR_TYPE type, void *value, RRDVAR_FLAGS flags) { const RRDSETVAR_ACQUIRED *rsa = rrdsetvar_add_and_acquire(st, name, type, value, flags); dictionary_acquired_item_release(st->rrdsetvar_root_index, (const DICTIONARY_ITEM *)rsa); } void rrdsetvar_rename_all(RRDSET *st) { netdata_log_debug(D_VARIABLES, "RRDSETVAR rename for chart id '%s' name '%s'", rrdset_id(st), rrdset_name(st)); RRDSETVAR *rs; dfe_start_write(st->rrdsetvar_root_index, rs) { // should only be called while the rrdsetvar dict is write locked rrdsetvar_update_rrdvars_unsafe(st, rs); } dfe_done(rs); rrdcalc_link_matching_alerts_to_rrdset(st); } void rrdsetvar_release_and_delete_all(RRDSET *st) { RRDSETVAR *rs; dfe_start_write(st->rrdsetvar_root_index, rs) { dictionary_del_advanced(st->rrdsetvar_root_index, string2str(rs->name), (ssize_t)string_strlen(rs->name) + 1); } dfe_done(rs); } void rrdsetvar_release(DICTIONARY *dict, const RRDSETVAR_ACQUIRED *rsa) { dictionary_acquired_item_release(dict, (const DICTIONARY_ITEM *)rsa); } // -------------------------------------------------------------------------------------------------------------------- // custom chart variables const RRDSETVAR_ACQUIRED *rrdsetvar_custom_chart_variable_add_and_acquire(RRDSET *st, const char *name) { STRING *name_string = rrdvar_name_to_string(name); const RRDSETVAR_ACQUIRED *rs = rrdsetvar_add_and_acquire(st, string2str(name_string), RRDVAR_TYPE_CALCULATED, NULL, RRDVAR_FLAG_CUSTOM_CHART_VAR); string_freez(name_string); return rs; } void rrdsetvar_custom_chart_variable_set(RRDSET *st, const RRDSETVAR_ACQUIRED *rsa, NETDATA_DOUBLE value) { if(!rsa) return; RRDSETVAR *rs = dictionary_acquired_item_value((const DICTIONARY_ITEM *)rsa); if(rs->type != RRDVAR_TYPE_CALCULATED || !(rs->flags & RRDVAR_FLAG_CUSTOM_CHART_VAR) || !(rs->flags & RRDVAR_FLAG_ALLOCATED)) { netdata_log_error("RRDSETVAR: requested to set variable '%s' of chart '%s' on host '%s' to value " NETDATA_DOUBLE_FORMAT " but the variable is not a custom chart one (it has options 0x%x, value pointer %p). Ignoring request.", string2str(rs->name), rrdset_id(st), rrdhost_hostname(st->rrdhost), value, (uint32_t)rs->flags, rs->value); } else { NETDATA_DOUBLE *v = rs->value; if(*v != value) { *v = value; rrdset_flag_set(st, RRDSET_FLAG_UPSTREAM_SEND_VARIABLES); } } } void rrdsetvar_print_to_streaming_custom_chart_variables(RRDSET *st, BUFFER *wb) { rrdset_flag_clear(st, RRDSET_FLAG_UPSTREAM_SEND_VARIABLES); // send the chart local custom variables RRDSETVAR *rs; dfe_start_read(st->rrdsetvar_root_index, rs) { if(unlikely(rs->type == RRDVAR_TYPE_CALCULATED && rs->flags & RRDVAR_FLAG_CUSTOM_CHART_VAR)) { NETDATA_DOUBLE *value = (NETDATA_DOUBLE *) rs->value; buffer_sprintf(wb , "VARIABLE CHART %s = " NETDATA_DOUBLE_FORMAT "\n" , string2str(rs->name) , *value ); } } dfe_done(rs); }