// SPDX-License-Identifier: GPL-3.0-or-later #define NETDATA_RRD_INTERNALS #include "rrd.h" #include "storage_engine.h" void rrddim_metadata_updated(RRDDIM *rd) { rrdcontext_updated_rrddim(rd); rrdset_metadata_updated(rd->rrdset); } // ---------------------------------------------------------------------------- // RRDDIM index struct rrddim_constructor { RRDSET *st; const char *id; const char *name; collected_number multiplier; collected_number divisor; RRD_ALGORITHM algorithm; RRD_MEMORY_MODE memory_mode; enum { RRDDIM_REACT_NONE = 0, RRDDIM_REACT_NEW = (1 << 0), RRDDIM_REACT_UPDATED = (1 << 2), } react_action; }; // isolated call to appear // separate in statistics static void *rrddim_alloc_db(size_t entries) { return callocz(entries, sizeof(storage_number)); } static void rrddim_insert_callback(const DICTIONARY_ITEM *item __maybe_unused, void *rrddim, void *constructor_data) { struct rrddim_constructor *ctr = constructor_data; RRDDIM *rd = rrddim; RRDSET *st = ctr->st; RRDHOST *host = st->rrdhost; rd->flags = RRDDIM_FLAG_NONE; rd->id = string_strdupz(ctr->id); rd->name = (ctr->name && *ctr->name)?rrd_string_strdupz(ctr->name):string_dup(rd->id); rd->algorithm = ctr->algorithm; rd->multiplier = ctr->multiplier; rd->divisor = ctr->divisor; if(!rd->divisor) rd->divisor = 1; rd->rrdset = st; rd->rrdpush.sender.dim_slot = __atomic_add_fetch(&st->rrdpush.sender.dim_last_slot_used, 1, __ATOMIC_RELAXED); if(rrdset_flag_check(st, RRDSET_FLAG_STORE_FIRST)) rd->collector.counter = 1; if(ctr->memory_mode == RRD_MEMORY_MODE_MAP || ctr->memory_mode == RRD_MEMORY_MODE_SAVE) { if(!rrddim_memory_load_or_create_map_save(st, rd, ctr->memory_mode)) { netdata_log_info("Failed to use memory mode %s for chart '%s', dimension '%s', falling back to ram", (ctr->memory_mode == RRD_MEMORY_MODE_MAP)?"map":"save", rrdset_name(st), rrddim_name(rd)); ctr->memory_mode = RRD_MEMORY_MODE_RAM; } } if(ctr->memory_mode == RRD_MEMORY_MODE_RAM) { size_t entries = st->db.entries; if(!entries) entries = 5; rd->db.data = netdata_mmap(NULL, entries * sizeof(storage_number), MAP_PRIVATE, 1, false, NULL); if(!rd->db.data) { netdata_log_info("Failed to use memory mode ram for chart '%s', dimension '%s', falling back to alloc", rrdset_name(st), rrddim_name(rd)); ctr->memory_mode = RRD_MEMORY_MODE_ALLOC; } else { rd->db.memsize = entries * sizeof(storage_number); __atomic_add_fetch(&rrddim_db_memory_size, rd->db.memsize, __ATOMIC_RELAXED); } } if(ctr->memory_mode == RRD_MEMORY_MODE_ALLOC || ctr->memory_mode == RRD_MEMORY_MODE_NONE) { size_t entries = st->db.entries; if(entries < 5) entries = 5; rd->db.data = rrddim_alloc_db(entries); rd->db.memsize = entries * sizeof(storage_number); __atomic_add_fetch(&rrddim_db_memory_size, rd->db.memsize, __ATOMIC_RELAXED); } rd->rrd_memory_mode = ctr->memory_mode; if (unlikely(rrdcontext_find_dimension_uuid(st, rrddim_id(rd), &(rd->metric_uuid)))) uuid_generate(rd->metric_uuid); // initialize the db tiers { size_t initialized = 0; for(size_t tier = 0; tier < storage_tiers ; tier++) { STORAGE_ENGINE *eng = host->db[tier].eng; rd->tiers[tier].backend = eng->backend; rd->tiers[tier].tier_grouping = host->db[tier].tier_grouping; rd->tiers[tier].db_metric_handle = eng->api.metric_get_or_create(rd, host->db[tier].instance); storage_point_unset(rd->tiers[tier].virtual_point); initialized++; // internal_error(true, "TIER GROUPING of chart '%s', dimension '%s' for tier %d is set to %d", rd->rrdset->name, rd->name, tier, rd->tiers[tier]->tier_grouping); } if(!initialized) netdata_log_error("Failed to initialize all db tiers for chart '%s', dimension '%s", rrdset_name(st), rrddim_name(rd)); if(!rd->tiers[0].db_metric_handle) netdata_log_error("Failed to initialize the first db tier for chart '%s', dimension '%s", rrdset_name(st), rrddim_name(rd)); } // initialize data collection for all tiers { size_t initialized = 0; for (size_t tier = 0; tier < storage_tiers; tier++) { if (rd->tiers[tier].db_metric_handle) { rd->tiers[tier].db_collection_handle = storage_metric_store_init(rd->tiers[tier].backend, rd->tiers[tier].db_metric_handle, st->rrdhost->db[tier].tier_grouping * st->update_every, rd->rrdset->storage_metrics_groups[tier]); initialized++; } } if(!initialized) netdata_log_error("Failed to initialize data collection for all db tiers for chart '%s', dimension '%s", rrdset_name(st), rrddim_name(rd)); } if(rrdset_number_of_dimensions(st) != 0) { RRDDIM *td; dfe_start_write(st->rrddim_root_index, td) { if(td) break; } dfe_done(td); if(td && (td->algorithm != rd->algorithm || ABS(td->multiplier) != ABS(rd->multiplier) || ABS(td->divisor) != ABS(rd->divisor))) { if(!rrdset_flag_check(st, RRDSET_FLAG_HETEROGENEOUS)) { #ifdef NETDATA_INTERNAL_CHECKS netdata_log_info("Dimension '%s' added on chart '%s' of host '%s' is not homogeneous to other dimensions already " "present (algorithm is '%s' vs '%s', multiplier is %d vs %d, " "divisor is %d vs %d).", rrddim_name(rd), rrdset_name(st), rrdhost_hostname(host), rrd_algorithm_name(rd->algorithm), rrd_algorithm_name(td->algorithm), rd->multiplier, td->multiplier, rd->divisor, td->divisor ); #endif rrdset_flag_set(st, RRDSET_FLAG_HETEROGENEOUS); } } } rrddim_flag_set(rd, RRDDIM_FLAG_PENDING_HEALTH_INITIALIZATION); rrdset_flag_set(rd->rrdset, RRDSET_FLAG_PENDING_HEALTH_INITIALIZATION); rrdhost_flag_set(rd->rrdset->rrdhost, RRDHOST_FLAG_PENDING_HEALTH_INITIALIZATION); // let the chart resync rrdset_flag_set(st, RRDSET_FLAG_SYNC_CLOCK); ml_dimension_new(rd); ctr->react_action = RRDDIM_REACT_NEW; internal_error(false, "RRDDIM: inserted dimension '%s' of chart '%s' of host '%s'", rrddim_name(rd), rrdset_name(st), rrdhost_hostname(st->rrdhost)); } bool rrddim_finalize_collection_and_check_retention(RRDDIM *rd) { size_t tiers_available = 0, tiers_said_no_retention = 0; for(size_t tier = 0; tier < storage_tiers ;tier++) { if(!rd->tiers[tier].db_collection_handle) continue; tiers_available++; if(storage_engine_store_finalize(rd->tiers[tier].db_collection_handle)) tiers_said_no_retention++; rd->tiers[tier].db_collection_handle = NULL; } // return true if the dimension has retention in the db return (!tiers_said_no_retention || tiers_available > tiers_said_no_retention); } static void rrddim_delete_callback(const DICTIONARY_ITEM *item __maybe_unused, void *rrddim, void *rrdset) { RRDDIM *rd = rrddim; RRDSET *st = rrdset; RRDHOST *host = st->rrdhost; internal_error(false, "RRDDIM: deleting dimension '%s' of chart '%s' of host '%s'", rrddim_name(rd), rrdset_name(st), rrdhost_hostname(host)); rrdcontext_removed_rrddim(rd); ml_dimension_delete(rd); netdata_log_debug(D_RRD_CALLS, "rrddim_free() %s.%s", rrdset_name(st), rrddim_name(rd)); if (!rrddim_finalize_collection_and_check_retention(rd) && rd->rrd_memory_mode == RRD_MEMORY_MODE_DBENGINE) { /* This metric has no data and no references */ metaqueue_delete_dimension_uuid(&rd->metric_uuid); } rrddimvar_delete_all(rd); // free(rd->annotations); //#ifdef ENABLE_ACLK // if (!netdata_exit) // aclk_send_dimension_update(rd); //#endif // this will free MEMORY_MODE_SAVE and MEMORY_MODE_MAP structures rrddim_memory_file_free(rd); for(size_t tier = 0; tier < storage_tiers ;tier++) { if(!rd->tiers[tier].db_metric_handle) continue; STORAGE_ENGINE* eng = host->db[tier].eng; eng->api.metric_release(rd->tiers[tier].db_metric_handle); rd->tiers[tier].db_metric_handle = NULL; } if(rd->db.data) { __atomic_sub_fetch(&rrddim_db_memory_size, rd->db.memsize, __ATOMIC_RELAXED); if(rd->rrd_memory_mode == RRD_MEMORY_MODE_RAM) netdata_munmap(rd->db.data, rd->db.memsize); else freez(rd->db.data); } string_freez(rd->id); string_freez(rd->name); } static bool rrddim_conflict_callback(const DICTIONARY_ITEM *item __maybe_unused, void *rrddim, void *new_rrddim, void *constructor_data) { (void)new_rrddim; // it is NULL struct rrddim_constructor *ctr = constructor_data; RRDDIM *rd = rrddim; RRDSET *st = ctr->st; ctr->react_action = RRDDIM_REACT_NONE; int rc = rrddim_reset_name(st, rd, ctr->name); rc += rrddim_set_algorithm(st, rd, ctr->algorithm); rc += rrddim_set_multiplier(st, rd, ctr->multiplier); rc += rrddim_set_divisor(st, rd, ctr->divisor); for(size_t tier = 0; tier < storage_tiers ;tier++) { if (!rd->tiers[tier].db_collection_handle) rd->tiers[tier].db_collection_handle = storage_metric_store_init(rd->tiers[tier].backend, rd->tiers[tier].db_metric_handle, st->rrdhost->db[tier].tier_grouping * st->update_every, rd->rrdset->storage_metrics_groups[tier]); } if(rrddim_flag_check(rd, RRDDIM_FLAG_ARCHIVED)) { rrddim_flag_clear(rd, RRDDIM_FLAG_ARCHIVED); rrddim_flag_set(rd, RRDDIM_FLAG_PENDING_HEALTH_INITIALIZATION); rrdset_flag_set(rd->rrdset, RRDSET_FLAG_PENDING_HEALTH_INITIALIZATION); rrdhost_flag_set(rd->rrdset->rrdhost, RRDHOST_FLAG_PENDING_HEALTH_INITIALIZATION); } if(unlikely(rc)) ctr->react_action = RRDDIM_REACT_UPDATED; return ctr->react_action == RRDDIM_REACT_UPDATED; } static void rrddim_react_callback(const DICTIONARY_ITEM *item __maybe_unused, void *rrddim, void *constructor_data) { struct rrddim_constructor *ctr = constructor_data; RRDDIM *rd = rrddim; RRDSET *st = ctr->st; if(ctr->react_action & (RRDDIM_REACT_UPDATED | RRDDIM_REACT_NEW)) { rrddim_flag_set(rd, RRDDIM_FLAG_METADATA_UPDATE); rrdhost_flag_set(rd->rrdset->rrdhost, RRDHOST_FLAG_METADATA_UPDATE); } if(ctr->react_action == RRDDIM_REACT_UPDATED) { // the chart needs to be updated to the parent rrdset_flag_set(st, RRDSET_FLAG_SYNC_CLOCK); } rrddim_metadata_updated(rd); } size_t rrddim_size(void) { return sizeof(RRDDIM) + storage_tiers * sizeof(struct rrddim_tier); } void rrddim_index_init(RRDSET *st) { if(!st->rrddim_root_index) { st->rrddim_root_index = dictionary_create_advanced(DICT_OPTION_DONT_OVERWRITE_VALUE | DICT_OPTION_FIXED_SIZE, &dictionary_stats_category_rrdset_rrddim, rrddim_size()); dictionary_register_insert_callback(st->rrddim_root_index, rrddim_insert_callback, NULL); dictionary_register_conflict_callback(st->rrddim_root_index, rrddim_conflict_callback, NULL); dictionary_register_delete_callback(st->rrddim_root_index, rrddim_delete_callback, st); dictionary_register_react_callback(st->rrddim_root_index, rrddim_react_callback, st); } } void rrddim_index_destroy(RRDSET *st) { dictionary_destroy(st->rrddim_root_index); st->rrddim_root_index = NULL; } static inline RRDDIM *rrddim_index_find(RRDSET *st, const char *id) { return dictionary_get(st->rrddim_root_index, id); } // ---------------------------------------------------------------------------- // RRDDIM - find a dimension inline RRDDIM *rrddim_find(RRDSET *st, const char *id) { netdata_log_debug(D_RRD_CALLS, "rrddim_find() for chart %s, dimension %s", rrdset_name(st), id); return rrddim_index_find(st, id); } inline RRDDIM_ACQUIRED *rrddim_find_and_acquire(RRDSET *st, const char *id) { netdata_log_debug(D_RRD_CALLS, "rrddim_find_and_acquire() for chart %s, dimension %s", rrdset_name(st), id); return (RRDDIM_ACQUIRED *)dictionary_get_and_acquire_item(st->rrddim_root_index, id); } RRDDIM *rrddim_acquired_to_rrddim(RRDDIM_ACQUIRED *rda) { if(unlikely(!rda)) return NULL; return (RRDDIM *) dictionary_acquired_item_value((const DICTIONARY_ITEM *)rda); } void rrddim_acquired_release(RRDDIM_ACQUIRED *rda) { if(unlikely(!rda)) return; RRDDIM *rd = rrddim_acquired_to_rrddim(rda); dictionary_acquired_item_release(rd->rrdset->rrddim_root_index, (const DICTIONARY_ITEM *)rda); } // This will not return dimensions that are archived RRDDIM *rrddim_find_active(RRDSET *st, const char *id) { RRDDIM *rd = rrddim_find(st, id); if (unlikely(rd && rrddim_flag_check(rd, RRDDIM_FLAG_ARCHIVED))) return NULL; return rd; } // ---------------------------------------------------------------------------- // RRDDIM rename a dimension inline int rrddim_reset_name(RRDSET *st, RRDDIM *rd, const char *name) { if(unlikely(!name || !*name || !strcmp(rrddim_name(rd), name))) return 0; netdata_log_debug(D_RRD_CALLS, "rrddim_reset_name() from %s.%s to %s.%s", rrdset_name(st), rrddim_name(rd), rrdset_name(st), name); STRING *old = rd->name; rd->name = rrd_string_strdupz(name); string_freez(old); rrddimvar_rename_all(rd); rrddim_metadata_updated(rd); return 1; } inline int rrddim_set_algorithm(RRDSET *st, RRDDIM *rd, RRD_ALGORITHM algorithm) { if(unlikely(rd->algorithm == algorithm)) return 0; netdata_log_debug(D_RRD_CALLS, "Updating algorithm of dimension '%s/%s' from %s to %s", rrdset_id(st), rrddim_name(rd), rrd_algorithm_name(rd->algorithm), rrd_algorithm_name(algorithm)); rd->algorithm = algorithm; rrddim_metadata_updated(rd); rrdset_flag_set(st, RRDSET_FLAG_HOMOGENEOUS_CHECK); rrdcontext_updated_rrddim_algorithm(rd); return 1; } inline int rrddim_set_multiplier(RRDSET *st, RRDDIM *rd, int32_t multiplier) { if(unlikely(rd->multiplier == multiplier)) return 0; netdata_log_debug(D_RRD_CALLS, "Updating multiplier of dimension '%s/%s' from %d to %d", rrdset_id(st), rrddim_name(rd), rd->multiplier, multiplier); rd->multiplier = multiplier; rrddim_metadata_updated(rd); rrdset_flag_set(st, RRDSET_FLAG_HOMOGENEOUS_CHECK); rrdcontext_updated_rrddim_multiplier(rd); return 1; } inline int rrddim_set_divisor(RRDSET *st, RRDDIM *rd, int32_t divisor) { if(unlikely(rd->divisor == divisor)) return 0; netdata_log_debug(D_RRD_CALLS, "Updating divisor of dimension '%s/%s' from %d to %d", rrdset_id(st), rrddim_name(rd), rd->divisor, divisor); rd->divisor = divisor; rrddim_metadata_updated(rd); rrdset_flag_set(st, RRDSET_FLAG_HOMOGENEOUS_CHECK); rrdcontext_updated_rrddim_divisor(rd); return 1; } // ---------------------------------------------------------------------------- time_t rrddim_last_entry_s_of_tier(RRDDIM *rd, size_t tier) { if(unlikely(tier > storage_tiers || !rd->tiers[tier].db_metric_handle)) return 0; return storage_engine_latest_time_s(rd->tiers[tier].backend, rd->tiers[tier].db_metric_handle); } // get the timestamp of the last entry in the round-robin database time_t rrddim_last_entry_s(RRDDIM *rd) { time_t latest_time_s = rrddim_last_entry_s_of_tier(rd, 0); for(size_t tier = 1; tier < storage_tiers ;tier++) { if(unlikely(!rd->tiers[tier].db_metric_handle)) continue; time_t t = rrddim_last_entry_s_of_tier(rd, tier); if(t > latest_time_s) latest_time_s = t; } return latest_time_s; } time_t rrddim_first_entry_s_of_tier(RRDDIM *rd, size_t tier) { if(unlikely(tier > storage_tiers || !rd->tiers[tier].db_metric_handle)) return 0; return storage_engine_oldest_time_s(rd->tiers[tier].backend, rd->tiers[tier].db_metric_handle); } time_t rrddim_first_entry_s(RRDDIM *rd) { time_t oldest_time_s = 0; for(size_t tier = 0; tier < storage_tiers ;tier++) { time_t t = rrddim_first_entry_s_of_tier(rd, tier); if(t != 0 && (oldest_time_s == 0 || t < oldest_time_s)) oldest_time_s = t; } return oldest_time_s; } RRDDIM *rrddim_add_custom(RRDSET *st , const char *id , const char *name , collected_number multiplier , collected_number divisor , RRD_ALGORITHM algorithm , RRD_MEMORY_MODE memory_mode ) { struct rrddim_constructor tmp = { .st = st, .id = id, .name = name, .multiplier = multiplier, .divisor = divisor, .algorithm = algorithm, .memory_mode = memory_mode, }; RRDDIM *rd = dictionary_set_advanced(st->rrddim_root_index, tmp.id, -1, NULL, rrddim_size(), &tmp); return(rd); } // ---------------------------------------------------------------------------- // RRDDIM remove / free a dimension void rrddim_free(RRDSET *st, RRDDIM *rd) { dictionary_del(st->rrddim_root_index, string2str(rd->id)); } // ---------------------------------------------------------------------------- // RRDDIM - set dimension options int rrddim_hide(RRDSET *st, const char *id) { netdata_log_debug(D_RRD_CALLS, "rrddim_hide() for chart %s, dimension %s", rrdset_name(st), id); RRDHOST *host = st->rrdhost; RRDDIM *rd = rrddim_find(st, id); if(unlikely(!rd)) { netdata_log_error("Cannot find dimension with id '%s' on stats '%s' (%s) on host '%s'.", id, rrdset_name(st), rrdset_id(st), rrdhost_hostname(host)); return 1; } if (!rrddim_flag_check(rd, RRDDIM_FLAG_META_HIDDEN)) { rrddim_flag_set(rd, RRDDIM_FLAG_META_HIDDEN | RRDDIM_FLAG_METADATA_UPDATE); rrdhost_flag_set(rd->rrdset->rrdhost, RRDHOST_FLAG_METADATA_UPDATE); } rrddim_option_set(rd, RRDDIM_OPTION_HIDDEN); rrdcontext_updated_rrddim_flags(rd); return 0; } int rrddim_unhide(RRDSET *st, const char *id) { netdata_log_debug(D_RRD_CALLS, "rrddim_unhide() for chart %s, dimension %s", rrdset_name(st), id); RRDHOST *host = st->rrdhost; RRDDIM *rd = rrddim_find(st, id); if(unlikely(!rd)) { netdata_log_error("Cannot find dimension with id '%s' on stats '%s' (%s) on host '%s'.", id, rrdset_name(st), rrdset_id(st), rrdhost_hostname(host)); return 1; } if (rrddim_flag_check(rd, RRDDIM_FLAG_META_HIDDEN)) { rrddim_flag_clear(rd, RRDDIM_FLAG_META_HIDDEN); rrddim_flag_set(rd, RRDDIM_FLAG_METADATA_UPDATE); rrdhost_flag_set(rd->rrdset->rrdhost, RRDHOST_FLAG_METADATA_UPDATE); } rrddim_option_clear(rd, RRDDIM_OPTION_HIDDEN); rrdcontext_updated_rrddim_flags(rd); return 0; } inline void rrddim_is_obsolete___safe_from_collector_thread(RRDSET *st, RRDDIM *rd) { netdata_log_debug(D_RRD_CALLS, "rrddim_is_obsolete___safe_from_collector_thread() for chart %s, dimension %s", rrdset_name(st), rrddim_name(rd)); if(unlikely(rrddim_flag_check(rd, RRDDIM_FLAG_ARCHIVED))) { netdata_log_info("Cannot obsolete already archived dimension %s from chart %s", rrddim_name(rd), rrdset_name(st)); return; } rrddim_flag_set(rd, RRDDIM_FLAG_OBSOLETE); rrdset_flag_set(st, RRDSET_FLAG_OBSOLETE_DIMENSIONS); rrdhost_flag_set(st->rrdhost, RRDHOST_FLAG_PENDING_OBSOLETE_DIMENSIONS); rrdcontext_updated_rrddim_flags(rd); } inline void rrddim_isnot_obsolete___safe_from_collector_thread(RRDSET *st __maybe_unused, RRDDIM *rd) { netdata_log_debug(D_RRD_CALLS, "rrddim_isnot_obsolete___safe_from_collector_thread() for chart %s, dimension %s", rrdset_name(st), rrddim_name(rd)); rrddim_flag_clear(rd, RRDDIM_FLAG_OBSOLETE); rrdcontext_updated_rrddim_flags(rd); } // ---------------------------------------------------------------------------- // RRDDIM - collect values for a dimension inline collected_number rrddim_set_by_pointer(RRDSET *st, RRDDIM *rd, collected_number value) { struct timeval now; now_realtime_timeval(&now); return rrddim_timed_set_by_pointer(st, rd, now, value); } collected_number rrddim_timed_set_by_pointer(RRDSET *st __maybe_unused, RRDDIM *rd, struct timeval collected_time, collected_number value) { netdata_log_debug(D_RRD_CALLS, "rrddim_set_by_pointer() for chart %s, dimension %s, value " COLLECTED_NUMBER_FORMAT, rrdset_name(st), rrddim_name(rd), value); rd->collector.last_collected_time = collected_time; rd->collector.collected_value = value; rrddim_set_updated(rd); rd->collector.counter++; collected_number v = (value >= 0) ? value : -value; if (unlikely(v > rd->collector.collected_value_max)) rd->collector.collected_value_max = v; return rd->collector.last_collected_value; } collected_number rrddim_set(RRDSET *st, const char *id, collected_number value) { RRDHOST *host = st->rrdhost; RRDDIM *rd = rrddim_find(st, id); if(unlikely(!rd)) { netdata_log_error("Cannot find dimension with id '%s' on stats '%s' (%s) on host '%s'.", id, rrdset_name(st), rrdset_id(st), rrdhost_hostname(host)); return 0; } return rrddim_set_by_pointer(st, rd, value); } // ---------------------------------------------------------------------------- // compatibility layer for RRDDIM files v019 #define RRDDIMENSION_MAGIC_V019 "NETDATA RRD DIMENSION FILE V019" struct avl_element_v019 { void *avl_link[2]; signed char avl_balance; }; struct rrddim_map_save_v019 { struct avl_element_v019 avl; // ignored void *id; // ignored void *name; // ignored uint32_t algorithm; // print warning on mismatch - update on load uint32_t rrd_memory_mode; // ignored long long multiplier; // print warning on mismatch - update on load long long divisor; // print warning on mismatch - update on load uint32_t flags; // ignored uint32_t hash; // ignored uint32_t hash_name; // ignored void *cache_filename; // ignored - we use it to keep the filename to save back size_t collections_counter; // ignored void *state; // ignored size_t unused[8]; // ignored long long collected_value_max; // ignored unsigned int updated:1; // ignored unsigned int exposed:1; // ignored struct timeval last_collected_time; // check to reset all - ignored after load long double calculated_value; // ignored long double last_calculated_value; // ignored long double last_stored_value; // ignored long long collected_value; // ignored long long last_collected_value; // load and save long double collected_volume; // ignored long double stored_volume; // ignored void *next; // ignored void *rrdset; // ignored long entries; // check to reset all - update on load int update_every; // check to reset all - update on load size_t memsize; // check to reset all - update on load char magic[sizeof(RRDDIMENSION_MAGIC_V019) + 1];// check to reset all - update on load void *variables; // ignored storage_number values[]; // the array of values }; size_t rrddim_memory_file_header_size(void) { return sizeof(struct rrddim_map_save_v019); } void rrddim_memory_file_update(RRDDIM *rd) { if(!rd || !rd->db.rd_on_file) return; struct rrddim_map_save_v019 *rd_on_file = rd->db.rd_on_file; rd_on_file->last_collected_time.tv_sec = rd->collector.last_collected_time.tv_sec; rd_on_file->last_collected_time.tv_usec = rd->collector.last_collected_time.tv_usec; rd_on_file->last_collected_value = rd->collector.last_collected_value; } void rrddim_memory_file_free(RRDDIM *rd) { if(!rd || !rd->db.rd_on_file) return; // needed for memory mode map, to save the latest state rrddim_memory_file_update(rd); struct rrddim_map_save_v019 *rd_on_file = rd->db.rd_on_file; __atomic_sub_fetch(&rrddim_db_memory_size, rd_on_file->memsize + strlen(rd_on_file->cache_filename), __ATOMIC_RELAXED); freez(rd_on_file->cache_filename); netdata_munmap(rd_on_file, rd_on_file->memsize); // remove the pointers from the RRDDIM rd->db.rd_on_file = NULL; rd->db.data = NULL; } const char *rrddim_cache_filename(RRDDIM *rd) { if(!rd || !rd->db.rd_on_file) return NULL; struct rrddim_map_save_v019 *rd_on_file = rd->db.rd_on_file; return rd_on_file->cache_filename; } void rrddim_memory_file_save(RRDDIM *rd) { if(!rd || !rd->db.rd_on_file) return; rrddim_memory_file_update(rd); struct rrddim_map_save_v019 *rd_on_file = rd->db.rd_on_file; if(rd_on_file->rrd_memory_mode != RRD_MEMORY_MODE_SAVE) return; memory_file_save(rd_on_file->cache_filename, rd_on_file, rd_on_file->memsize); } bool rrddim_memory_load_or_create_map_save(RRDSET *st, RRDDIM *rd, RRD_MEMORY_MODE memory_mode) { if(memory_mode != RRD_MEMORY_MODE_SAVE && memory_mode != RRD_MEMORY_MODE_MAP) return false; struct rrddim_map_save_v019 *rd_on_file = NULL; unsigned long size = sizeof(struct rrddim_map_save_v019) + (st->db.entries * sizeof(storage_number)); char filename[FILENAME_MAX + 1]; char fullfilename[FILENAME_MAX + 1]; rrdset_strncpyz_name(filename, rrddim_id(rd), FILENAME_MAX); snprintfz(fullfilename, FILENAME_MAX, "%s/%s.db", rrdset_cache_dir(st), filename); rd_on_file = (struct rrddim_map_save_v019 *)netdata_mmap( fullfilename, size, ((memory_mode == RRD_MEMORY_MODE_MAP) ? MAP_SHARED : MAP_PRIVATE), 1, false, NULL); if(unlikely(!rd_on_file)) return false; struct timeval now; now_realtime_timeval(&now); int reset = 0; rd_on_file->magic[sizeof(RRDDIMENSION_MAGIC_V019)] = '\0'; if(strcmp(rd_on_file->magic, RRDDIMENSION_MAGIC_V019) != 0) { netdata_log_info("Initializing file %s.", fullfilename); memset(rd_on_file, 0, size); reset = 1; } else if(rd_on_file->memsize != size) { netdata_log_error("File %s does not have the desired size, expected %lu but found %lu. Clearing it.", fullfilename, size, (unsigned long int) rd_on_file->memsize); memset(rd_on_file, 0, size); reset = 1; } else if(rd_on_file->update_every != st->update_every) { netdata_log_error("File %s does not have the same update frequency, expected %d but found %d. Clearing it.", fullfilename, st->update_every, rd_on_file->update_every); memset(rd_on_file, 0, size); reset = 1; } else if(dt_usec(&now, &rd_on_file->last_collected_time) > (rd_on_file->entries * rd_on_file->update_every * USEC_PER_SEC)) { netdata_log_info("File %s is too old (last collected %llu seconds ago, but the database is %ld seconds). Clearing it.", fullfilename, dt_usec(&now, &rd_on_file->last_collected_time) / USEC_PER_SEC, rd_on_file->entries * rd_on_file->update_every); memset(rd_on_file, 0, size); reset = 1; } if(!reset) { rd->collector.last_collected_value = rd_on_file->last_collected_value; if(rd_on_file->algorithm != rd->algorithm) netdata_log_info("File %s does not have the expected algorithm (expected %u '%s', found %u '%s'). Previous values may be wrong.", fullfilename, rd->algorithm, rrd_algorithm_name(rd->algorithm), rd_on_file->algorithm, rrd_algorithm_name(rd_on_file->algorithm)); if(rd_on_file->multiplier != rd->multiplier) netdata_log_info("File %s does not have the expected multiplier (expected %d, found %ld). " "Previous values may be wrong.", fullfilename, rd->multiplier, (long)rd_on_file->multiplier); if(rd_on_file->divisor != rd->divisor) netdata_log_info("File %s does not have the expected divisor (expected %d, found %ld). " "Previous values may be wrong.", fullfilename, rd->divisor, (long)rd_on_file->divisor); } // zero the entire header memset(rd_on_file, 0, sizeof(struct rrddim_map_save_v019)); // set the important fields strcpy(rd_on_file->magic, RRDDIMENSION_MAGIC_V019); rd_on_file->algorithm = rd->algorithm; rd_on_file->multiplier = rd->multiplier; rd_on_file->divisor = rd->divisor; rd_on_file->entries = st->db.entries; rd_on_file->update_every = rd->rrdset->update_every; rd_on_file->memsize = size; rd_on_file->rrd_memory_mode = memory_mode; rd_on_file->cache_filename = strdupz(fullfilename); __atomic_add_fetch(&rrddim_db_memory_size, rd_on_file->memsize + strlen(rd_on_file->cache_filename), __ATOMIC_RELAXED); rd->db.data = &rd_on_file->values[0]; rd->db.rd_on_file = rd_on_file; rd->db.memsize = size; rrddim_memory_file_update(rd); return true; }