diff options
Diffstat (limited to 'src/rrd.c')
-rwxr-xr-x | src/rrd.c | 1338 |
1 files changed, 1338 insertions, 0 deletions
diff --git a/src/rrd.c b/src/rrd.c new file mode 100755 index 000000000..2dce02e66 --- /dev/null +++ b/src/rrd.c @@ -0,0 +1,1338 @@ +#ifdef HAVE_CONFIG_H +#include <config.h> +#endif +#include <stddef.h> +#include <string.h> +#include <unistd.h> +#include <time.h> +#include <sys/time.h> +#include <sys/mman.h> +#include <pthread.h> +#include <errno.h> +#include <ctype.h> +#include <sys/stat.h> +#include <sys/types.h> +#include <stdlib.h> + +#include "common.h" +#include "log.h" +#include "appconfig.h" + +#include "rrd.h" + +#define RRD_DEFAULT_GAP_INTERPOLATIONS 1 + +// ---------------------------------------------------------------------------- +// globals + +// if not zero it gives the time (in seconds) to remove un-updated dimensions +// DO NOT ENABLE +// if dimensions are removed, the chart generation will have to run again +int rrd_delete_unupdated_dimensions = 0; + +int rrd_update_every = UPDATE_EVERY; +int rrd_default_history_entries = RRD_DEFAULT_HISTORY_ENTRIES; + +RRDSET *rrdset_root = NULL; +pthread_rwlock_t rrdset_root_rwlock = PTHREAD_RWLOCK_INITIALIZER; + +int rrd_memory_mode = RRD_MEMORY_MODE_SAVE; + + +// ---------------------------------------------------------------------------- +// RRDSET index + +static int rrdset_iterator(avl *a) { if(a) {}; return 0; } + +static int rrdset_compare(void* a, void* b) { + if(((RRDSET *)a)->hash < ((RRDSET *)b)->hash) return -1; + else if(((RRDSET *)a)->hash > ((RRDSET *)b)->hash) return 1; + else return strcmp(((RRDSET *)a)->id, ((RRDSET *)b)->id); +} + +avl_tree rrdset_root_index = { + NULL, + rrdset_compare, +#ifdef AVL_LOCK_WITH_MUTEX + PTHREAD_MUTEX_INITIALIZER +#else + PTHREAD_RWLOCK_INITIALIZER +#endif +}; + +#define rrdset_index_add(st) avl_insert(&rrdset_root_index, (avl *)(st)) +#define rrdset_index_del(st) avl_remove(&rrdset_root_index, (avl *)(st)) + +static RRDSET *rrdset_index_find(const char *id, uint32_t hash) { + RRDSET *result = NULL, tmp; + strncpy(tmp.id, id, RRD_ID_LENGTH_MAX); + tmp.id[RRD_ID_LENGTH_MAX] = '\0'; + tmp.hash = (hash)?hash:simple_hash(tmp.id); + + avl_search(&(rrdset_root_index), (avl *)&tmp, rrdset_iterator, (avl **)&result); + return result; +} + +// ---------------------------------------------------------------------------- +// RRDSET name index + +#define rrdset_from_avlname(avlname_ptr) ((RRDSET *)((avlname_ptr) - offsetof(RRDSET, avlname))) + +static int rrdset_iterator_name(avl *a) { if(a) {}; return 0; } + +static int rrdset_compare_name(void* a, void* b) { + RRDSET *A = rrdset_from_avlname(a); + RRDSET *B = rrdset_from_avlname(b); + + // fprintf(stderr, "COMPARING: %s with %s\n", A->name, B->name); + + if(A->hash_name < B->hash_name) return -1; + else if(A->hash_name > B->hash_name) return 1; + else return strcmp(A->name, B->name); +} + +avl_tree rrdset_root_index_name = { + NULL, + rrdset_compare_name, +#ifdef AVL_LOCK_WITH_MUTEX + PTHREAD_MUTEX_INITIALIZER +#else + PTHREAD_RWLOCK_INITIALIZER +#endif +}; + +int rrdset_index_add_name(RRDSET *st) { + // fprintf(stderr, "ADDING: %s (name: %s)\n", st->id, st->name); + return avl_insert(&rrdset_root_index_name, (avl *)(&st->avlname)); +} + +#define rrdset_index_del_name(st) avl_remove(&rrdset_root_index_name, (avl *)(&st->avlname)) + +static RRDSET *rrdset_index_find_name(const char *name, uint32_t hash) { + void *result = NULL; + RRDSET tmp; + tmp.name = name; + tmp.hash_name = (hash)?hash:simple_hash(tmp.name); + + // fprintf(stderr, "SEARCHING: %s\n", name); + avl_search(&(rrdset_root_index_name), (avl *)(&(tmp.avlname)), rrdset_iterator_name, (avl **)&result); + if(result) { + RRDSET *st = rrdset_from_avlname(result); + if(strcmp(st->magic, RRDSET_MAGIC)) + error("Search for RRDSET %s returned an invalid RRDSET %s (name %s)", name, st->id, st->name); + + // fprintf(stderr, "FOUND: %s\n", name); + return rrdset_from_avlname(result); + } + // fprintf(stderr, "NOT FOUND: %s\n", name); + return NULL; +} + + +// ---------------------------------------------------------------------------- +// RRDDIM index + +static int rrddim_iterator(avl *a) { if(a) {}; return 0; } + +static int rrddim_compare(void* a, void* b) { + if(((RRDDIM *)a)->hash < ((RRDDIM *)b)->hash) return -1; + else if(((RRDDIM *)a)->hash > ((RRDDIM *)b)->hash) return 1; + else return strcmp(((RRDDIM *)a)->id, ((RRDDIM *)b)->id); +} + +#define rrddim_index_add(st, rd) avl_insert(&((st)->dimensions_index), (avl *)(rd)) +#define rrddim_index_del(st,rd ) avl_remove(&((st)->dimensions_index), (avl *)(rd)) + +static RRDDIM *rrddim_index_find(RRDSET *st, const char *id, uint32_t hash) { + RRDDIM *result = NULL, tmp; + strncpy(tmp.id, id, RRD_ID_LENGTH_MAX); + tmp.id[RRD_ID_LENGTH_MAX] = '\0'; + tmp.hash = (hash)?hash:simple_hash(tmp.id); + + avl_search(&(st->dimensions_index), (avl *)&tmp, rrddim_iterator, (avl **)&result); + return result; +} + +// ---------------------------------------------------------------------------- +// chart types + +int rrdset_type_id(const char *name) +{ + if(unlikely(strcmp(name, RRDSET_TYPE_AREA_NAME) == 0)) return RRDSET_TYPE_AREA; + else if(unlikely(strcmp(name, RRDSET_TYPE_STACKED_NAME) == 0)) return RRDSET_TYPE_STACKED; + else if(unlikely(strcmp(name, RRDSET_TYPE_LINE_NAME) == 0)) return RRDSET_TYPE_LINE; + return RRDSET_TYPE_LINE; +} + +const char *rrdset_type_name(int chart_type) +{ + static char line[] = RRDSET_TYPE_LINE_NAME; + static char area[] = RRDSET_TYPE_AREA_NAME; + static char stacked[] = RRDSET_TYPE_STACKED_NAME; + + switch(chart_type) { + case RRDSET_TYPE_LINE: + return line; + + case RRDSET_TYPE_AREA: + return area; + + case RRDSET_TYPE_STACKED: + return stacked; + } + return line; +} + +// ---------------------------------------------------------------------------- +// load / save + +const char *rrd_memory_mode_name(int id) +{ + static const char ram[] = RRD_MEMORY_MODE_RAM_NAME; + static const char map[] = RRD_MEMORY_MODE_MAP_NAME; + static const char save[] = RRD_MEMORY_MODE_SAVE_NAME; + + switch(id) { + case RRD_MEMORY_MODE_RAM: + return ram; + + case RRD_MEMORY_MODE_MAP: + return map; + + case RRD_MEMORY_MODE_SAVE: + default: + return save; + } + + return save; +} + +int rrd_memory_mode_id(const char *name) +{ + if(unlikely(!strcmp(name, RRD_MEMORY_MODE_RAM_NAME))) + return RRD_MEMORY_MODE_RAM; + else if(unlikely(!strcmp(name, RRD_MEMORY_MODE_MAP_NAME))) + return RRD_MEMORY_MODE_MAP; + + return RRD_MEMORY_MODE_SAVE; +} + +// ---------------------------------------------------------------------------- +// algorithms types + +int rrddim_algorithm_id(const char *name) +{ + if(strcmp(name, RRDDIM_ABSOLUTE_NAME) == 0) return RRDDIM_ABSOLUTE; + if(strcmp(name, RRDDIM_INCREMENTAL_NAME) == 0) return RRDDIM_INCREMENTAL; + if(strcmp(name, RRDDIM_PCENT_OVER_ROW_TOTAL_NAME) == 0) return RRDDIM_PCENT_OVER_ROW_TOTAL; + if(strcmp(name, RRDDIM_PCENT_OVER_DIFF_TOTAL_NAME) == 0) return RRDDIM_PCENT_OVER_DIFF_TOTAL; + return RRDDIM_ABSOLUTE; +} + +const char *rrddim_algorithm_name(int chart_type) +{ + static char absolute[] = RRDDIM_ABSOLUTE_NAME; + static char incremental[] = RRDDIM_INCREMENTAL_NAME; + static char percentage_of_absolute_row[] = RRDDIM_PCENT_OVER_ROW_TOTAL_NAME; + static char percentage_of_incremental_row[] = RRDDIM_PCENT_OVER_DIFF_TOTAL_NAME; + + switch(chart_type) { + case RRDDIM_ABSOLUTE: + return absolute; + + case RRDDIM_INCREMENTAL: + return incremental; + + case RRDDIM_PCENT_OVER_ROW_TOTAL: + return percentage_of_absolute_row; + + case RRDDIM_PCENT_OVER_DIFF_TOTAL: + return percentage_of_incremental_row; + } + return absolute; +} + +// ---------------------------------------------------------------------------- +// chart names + +char *rrdset_strncpy_name(char *to, const char *from, int length) +{ + int i; + for(i = 0; i < length && from[i] ;i++) { + if(from[i] == '.' || isalpha(from[i]) || isdigit(from[i])) to[i] = from[i]; + else to[i] = '_'; + } + if(i < length) to[i] = '\0'; + to[length - 1] = '\0'; + + return to; +} + +void rrdset_set_name(RRDSET *st, const char *name) +{ + debug(D_RRD_CALLS, "rrdset_set_name() old: %s, new: %s", st->name, name); + + if(st->name) rrdset_index_del_name(st); + + char b[CONFIG_MAX_VALUE + 1]; + char n[RRD_ID_LENGTH_MAX + 1]; + + snprintf(n, RRD_ID_LENGTH_MAX, "%s.%s", st->type, name); + rrdset_strncpy_name(b, n, CONFIG_MAX_VALUE); + st->name = config_get(st->id, "name", b); + st->hash_name = simple_hash(st->name); + + rrdset_index_add_name(st); +} + +// ---------------------------------------------------------------------------- +// cache directory + +char *rrdset_cache_dir(const char *id) +{ + char *ret = NULL; + + static char *cache_dir = NULL; + if(!cache_dir) cache_dir = config_get("global", "cache directory", CACHE_DIR); + + char b[FILENAME_MAX + 1]; + char n[FILENAME_MAX + 1]; + rrdset_strncpy_name(b, id, FILENAME_MAX); + + snprintf(n, FILENAME_MAX, "%s/%s", cache_dir, b); + ret = config_get(id, "cache directory", n); + + if(rrd_memory_mode == RRD_MEMORY_MODE_MAP || rrd_memory_mode == RRD_MEMORY_MODE_SAVE) { + int r = mkdir(ret, 0775); + if(r != 0 && errno != EEXIST) + error("Cannot create directory '%s'", ret); + } + + return ret; +} + +// ---------------------------------------------------------------------------- +// core functions + +void rrdset_reset(RRDSET *st) +{ + debug(D_RRD_CALLS, "rrdset_reset() %s", st->name); + + st->last_collected_time.tv_sec = 0; + st->last_collected_time.tv_usec = 0; + st->last_updated.tv_sec = 0; + st->last_updated.tv_usec = 0; + st->current_entry = 0; + st->counter = 0; + st->counter_done = 0; + + RRDDIM *rd; + for(rd = st->dimensions; rd ; rd = rd->next) { + rd->last_collected_time.tv_sec = 0; + rd->last_collected_time.tv_usec = 0; + rd->counter = 0; + bzero(rd->values, rd->entries * sizeof(storage_number)); + } +} + +RRDSET *rrdset_create(const char *type, const char *id, const char *name, const char *family, const char *context, const char *title, const char *units, long priority, int update_every, int chart_type) +{ + if(!type || !type[0]) { + fatal("Cannot create rrd stats without a type."); + return NULL; + } + + if(!id || !id[0]) { + fatal("Cannot create rrd stats without an id."); + return NULL; + } + + char fullid[RRD_ID_LENGTH_MAX + 1]; + char fullfilename[FILENAME_MAX + 1]; + RRDSET *st = NULL; + + snprintf(fullid, RRD_ID_LENGTH_MAX, "%s.%s", type, id); + + st = rrdset_find(fullid); + if(st) { + error("Cannot create rrd stats for '%s', it already exists.", fullid); + return st; + } + + long entries = config_get_number(fullid, "history", rrd_default_history_entries); + if(entries < 5) entries = config_set_number(fullid, "history", 5); + if(entries > RRD_HISTORY_ENTRIES_MAX) entries = config_set_number(fullid, "history", RRD_HISTORY_ENTRIES_MAX); + + int enabled = config_get_boolean(fullid, "enabled", 1); + if(!enabled) entries = 5; + + unsigned long size = sizeof(RRDSET); + char *cache_dir = rrdset_cache_dir(fullid); + + debug(D_RRD_CALLS, "Creating RRD_STATS for '%s.%s'.", type, id); + + snprintf(fullfilename, FILENAME_MAX, "%s/main.db", cache_dir); + if(rrd_memory_mode != RRD_MEMORY_MODE_RAM) st = (RRDSET *)mymmap(fullfilename, size, ((rrd_memory_mode == RRD_MEMORY_MODE_MAP)?MAP_SHARED:MAP_PRIVATE), 0); + if(st) { + if(strcmp(st->magic, RRDSET_MAGIC) != 0) { + errno = 0; + info("Initializing file %s.", fullfilename); + bzero(st, size); + } + else if(strcmp(st->id, fullid) != 0) { + errno = 0; + error("File %s contents are not for chart %s. Clearing it.", fullfilename, fullid); + // munmap(st, size); + // st = NULL; + bzero(st, size); + } + else if(st->memsize != size || st->entries != entries) { + errno = 0; + error("File %s does not have the desired size. Clearing it.", fullfilename); + bzero(st, size); + } + else if(st->update_every != update_every) { + errno = 0; + error("File %s does not have the desired update frequency. Clearing it.", fullfilename); + bzero(st, size); + } + else if((time(NULL) - st->last_updated.tv_sec) > update_every * entries) { + errno = 0; + error("File %s is too old. Clearing it.", fullfilename); + bzero(st, size); + } + } + + if(st) { + st->name = NULL; + st->type = NULL; + st->family = NULL; + st->context = NULL; + st->title = NULL; + st->units = NULL; + st->dimensions = NULL; + st->next = NULL; + st->mapped = rrd_memory_mode; + } + else { + st = calloc(1, size); + if(!st) { + fatal("Cannot allocate memory for RRD_STATS %s.%s", type, id); + return NULL; + } + st->mapped = RRD_MEMORY_MODE_RAM; + } + st->memsize = size; + st->entries = entries; + st->update_every = update_every; + + strcpy(st->cache_filename, fullfilename); + strcpy(st->magic, RRDSET_MAGIC); + + strcpy(st->id, fullid); + st->hash = simple_hash(st->id); + + st->cache_dir = cache_dir; + + st->chart_type = rrdset_type_id(config_get(st->id, "chart type", rrdset_type_name(chart_type))); + st->type = config_get(st->id, "type", type); + st->family = config_get(st->id, "family", family?family:st->type); + st->context = config_get(st->id, "context", context?context:st->id); + st->units = config_get(st->id, "units", units?units:""); + + st->priority = config_get_number(st->id, "priority", priority); + st->enabled = enabled; + + st->isdetail = 0; + st->debug = 0; + + st->last_collected_time.tv_sec = 0; + st->last_collected_time.tv_usec = 0; + st->counter_done = 0; + + st->gap_when_lost_iterations_above = (int) ( + config_get_number(st->id, "gap when lost iterations above", RRD_DEFAULT_GAP_INTERPOLATIONS) + 2); + + avl_init(&st->dimensions_index, rrddim_compare); + + pthread_rwlock_init(&st->rwlock, NULL); + pthread_rwlock_wrlock(&rrdset_root_rwlock); + + if(name && *name) rrdset_set_name(st, name); + else rrdset_set_name(st, id); + + { + char varvalue[CONFIG_MAX_VALUE + 1]; + snprintf(varvalue, CONFIG_MAX_VALUE, "%s (%s)", title?title:"", st->name); + st->title = config_get(st->id, "title", varvalue); + } + + st->next = rrdset_root; + rrdset_root = st; + + rrdset_index_add(st); + + pthread_rwlock_unlock(&rrdset_root_rwlock); + + return(st); +} + +RRDDIM *rrddim_add(RRDSET *st, const char *id, const char *name, long multiplier, long divisor, int algorithm) +{ + char filename[FILENAME_MAX + 1]; + char fullfilename[FILENAME_MAX + 1]; + + char varname[CONFIG_MAX_NAME + 1]; + RRDDIM *rd = NULL; + unsigned long size = sizeof(RRDDIM) + (st->entries * sizeof(storage_number)); + + debug(D_RRD_CALLS, "Adding dimension '%s/%s'.", st->id, id); + + rrdset_strncpy_name(filename, id, FILENAME_MAX); + snprintf(fullfilename, FILENAME_MAX, "%s/%s.db", st->cache_dir, filename); + if(rrd_memory_mode != RRD_MEMORY_MODE_RAM) rd = (RRDDIM *)mymmap(fullfilename, size, ((rrd_memory_mode == RRD_MEMORY_MODE_MAP)?MAP_SHARED:MAP_PRIVATE), 1); + if(rd) { + struct timeval now; + gettimeofday(&now, NULL); + + if(strcmp(rd->magic, RRDDIMENSION_MAGIC) != 0) { + errno = 0; + info("Initializing file %s.", fullfilename); + bzero(rd, size); + } + else if(rd->memsize != size) { + errno = 0; + error("File %s does not have the desired size. Clearing it.", fullfilename); + bzero(rd, size); + } + else if(rd->multiplier != multiplier) { + errno = 0; + error("File %s does not have the same multiplier. Clearing it.", fullfilename); + bzero(rd, size); + } + else if(rd->divisor != divisor) { + errno = 0; + error("File %s does not have the same divisor. Clearing it.", fullfilename); + bzero(rd, size); + } + else if(rd->algorithm != algorithm) { + errno = 0; + error("File %s does not have the same algorithm. Clearing it.", fullfilename); + bzero(rd, size); + } + else if(rd->update_every != st->update_every) { + errno = 0; + error("File %s does not have the same refresh frequency. Clearing it.", fullfilename); + bzero(rd, size); + } + else if(usecdiff(&now, &rd->last_collected_time) > (rd->entries * rd->update_every * 1000000ULL)) { + errno = 0; + error("File %s is too old. Clearing it.", fullfilename); + bzero(rd, size); + } + else if(strcmp(rd->id, id) != 0) { + errno = 0; + error("File %s contents are not for dimension %s. Clearing it.", fullfilename, id); + // munmap(rd, size); + // rd = NULL; + bzero(rd, size); + } + } + + if(rd) { + // we have a file mapped for rd + rd->mapped = rrd_memory_mode; + rd->flags = 0x00000000; + rd->next = NULL; + rd->name = NULL; + } + else { + // if we didn't manage to get a mmap'd dimension, just create one + + rd = calloc(1, size); + if(!rd) { + fatal("Cannot allocate RRD_DIMENSION %s/%s.", st->id, id); + return NULL; + } + + rd->mapped = RRD_MEMORY_MODE_RAM; + } + rd->memsize = size; + + strcpy(rd->magic, RRDDIMENSION_MAGIC); + strcpy(rd->cache_filename, fullfilename); + strncpy(rd->id, id, RRD_ID_LENGTH_MAX); + rd->hash = simple_hash(rd->id); + + snprintf(varname, CONFIG_MAX_NAME, "dim %s name", rd->id); + rd->name = config_get(st->id, varname, (name && *name)?name:rd->id); + + snprintf(varname, CONFIG_MAX_NAME, "dim %s algorithm", rd->id); + rd->algorithm = rrddim_algorithm_id(config_get(st->id, varname, rrddim_algorithm_name(algorithm))); + + snprintf(varname, CONFIG_MAX_NAME, "dim %s multiplier", rd->id); + rd->multiplier = config_get_number(st->id, varname, multiplier); + + snprintf(varname, CONFIG_MAX_NAME, "dim %s divisor", rd->id); + rd->divisor = config_get_number(st->id, varname, divisor); + if(!rd->divisor) rd->divisor = 1; + + rd->entries = st->entries; + rd->update_every = st->update_every; + + // prevent incremental calculation spikes + rd->counter = 0; + + // append this dimension + pthread_rwlock_wrlock(&st->rwlock); + if(!st->dimensions) + st->dimensions = rd; + else { + RRDDIM *td = st->dimensions; + for(; td->next; td = td->next) ; + td->next = rd; + } + pthread_rwlock_unlock(&st->rwlock); + + rrddim_index_add(st, rd); + + return(rd); +} + +void rrddim_set_name(RRDSET *st, RRDDIM *rd, const char *name) +{ + debug(D_RRD_CALLS, "rrddim_set_name() %s.%s", st->name, rd->name); + + char varname[CONFIG_MAX_NAME + 1]; + snprintf(varname, CONFIG_MAX_NAME, "dim %s name", rd->id); + config_set_default(st->id, varname, name); +} + +void rrddim_free(RRDSET *st, RRDDIM *rd) +{ + debug(D_RRD_CALLS, "rrddim_free() %s.%s", st->name, rd->name); + + RRDDIM *i, *last = NULL; + for(i = st->dimensions; i && i != rd ; i = i->next) last = i; + + if(!i) { + error("Request to free dimension %s.%s but it is not linked.", st->id, rd->name); + return; + } + + if(last) last->next = rd->next; + else st->dimensions = rd->next; + rd->next = NULL; + + rrddim_index_del(st, rd); + + // free(rd->annotations); + if(rd->mapped == RRD_MEMORY_MODE_SAVE) { + debug(D_RRD_CALLS, "Saving dimension '%s' to '%s'.", rd->name, rd->cache_filename); + savememory(rd->cache_filename, rd, rd->memsize); + + debug(D_RRD_CALLS, "Unmapping dimension '%s'.", rd->name); + munmap(rd, rd->memsize); + } + else if(rd->mapped == RRD_MEMORY_MODE_MAP) { + debug(D_RRD_CALLS, "Unmapping dimension '%s'.", rd->name); + munmap(rd, rd->memsize); + } + else { + debug(D_RRD_CALLS, "Removing dimension '%s'.", rd->name); + free(rd); + } +} + +void rrdset_free_all(void) +{ + info("Freeing all memory..."); + + RRDSET *st; + for(st = rrdset_root; st ;) { + RRDSET *next = st->next; + + while(st->dimensions) + rrddim_free(st, st->dimensions); + + rrdset_index_del(st); + + if(st->mapped == RRD_MEMORY_MODE_SAVE) { + debug(D_RRD_CALLS, "Saving stats '%s' to '%s'.", st->name, st->cache_filename); + savememory(st->cache_filename, st, st->memsize); + + debug(D_RRD_CALLS, "Unmapping stats '%s'.", st->name); + munmap(st, st->memsize); + } + else if(st->mapped == RRD_MEMORY_MODE_MAP) { + debug(D_RRD_CALLS, "Unmapping stats '%s'.", st->name); + munmap(st, st->memsize); + } + else + free(st); + + st = next; + } + rrdset_root = NULL; + + info("Memory cleanup completed..."); +} + +void rrdset_save_all(void) +{ + debug(D_RRD_CALLS, "rrdset_save_all()"); + + RRDSET *st; + RRDDIM *rd; + + pthread_rwlock_wrlock(&rrdset_root_rwlock); + for(st = rrdset_root; st ; st = st->next) { + pthread_rwlock_wrlock(&st->rwlock); + + if(st->mapped == RRD_MEMORY_MODE_SAVE) { + debug(D_RRD_CALLS, "Saving stats '%s' to '%s'.", st->name, st->cache_filename); + savememory(st->cache_filename, st, st->memsize); + } + + for(rd = st->dimensions; rd ; rd = rd->next) { + if(likely(rd->mapped == RRD_MEMORY_MODE_SAVE)) { + debug(D_RRD_CALLS, "Saving dimension '%s' to '%s'.", rd->name, rd->cache_filename); + savememory(rd->cache_filename, rd, rd->memsize); + } + } + + pthread_rwlock_unlock(&st->rwlock); + } + pthread_rwlock_unlock(&rrdset_root_rwlock); +} + + +RRDSET *rrdset_find(const char *id) +{ + debug(D_RRD_CALLS, "rrdset_find() for chart %s", id); + + RRDSET *st = rrdset_index_find(id, 0); + return(st); +} + +RRDSET *rrdset_find_bytype(const char *type, const char *id) +{ + debug(D_RRD_CALLS, "rrdset_find_bytype() for chart %s.%s", type, id); + + char buf[RRD_ID_LENGTH_MAX + 1]; + + strncpy(buf, type, RRD_ID_LENGTH_MAX - 1); + buf[RRD_ID_LENGTH_MAX - 1] = '\0'; + strcat(buf, "."); + int len = (int) strlen(buf); + strncpy(&buf[len], id, (size_t) (RRD_ID_LENGTH_MAX - len)); + buf[RRD_ID_LENGTH_MAX] = '\0'; + + return(rrdset_find(buf)); +} + +RRDSET *rrdset_find_byname(const char *name) +{ + debug(D_RRD_CALLS, "rrdset_find_byname() for chart %s", name); + + RRDSET *st = rrdset_index_find_name(name, 0); + return(st); +} + +RRDDIM *rrddim_find(RRDSET *st, const char *id) +{ + debug(D_RRD_CALLS, "rrddim_find() for chart %s, dimension %s", st->name, id); + + return rrddim_index_find(st, id, 0); +} + +int rrddim_hide(RRDSET *st, const char *id) +{ + debug(D_RRD_CALLS, "rrddim_hide() for chart %s, dimension %s", st->name, id); + + RRDDIM *rd = rrddim_find(st, id); + if(unlikely(!rd)) { + error("Cannot find dimension with id '%s' on stats '%s' (%s).", id, st->name, st->id); + return 1; + } + + rd->flags |= RRDDIM_FLAG_HIDDEN; + return 0; +} + +int rrddim_unhide(RRDSET *st, const char *id) +{ + debug(D_RRD_CALLS, "rrddim_unhide() for chart %s, dimension %s", st->name, id); + + RRDDIM *rd = rrddim_find(st, id); + if(unlikely(!rd)) { + error("Cannot find dimension with id '%s' on stats '%s' (%s).", id, st->name, st->id); + return 1; + } + + if(rd->flags & RRDDIM_FLAG_HIDDEN) rd->flags ^= RRDDIM_FLAG_HIDDEN; + return 0; +} + +collected_number rrddim_set_by_pointer(RRDSET *st, RRDDIM *rd, collected_number value) +{ + debug(D_RRD_CALLS, "rrddim_set_by_pointer() for chart %s, dimension %s, value " COLLECTED_NUMBER_FORMAT, st->name, rd->name, value); + + gettimeofday(&rd->last_collected_time, NULL); + rd->collected_value = value; + rd->updated = 1; + rd->counter++; + + return rd->last_collected_value; +} + +collected_number rrddim_set(RRDSET *st, const char *id, collected_number value) +{ + RRDDIM *rd = rrddim_find(st, id); + if(unlikely(!rd)) { + error("Cannot find dimension with id '%s' on stats '%s' (%s).", id, st->name, st->id); + return 0; + } + + return rrddim_set_by_pointer(st, rd, value); +} + +void rrdset_next_usec(RRDSET *st, unsigned long long microseconds) +{ + if(!microseconds) rrdset_next(st); + else { + debug(D_RRD_CALLS, "rrdset_next_usec() for chart %s with microseconds %llu", st->name, microseconds); + + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s: NEXT: %llu microseconds", st->name, microseconds); + st->usec_since_last_update = microseconds; + } +} + +void rrdset_next(RRDSET *st) +{ + unsigned long long microseconds = 0; + + if(likely(st->last_collected_time.tv_sec)) { + struct timeval now; + gettimeofday(&now, NULL); + microseconds = usecdiff(&now, &st->last_collected_time); + } + // prevent infinite loop + else microseconds = st->update_every * 1000000ULL; + + rrdset_next_usec(st, microseconds); +} + +void rrdset_next_plugins(RRDSET *st) +{ + rrdset_next(st); +} + +unsigned long long rrdset_done(RRDSET *st) +{ + debug(D_RRD_CALLS, "rrdset_done() for chart %s", st->name); + + RRDDIM *rd, *last; + int oldstate, store_this_entry = 1, first_entry = 0; + unsigned long long last_ut, now_ut, next_ut, stored_entries = 0; + + if(unlikely(pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &oldstate) != 0)) + error("Cannot set pthread cancel state to DISABLE."); + + // a read lock is OK here + pthread_rwlock_rdlock(&st->rwlock); + + // enable the chart, if it was disabled + st->enabled = 1; + + // check if the chart has a long time to be updated + if(unlikely(st->usec_since_last_update > st->entries * st->update_every * 1000000ULL)) { + info("%s: took too long to be updated (%0.3Lf secs). Reseting it.", st->name, (long double)(st->usec_since_last_update / 1000000.0)); + rrdset_reset(st); + st->usec_since_last_update = st->update_every * 1000000ULL; + first_entry = 1; + } + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s: microseconds since last update: %llu", st->name, st->usec_since_last_update); + + // set last_collected_time + if(unlikely(!st->last_collected_time.tv_sec)) { + // it is the first entry + // set the last_collected_time to now + gettimeofday(&st->last_collected_time, NULL); + + // the first entry should not be stored + store_this_entry = 0; + first_entry = 1; + + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s: has not set last_collected_time. Setting it now. Will not store the next entry.", st->name); + } + else { + // it is not the first entry + // calculate the proper last_collected_time, using usec_since_last_update + unsigned long long ut = st->last_collected_time.tv_sec * 1000000ULL + st->last_collected_time.tv_usec + st->usec_since_last_update; + st->last_collected_time.tv_sec = (time_t) (ut / 1000000ULL); + st->last_collected_time.tv_usec = (useconds_t) (ut % 1000000ULL); + } + + // if this set has not been updated in the past + // we fake the last_update time to be = now - usec_since_last_update + if(unlikely(!st->last_updated.tv_sec)) { + // it has never been updated before + // set a fake last_updated, in the past using usec_since_last_update + unsigned long long ut = st->last_collected_time.tv_sec * 1000000ULL + st->last_collected_time.tv_usec - st->usec_since_last_update; + st->last_updated.tv_sec = (time_t) (ut / 1000000ULL); + st->last_updated.tv_usec = (useconds_t) (ut % 1000000ULL); + + // the first entry should not be stored + store_this_entry = 0; + first_entry = 1; + + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s: initializing last_updated to now - %llu microseconds (%0.3Lf). Will not store the next entry.", st->name, st->usec_since_last_update, (long double)ut/1000000.0); + } + + // check if we will re-write the entire data set + if(unlikely(usecdiff(&st->last_collected_time, &st->last_updated) > st->update_every * st->entries * 1000000ULL)) { + info("%s: too old data (last updated at %u.%u, last collected at %u.%u). Reseting it. Will not store the next entry.", st->name, st->last_updated.tv_sec, st->last_updated.tv_usec, st->last_collected_time.tv_sec, st->last_collected_time.tv_usec); + rrdset_reset(st); + + st->usec_since_last_update = st->update_every * 1000000ULL; + + gettimeofday(&st->last_collected_time, NULL); + + unsigned long long ut = st->last_collected_time.tv_sec * 1000000ULL + st->last_collected_time.tv_usec - st->usec_since_last_update; + st->last_updated.tv_sec = (time_t) (ut / 1000000ULL); + st->last_updated.tv_usec = (useconds_t) (ut % 1000000ULL); + + // the first entry should not be stored + store_this_entry = 0; + first_entry = 1; + } + + // these are the 3 variables that will help us in interpolation + // last_ut = the last time we added a value to the storage + // now_ut = the time the current value is taken at + // next_ut = the time of the next interpolation point + last_ut = st->last_updated.tv_sec * 1000000ULL + st->last_updated.tv_usec; + now_ut = st->last_collected_time.tv_sec * 1000000ULL + st->last_collected_time.tv_usec; + next_ut = (st->last_updated.tv_sec + st->update_every) * 1000000ULL; + + if(unlikely(!first_entry && now_ut < next_ut)) { + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s: THIS IS IN THE SAME INTERPOLATION POINT", st->name); + } + + if(unlikely(st->debug)) { + debug(D_RRD_STATS, "%s: last ut = %0.3Lf (last updated time)", st->name, (long double)last_ut/1000000.0); + debug(D_RRD_STATS, "%s: now ut = %0.3Lf (current update time)", st->name, (long double)now_ut/1000000.0); + debug(D_RRD_STATS, "%s: next ut = %0.3Lf (next interpolation point)", st->name, (long double)next_ut/1000000.0); + } + + if(unlikely(!st->counter_done)) { + store_this_entry = 0; + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s: Will not store the next entry.", st->name); + } + st->counter_done++; + + // calculate totals and count the dimensions + int dimensions; + st->collected_total = 0; + for( rd = st->dimensions, dimensions = 0 ; likely(rd) ; rd = rd->next, dimensions++ ) + st->collected_total += rd->collected_value; + + uint32_t storage_flags = SN_EXISTS; + + // process all dimensions to calculate their values + // based on the collected figures only + // at this stage we do not interpolate anything + for( rd = st->dimensions ; likely(rd) ; rd = rd->next ) { + + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s/%s: START " + " last_collected_value = " COLLECTED_NUMBER_FORMAT + " collected_value = " COLLECTED_NUMBER_FORMAT + " last_calculated_value = " CALCULATED_NUMBER_FORMAT + " calculated_value = " CALCULATED_NUMBER_FORMAT + , st->id, rd->name + , rd->last_collected_value + , rd->collected_value + , rd->last_calculated_value + , rd->calculated_value + ); + + switch(rd->algorithm) { + case RRDDIM_ABSOLUTE: + rd->calculated_value = (calculated_number)rd->collected_value + * (calculated_number)rd->multiplier + / (calculated_number)rd->divisor; + + if(unlikely(st->debug)) + debug(D_RRD_STATS, "%s/%s: CALC ABS/ABS-NO-IN " + CALCULATED_NUMBER_FORMAT " = " + COLLECTED_NUMBER_FORMAT + " * " CALCULATED_NUMBER_FORMAT + " / " CALCULATED_NUMBER_FORMAT + , st->id, rd->name + , rd->calculated_value + , rd->collected_value + , (calculated_number)rd->multiplier + , (calculated_number)rd->divisor + ); + break; + + case RRDDIM_PCENT_OVER_ROW_TOTAL: + if(unlikely(!st->collected_total)) rd->calculated_value = 0; + else + // the percentage of the current value + // over the total of all dimensions + rd->calculated_value = + (calculated_number)100 + * (calculated_number)rd->collected_value + / (calculated_number)st->collected_total; + + if(unlikely(st->debug)) + debug(D_RRD_STATS, "%s/%s: CALC PCENT-ROW " + CALCULATED_NUMBER_FORMAT " = 100" + " * " COLLECTED_NUMBER_FORMAT + " / " COLLECTED_NUMBER_FORMAT + , st->id, rd->name + , rd->calculated_value + , rd->collected_value + , st->collected_total + ); + break; + + case RRDDIM_INCREMENTAL: + if(unlikely(!rd->updated || rd->counter <= 1)) { + rd->calculated_value = 0; + continue; + } + + // if the new is smaller than the old (an overflow, or reset), set the old equal to the new + // to reset the calculation (it will give zero as the calculation for this second) + if(unlikely(rd->last_collected_value > rd->collected_value)) { + debug(D_RRD_STATS, "%s.%s: RESET or OVERFLOW. Last collected value = " COLLECTED_NUMBER_FORMAT ", current = " COLLECTED_NUMBER_FORMAT + , st->name, rd->name + , rd->last_collected_value + , rd->collected_value); + if(!(rd->flags & RRDDIM_FLAG_DONT_DETECT_RESETS_OR_OVERFLOWS)) storage_flags = SN_EXISTS_RESET; + rd->last_collected_value = rd->collected_value; + } + + rd->calculated_value = (calculated_number)(rd->collected_value - rd->last_collected_value) + * (calculated_number)rd->multiplier + / (calculated_number)rd->divisor; + + if(unlikely(st->debug)) + debug(D_RRD_STATS, "%s/%s: CALC INC PRE " + CALCULATED_NUMBER_FORMAT " = (" + COLLECTED_NUMBER_FORMAT " - " COLLECTED_NUMBER_FORMAT + ")" + " * " CALCULATED_NUMBER_FORMAT + " / " CALCULATED_NUMBER_FORMAT + , st->id, rd->name + , rd->calculated_value + , rd->collected_value, rd->last_collected_value + , (calculated_number)rd->multiplier + , (calculated_number)rd->divisor + ); + break; + + case RRDDIM_PCENT_OVER_DIFF_TOTAL: + if(unlikely(!rd->updated || rd->counter <= 1)) { + rd->calculated_value = 0; + continue; + } + + // the percentage of the current increment + // over the increment of all dimensions together + if(unlikely(st->collected_total == st->last_collected_total)) rd->calculated_value = rd->last_calculated_value; + else rd->calculated_value = + (calculated_number)100 + * (calculated_number)(rd->collected_value - rd->last_collected_value) + / (calculated_number)(st->collected_total - st->last_collected_total); + + if(unlikely(st->debug)) + debug(D_RRD_STATS, "%s/%s: CALC PCENT-DIFF " + CALCULATED_NUMBER_FORMAT " = 100" + " * (" COLLECTED_NUMBER_FORMAT " - " COLLECTED_NUMBER_FORMAT ")" + " / (" COLLECTED_NUMBER_FORMAT " - " COLLECTED_NUMBER_FORMAT ")" + , st->id, rd->name + , rd->calculated_value + , rd->collected_value, rd->last_collected_value + , st->collected_total, st->last_collected_total + ); + break; + + default: + // make the default zero, to make sure + // it gets noticed when we add new types + rd->calculated_value = 0; + + if(unlikely(st->debug)) + debug(D_RRD_STATS, "%s/%s: CALC " + CALCULATED_NUMBER_FORMAT " = 0" + , st->id, rd->name + , rd->calculated_value + ); + break; + } + + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s/%s: PHASE2 " + " last_collected_value = " COLLECTED_NUMBER_FORMAT + " collected_value = " COLLECTED_NUMBER_FORMAT + " last_calculated_value = " CALCULATED_NUMBER_FORMAT + " calculated_value = " CALCULATED_NUMBER_FORMAT + , st->id, rd->name + , rd->last_collected_value + , rd->collected_value + , rd->last_calculated_value + , rd->calculated_value + ); + + } + + // at this point we have all the calculated values ready + // it is now time to interpolate values on a second boundary + + unsigned long long first_ut = last_ut; + long long iterations = (now_ut - last_ut) / (st->update_every * 1000000ULL); + if((now_ut % (st->update_every * 1000000ULL)) == 0) iterations++; + + for( ; likely(next_ut <= now_ut) ; next_ut += st->update_every * 1000000ULL, iterations-- ) { +#ifdef NETDATA_INTERNAL_CHECKS + if(iterations < 0) { error("%s: iterations calculation wrapped! first_ut = %llu, last_ut = %llu, next_ut = %llu, now_ut = %llu", st->name, first_ut, last_ut, next_ut, now_ut); } +#endif + + if(unlikely(st->debug)) { + debug(D_RRD_STATS, "%s: last ut = %0.3Lf (last updated time)", st->name, (long double)last_ut/1000000.0); + debug(D_RRD_STATS, "%s: next ut = %0.3Lf (next interpolation point)", st->name, (long double)next_ut/1000000.0); + } + + st->last_updated.tv_sec = (time_t) (next_ut / 1000000ULL); + st->last_updated.tv_usec = 0; + + for( rd = st->dimensions ; likely(rd) ; rd = rd->next ) { + calculated_number new_value; + + switch(rd->algorithm) { + case RRDDIM_INCREMENTAL: + new_value = (calculated_number) + ( rd->calculated_value + * (calculated_number)(next_ut - last_ut) + / (calculated_number)(now_ut - last_ut) + ); + + if(unlikely(st->debug)) + debug(D_RRD_STATS, "%s/%s: CALC2 INC " + CALCULATED_NUMBER_FORMAT " = " + CALCULATED_NUMBER_FORMAT + " * %llu" + " / %llu" + , st->id, rd->name + , new_value + , rd->calculated_value + , (next_ut - last_ut) + , (now_ut - last_ut) + ); + + rd->calculated_value -= new_value; + new_value += rd->last_calculated_value; + rd->last_calculated_value = 0; + new_value /= (calculated_number)st->update_every; + break; + + case RRDDIM_ABSOLUTE: + case RRDDIM_PCENT_OVER_ROW_TOTAL: + case RRDDIM_PCENT_OVER_DIFF_TOTAL: + default: + if(iterations == 1) { + // this is the last iteration + // do not interpolate + // just show the calculated value + + new_value = rd->calculated_value; + } + else { + // we have missed an update + // interpolate in the middle values + + new_value = (calculated_number) + ( ( (rd->calculated_value - rd->last_calculated_value) + * (calculated_number)(next_ut - first_ut) + / (calculated_number)(now_ut - first_ut) + ) + + rd->last_calculated_value + ); + + if(unlikely(st->debug)) + debug(D_RRD_STATS, "%s/%s: CALC2 DEF " + CALCULATED_NUMBER_FORMAT " = (((" + "(" CALCULATED_NUMBER_FORMAT " - " CALCULATED_NUMBER_FORMAT ")" + " * %llu" + " / %llu) + " CALCULATED_NUMBER_FORMAT + , st->id, rd->name + , new_value + , rd->calculated_value, rd->last_calculated_value + , (next_ut - first_ut) + , (now_ut - first_ut), rd->last_calculated_value + ); + + // this is wrong + // it fades the value towards the target + // while we know the calculated value is different + // if(likely(next_ut + st->update_every * 1000000ULL > now_ut)) rd->calculated_value = new_value; + } + break; + } + + if(unlikely(!store_this_entry)) { + store_this_entry = 1; + continue; + } + + if(likely(rd->updated && rd->counter > 1 && iterations < st->gap_when_lost_iterations_above)) { + rd->values[st->current_entry] = pack_storage_number(new_value, storage_flags ); + + if(unlikely(st->debug)) + debug(D_RRD_STATS, "%s/%s: STORE[%ld] " + CALCULATED_NUMBER_FORMAT " = " CALCULATED_NUMBER_FORMAT + , st->id, rd->name + , st->current_entry + , unpack_storage_number(rd->values[st->current_entry]), new_value + ); + } + else { + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s/%s: STORE[%ld] = NON EXISTING " + , st->id, rd->name + , st->current_entry + ); + rd->values[st->current_entry] = pack_storage_number(0, SN_NOT_EXISTS); + } + + stored_entries++; + + if(unlikely(st->debug)) { + calculated_number t1 = new_value * (calculated_number)rd->multiplier / (calculated_number)rd->divisor; + calculated_number t2 = unpack_storage_number(rd->values[st->current_entry]); + calculated_number accuracy = accuracy_loss(t1, t2); + debug(D_RRD_STATS, "%s/%s: UNPACK[%ld] = " CALCULATED_NUMBER_FORMAT " FLAGS=0x%08x (original = " CALCULATED_NUMBER_FORMAT ", accuracy loss = " CALCULATED_NUMBER_FORMAT "%%%s)" + , st->id, rd->name + , st->current_entry + , t2 + , get_storage_number_flags(rd->values[st->current_entry]) + , t1 + , accuracy + , (accuracy > ACCURACY_LOSS) ? " **TOO BIG** " : "" + ); + + rd->collected_volume += t1; + rd->stored_volume += t2; + accuracy = accuracy_loss(rd->collected_volume, rd->stored_volume); + debug(D_RRD_STATS, "%s/%s: VOLUME[%ld] = " CALCULATED_NUMBER_FORMAT ", calculated = " CALCULATED_NUMBER_FORMAT ", accuracy loss = " CALCULATED_NUMBER_FORMAT "%%%s" + , st->id, rd->name + , st->current_entry + , rd->stored_volume + , rd->collected_volume + , accuracy + , (accuracy > ACCURACY_LOSS) ? " **TOO BIG** " : "" + ); + + } + } + // reset the storage flags for the next point, if any; + storage_flags = SN_EXISTS; + + st->counter++; + st->current_entry = ((st->current_entry + 1) >= st->entries) ? 0 : st->current_entry + 1; + last_ut = next_ut; + } + + // align next interpolation to last collection point + if(likely(stored_entries || !store_this_entry)) { + st->last_updated.tv_sec = st->last_collected_time.tv_sec; + st->last_updated.tv_usec = st->last_collected_time.tv_usec; + } + + for( rd = st->dimensions; likely(rd) ; rd = rd->next ) { + if(unlikely(!rd->updated)) continue; + + if(likely(stored_entries || !store_this_entry)) { + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s/%s: setting last_collected_value (old: " COLLECTED_NUMBER_FORMAT ") to last_collected_value (new: " COLLECTED_NUMBER_FORMAT ")", st->id, rd->name, rd->last_collected_value, rd->collected_value); + rd->last_collected_value = rd->collected_value; + + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s/%s: setting last_calculated_value (old: " CALCULATED_NUMBER_FORMAT ") to last_calculated_value (new: " CALCULATED_NUMBER_FORMAT ")", st->id, rd->name, rd->last_calculated_value, rd->calculated_value); + rd->last_calculated_value = rd->calculated_value; + } + + rd->calculated_value = 0; + rd->collected_value = 0; + rd->updated = 0; + + if(unlikely(st->debug)) debug(D_RRD_STATS, "%s/%s: END " + " last_collected_value = " COLLECTED_NUMBER_FORMAT + " collected_value = " COLLECTED_NUMBER_FORMAT + " last_calculated_value = " CALCULATED_NUMBER_FORMAT + " calculated_value = " CALCULATED_NUMBER_FORMAT + , st->id, rd->name + , rd->last_collected_value + , rd->collected_value + , rd->last_calculated_value + , rd->calculated_value + ); + } + st->last_collected_total = st->collected_total; + + // ALL DONE ABOUT THE DATA UPDATE + // -------------------------------------------------------------------- + + // find if there are any obsolete dimensions (not updated recently) + if(unlikely(rrd_delete_unupdated_dimensions)) { + + for( rd = st->dimensions; likely(rd) ; rd = rd->next ) + if((rd->last_collected_time.tv_sec + (rrd_delete_unupdated_dimensions * st->update_every)) < st->last_collected_time.tv_sec) + break; + + if(unlikely(rd)) { + // there is dimension to free + // upgrade our read lock to a write lock + pthread_rwlock_unlock(&st->rwlock); + pthread_rwlock_wrlock(&st->rwlock); + + for( rd = st->dimensions, last = NULL ; likely(rd) ; ) { + // remove it only it is not updated in rrd_delete_unupdated_dimensions seconds + + if(unlikely((rd->last_collected_time.tv_sec + (rrd_delete_unupdated_dimensions * st->update_every)) < st->last_collected_time.tv_sec)) { + info("Removing obsolete dimension '%s' (%s) of '%s' (%s).", rd->name, rd->id, st->name, st->id); + + if(unlikely(!last)) { + st->dimensions = rd->next; + rd->next = NULL; + rrddim_free(st, rd); + rd = st->dimensions; + continue; + } + else { + last->next = rd->next; + rd->next = NULL; + rrddim_free(st, rd); + rd = last->next; + continue; + } + } + + last = rd; + rd = rd->next; + } + + if(unlikely(!st->dimensions)) { + info("Disabling chart %s (%s) since it does not have any dimensions", st->name, st->id); + st->enabled = 0; + } + } + } + + pthread_rwlock_unlock(&st->rwlock); + + if(unlikely(pthread_setcancelstate(oldstate, NULL) != 0)) + error("Cannot set pthread cancel state to RESTORE (%d).", oldstate); + + return(st->usec_since_last_update); +} |