// SPDX-License-Identifier: GPL-3.0-or-later #define EXPORTINGS_INTERNALS #include "prometheus.h" // ---------------------------------------------------------------------------- // PROMETHEUS // /api/v1/allmetrics?format=prometheus and /api/v1/allmetrics?format=prometheus_all_hosts static int is_matches_rrdset(struct instance *instance, RRDSET *st, SIMPLE_PATTERN *filter) { if (instance->config.options & EXPORTING_OPTION_SEND_NAMES) { return simple_pattern_matches(filter, st->name); } return simple_pattern_matches(filter, st->id); } /** * Check if a chart can be sent to Prometheus * * @param instance an instance data structure. * @param st a chart. * @param filter a simple pattern to match against. * @return Returns 1 if the chart can be sent, 0 otherwise. */ inline int can_send_rrdset(struct instance *instance, RRDSET *st, SIMPLE_PATTERN *filter) { #ifdef NETDATA_INTERNAL_CHECKS RRDHOST *host = st->rrdhost; #endif // Do not send anomaly rates charts. if (st->state && st->state->is_ar_chart) return 0; if (unlikely(rrdset_flag_check(st, RRDSET_FLAG_EXPORTING_IGNORE))) return 0; if (filter) { if (!is_matches_rrdset(instance, st, filter)) { return 0; } } else if (unlikely(!rrdset_flag_check(st, RRDSET_FLAG_EXPORTING_SEND))) { // we have not checked this chart if (is_matches_rrdset(instance, st, instance->config.charts_pattern)) { rrdset_flag_set(st, RRDSET_FLAG_EXPORTING_SEND); } else { rrdset_flag_set(st, RRDSET_FLAG_EXPORTING_IGNORE); debug( D_EXPORTING, "EXPORTING: not sending chart '%s' of host '%s', because it is disabled for exporting.", st->id, host->hostname); return 0; } } if (unlikely(!rrdset_is_available_for_exporting_and_alarms(st))) { debug( D_EXPORTING, "EXPORTING: not sending chart '%s' of host '%s', because it is not available for exporting.", st->id, host->hostname); return 0; } if (unlikely( st->rrd_memory_mode == RRD_MEMORY_MODE_NONE && !(EXPORTING_OPTIONS_DATA_SOURCE(instance->config.options) == EXPORTING_SOURCE_DATA_AS_COLLECTED))) { debug( D_EXPORTING, "EXPORTING: not sending chart '%s' of host '%s' because its memory mode is '%s' and the exporting connector requires database access.", st->id, host->hostname, rrd_memory_mode_name(host->rrd_memory_mode)); return 0; } return 1; } static struct prometheus_server { const char *server; uint32_t hash; RRDHOST *host; time_t last_access; struct prometheus_server *next; } *prometheus_server_root = NULL; static netdata_mutex_t prometheus_server_root_mutex = NETDATA_MUTEX_INITIALIZER; /** * Clean server root local structure */ void prometheus_clean_server_root() { if (prometheus_server_root) { netdata_mutex_lock(&prometheus_server_root_mutex); struct prometheus_server *ps; for (ps = prometheus_server_root; ps; ) { struct prometheus_server *current = ps; ps = ps->next; if(current->server) freez((void *)current->server); freez(current); } prometheus_server_root = NULL; netdata_mutex_unlock(&prometheus_server_root_mutex); } } /** * Get the last time when a Prometheus server scraped the Netdata Prometheus exporter. * * @param server the name of the Prometheus server. * @param host a data collecting host. * @param now actual time. * @return Returns the last time when the server accessed Netdata, or 0 if it is the first occurrence. */ static inline time_t prometheus_server_last_access(const char *server, RRDHOST *host, time_t now) { #ifdef UNIT_TESTING return 0; #endif uint32_t hash = simple_hash(server); netdata_mutex_lock(&prometheus_server_root_mutex); struct prometheus_server *ps; for (ps = prometheus_server_root; ps; ps = ps->next) { if (host == ps->host && hash == ps->hash && !strcmp(server, ps->server)) { time_t last = ps->last_access; ps->last_access = now; netdata_mutex_unlock(&prometheus_server_root_mutex); return last; } } ps = callocz(1, sizeof(struct prometheus_server)); ps->server = strdupz(server); ps->hash = hash; ps->host = host; ps->last_access = now; ps->next = prometheus_server_root; prometheus_server_root = ps; netdata_mutex_unlock(&prometheus_server_root_mutex); return 0; } /** * Copy and sanitize name. * * @param d a destination string. * @param s a source string. * @param usable the number of characters to copy. * @return Returns the length of the copied string. */ inline size_t prometheus_name_copy(char *d, const char *s, size_t usable) { size_t n; for (n = 0; *s && n < usable; d++, s++, n++) { register char c = *s; if (!isalnum(c)) *d = '_'; else *d = c; } *d = '\0'; return n; } /** * Copy and sanitize label. * * @param d a destination string. * @param s a source string. * @param usable the number of characters to copy. * @return Returns the length of the copied string. */ inline size_t prometheus_label_copy(char *d, const char *s, size_t usable) { size_t n; // make sure we can escape one character without overflowing the buffer usable--; for (n = 0; *s && n < usable; d++, s++, n++) { register char c = *s; if (unlikely(c == '"' || c == '\\' || c == '\n')) { *d++ = '\\'; n++; } *d = c; } *d = '\0'; return n; } /** * Copy and sanitize units. * * @param d a destination string. * @param s a source string. * @param usable the number of characters to copy. * @param showoldunits set this flag to 1 to show old (before v1.12) units. * @return Returns the destination string. */ inline char *prometheus_units_copy(char *d, const char *s, size_t usable, int showoldunits) { const char *sorig = s; char *ret = d; size_t n; // Fix for issue 5227 if (unlikely(showoldunits)) { static struct { const char *newunit; uint32_t hash; const char *oldunit; } units[] = { { "KiB/s", 0, "kilobytes/s" }, { "MiB/s", 0, "MB/s" }, { "GiB/s", 0, "GB/s" }, { "KiB", 0, "KB" }, { "MiB", 0, "MB" }, { "GiB", 0, "GB" }, { "inodes", 0, "Inodes" }, { "percentage", 0, "percent" }, { "faults/s", 0, "page faults/s" }, { "KiB/operation", 0, "kilobytes per operation" }, { "milliseconds/operation", 0, "ms per operation" }, { NULL, 0, NULL } }; static int initialized = 0; int i; if (unlikely(!initialized)) { for (i = 0; units[i].newunit; i++) units[i].hash = simple_hash(units[i].newunit); initialized = 1; } uint32_t hash = simple_hash(s); for (i = 0; units[i].newunit; i++) { if (unlikely(hash == units[i].hash && !strcmp(s, units[i].newunit))) { // info("matched extension for filename '%s': '%s'", filename, last_dot); s = units[i].oldunit; sorig = s; break; } } } *d++ = '_'; for (n = 1; *s && n < usable; d++, s++, n++) { register char c = *s; if (!isalnum(c)) *d = '_'; else *d = c; } if (n == 2 && sorig[0] == '%') { n = 0; d = ret; s = "_percent"; for (; *s && n < usable; n++) *d++ = *s++; } else if (n > 3 && sorig[n - 3] == '/' && sorig[n - 2] == 's') { n = n - 2; d -= 2; s = "_persec"; for (; *s && n < usable; n++) *d++ = *s++; } *d = '\0'; return ret; } /** * Format host labels for the Prometheus exporter * * @param instance an instance data structure. * @param host a data collecting host. */ struct format_prometheus_label_callback { struct instance *instance; size_t count; }; static int format_prometheus_label_callback(const char *name, const char *value, RRDLABEL_SRC ls, void *data) { struct format_prometheus_label_callback *d = (struct format_prometheus_label_callback *)data; if (!should_send_label(d->instance, ls)) return 0; char k[PROMETHEUS_ELEMENT_MAX + 1]; char v[PROMETHEUS_ELEMENT_MAX + 1]; prometheus_name_copy(k, name, PROMETHEUS_ELEMENT_MAX); prometheus_label_copy(v, value, PROMETHEUS_ELEMENT_MAX); if (*k && *v) { if (d->count > 0) buffer_strcat(d->instance->labels_buffer, ","); buffer_sprintf(d->instance->labels_buffer, "%s=\"%s\"", k, v); d->count++; } return 1; } void format_host_labels_prometheus(struct instance *instance, RRDHOST *host) { if (unlikely(!sending_labels_configured(instance))) return; if (!instance->labels_buffer) instance->labels_buffer = buffer_create(1024); struct format_prometheus_label_callback tmp = { .instance = instance, .count = 0 }; rrdlabels_walkthrough_read(host->host_labels, format_prometheus_label_callback, &tmp); } struct host_variables_callback_options { RRDHOST *host; BUFFER *wb; EXPORTING_OPTIONS exporting_options; PROMETHEUS_OUTPUT_OPTIONS output_options; const char *prefix; const char *labels; time_t now; int host_header_printed; char name[PROMETHEUS_VARIABLE_MAX + 1]; }; /** * Print host variables. * * @param rv a variable. * @param data callback options. * @return Returns 1 if the chart can be sent, 0 otherwise. */ static int print_host_variables(RRDVAR *rv, void *data) { struct host_variables_callback_options *opts = data; if (rv->options & (RRDVAR_OPTION_CUSTOM_HOST_VAR | RRDVAR_OPTION_CUSTOM_CHART_VAR)) { if (!opts->host_header_printed) { opts->host_header_printed = 1; if (opts->output_options & PROMETHEUS_OUTPUT_HELP) { buffer_sprintf(opts->wb, "\n# COMMENT global host and chart variables\n"); } } NETDATA_DOUBLE value = rrdvar2number(rv); if (isnan(value) || isinf(value)) { if (opts->output_options & PROMETHEUS_OUTPUT_HELP) buffer_sprintf( opts->wb, "# COMMENT variable \"%s\" is %s. Skipped.\n", rv->name, (isnan(value)) ? "NAN" : "INF"); return 0; } char *label_pre = ""; char *label_post = ""; if (opts->labels && *opts->labels) { label_pre = "{"; label_post = "}"; } prometheus_name_copy(opts->name, rv->name, sizeof(opts->name)); if (opts->output_options & PROMETHEUS_OUTPUT_TIMESTAMPS) buffer_sprintf( opts->wb, "%s_%s%s%s%s " NETDATA_DOUBLE_FORMAT " %llu\n", opts->prefix, opts->name, label_pre, opts->labels, label_post, value, opts->now * 1000ULL); else buffer_sprintf( opts->wb, "%s_%s%s%s%s " NETDATA_DOUBLE_FORMAT "\n", opts->prefix, opts->name, label_pre, opts->labels, label_post, value); return 1; } return 0; } struct gen_parameters { const char *prefix; char *context; char *suffix; char *chart; char *dimension; char *family; char *labels; PROMETHEUS_OUTPUT_OPTIONS output_options; RRDSET *st; RRDDIM *rd; const char *relation; const char *type; }; /** * Write an as-collected help comment to a buffer. * * @param wb the buffer to write the comment to. * @param p parameters for generating the comment string. * @param homogeneous a flag for homogeneous charts. * @param prometheus_collector a flag for metrics from prometheus collector. */ static void generate_as_collected_prom_help(BUFFER *wb, struct gen_parameters *p, int homogeneous, int prometheus_collector) { buffer_sprintf(wb, "# COMMENT %s_%s", p->prefix, p->context); if (!homogeneous) buffer_sprintf(wb, "_%s", p->dimension); buffer_sprintf( wb, "%s: chart \"%s\", context \"%s\", family \"%s\", dimension \"%s\", value * ", p->suffix, (p->output_options & PROMETHEUS_OUTPUT_NAMES && p->st->name) ? p->st->name : p->st->id, p->st->context, p->st->family, (p->output_options & PROMETHEUS_OUTPUT_NAMES && p->rd->name) ? p->rd->name : p->rd->id); if (prometheus_collector) buffer_sprintf(wb, "1 / 1"); else buffer_sprintf(wb, COLLECTED_NUMBER_FORMAT " / " COLLECTED_NUMBER_FORMAT, p->rd->multiplier, p->rd->divisor); buffer_sprintf(wb, " %s %s (%s)\n", p->relation, p->st->units, p->type); } /** * Write an as-collected metric to a buffer. * * @param wb the buffer to write the metric to. * @param p parameters for generating the metric string. * @param homogeneous a flag for homogeneous charts. * @param prometheus_collector a flag for metrics from prometheus collector. */ static void generate_as_collected_prom_metric(BUFFER *wb, struct gen_parameters *p, int homogeneous, int prometheus_collector) { buffer_sprintf(wb, "%s_%s", p->prefix, p->context); if (!homogeneous) buffer_sprintf(wb, "_%s", p->dimension); buffer_sprintf(wb, "%s{chart=\"%s\",family=\"%s\"", p->suffix, p->chart, p->family); if (homogeneous) buffer_sprintf(wb, ",dimension=\"%s\"", p->dimension); buffer_sprintf(wb, "%s} ", p->labels); if (prometheus_collector) buffer_sprintf( wb, NETDATA_DOUBLE_FORMAT, (NETDATA_DOUBLE)p->rd->last_collected_value * (NETDATA_DOUBLE)p->rd->multiplier / (NETDATA_DOUBLE)p->rd->divisor); else buffer_sprintf(wb, COLLECTED_NUMBER_FORMAT, p->rd->last_collected_value); if (p->output_options & PROMETHEUS_OUTPUT_TIMESTAMPS) buffer_sprintf(wb, " %llu\n", timeval_msec(&p->rd->last_collected_time)); else buffer_sprintf(wb, "\n"); } /** * Write metrics in Prometheus format to a buffer. * * @param instance an instance data structure. * @param host a data collecting host. * @param filter_string a simple pattern filter. * @param wb the buffer to fill with metrics. * @param prefix a prefix for every metric. * @param exporting_options options to configure what data is exported. * @param allhosts set to 1 if host instance should be in the output for tags. * @param output_options options to configure the format of the output. */ static void rrd_stats_api_v1_charts_allmetrics_prometheus( struct instance *instance, RRDHOST *host, const char *filter_string, BUFFER *wb, const char *prefix, EXPORTING_OPTIONS exporting_options, int allhosts, PROMETHEUS_OUTPUT_OPTIONS output_options) { SIMPLE_PATTERN *filter = simple_pattern_create(filter_string, NULL, SIMPLE_PATTERN_EXACT); rrdhost_rdlock(host); char hostname[PROMETHEUS_ELEMENT_MAX + 1]; prometheus_label_copy(hostname, host->hostname, PROMETHEUS_ELEMENT_MAX); format_host_labels_prometheus(instance, host); buffer_sprintf( wb, "netdata_info{instance=\"%s\",application=\"%s\",version=\"%s\"", hostname, host->program_name, host->program_version); if (instance->labels_buffer && *buffer_tostring(instance->labels_buffer)) { buffer_sprintf(wb, ",%s", buffer_tostring(instance->labels_buffer)); } if (output_options & PROMETHEUS_OUTPUT_TIMESTAMPS) buffer_sprintf(wb, "} 1 %llu\n", now_realtime_usec() / USEC_PER_MS); else buffer_sprintf(wb, "} 1\n"); char labels[PROMETHEUS_LABELS_MAX + 1] = ""; if (allhosts) { snprintfz(labels, PROMETHEUS_LABELS_MAX, ",instance=\"%s\"", hostname); } if (instance->labels_buffer) buffer_flush(instance->labels_buffer); // send custom variables set for the host if (output_options & PROMETHEUS_OUTPUT_VARIABLES) { struct host_variables_callback_options opts = { .host = host, .wb = wb, .labels = (labels[0] == ',') ? &labels[1] : labels, .exporting_options = exporting_options, .output_options = output_options, .prefix = prefix, .now = now_realtime_sec(), .host_header_printed = 0 }; foreach_host_variable_callback(host, print_host_variables, &opts); } // for each chart RRDSET *st; rrdset_foreach_read(st, host) { if (likely(can_send_rrdset(instance, st, filter))) { rrdset_rdlock(st); char chart[PROMETHEUS_ELEMENT_MAX + 1]; char context[PROMETHEUS_ELEMENT_MAX + 1]; char family[PROMETHEUS_ELEMENT_MAX + 1]; char units[PROMETHEUS_ELEMENT_MAX + 1] = ""; prometheus_label_copy( chart, (output_options & PROMETHEUS_OUTPUT_NAMES && st->name) ? st->name : st->id, PROMETHEUS_ELEMENT_MAX); prometheus_label_copy(family, st->family, PROMETHEUS_ELEMENT_MAX); prometheus_name_copy(context, st->context, PROMETHEUS_ELEMENT_MAX); int as_collected = (EXPORTING_OPTIONS_DATA_SOURCE(exporting_options) == EXPORTING_SOURCE_DATA_AS_COLLECTED); int homogeneous = 1; int prometheus_collector = 0; if (as_collected) { if (rrdset_flag_check(st, RRDSET_FLAG_HOMOGENEOUS_CHECK)) rrdset_update_heterogeneous_flag(st); if (rrdset_flag_check(st, RRDSET_FLAG_HETEROGENEOUS)) homogeneous = 0; if (st->module_name && !strcmp(st->module_name, "prometheus")) prometheus_collector = 1; } else { if (EXPORTING_OPTIONS_DATA_SOURCE(exporting_options) == EXPORTING_SOURCE_DATA_AVERAGE && !(output_options & PROMETHEUS_OUTPUT_HIDEUNITS)) prometheus_units_copy( units, st->units, PROMETHEUS_ELEMENT_MAX, output_options & PROMETHEUS_OUTPUT_OLDUNITS); } if (unlikely(output_options & PROMETHEUS_OUTPUT_HELP)) buffer_sprintf( wb, "\n# COMMENT %s chart \"%s\", context \"%s\", family \"%s\", units \"%s\"\n", (homogeneous) ? "homogeneous" : "heterogeneous", (output_options & PROMETHEUS_OUTPUT_NAMES && st->name) ? st->name : st->id, st->context, st->family, st->units); // for each dimension RRDDIM *rd; rrddim_foreach_read(rd, st) { if (rd->collections_counter && !rrddim_flag_check(rd, RRDDIM_FLAG_OBSOLETE)) { char dimension[PROMETHEUS_ELEMENT_MAX + 1]; char *suffix = ""; if (as_collected) { // we need as-collected / raw data struct gen_parameters p; p.prefix = prefix; p.context = context; p.suffix = suffix; p.chart = chart; p.dimension = dimension; p.family = family; p.labels = labels; p.output_options = output_options; p.st = st; p.rd = rd; if (unlikely(rd->last_collected_time.tv_sec < instance->after)) continue; p.type = "gauge"; p.relation = "gives"; if (rd->algorithm == RRD_ALGORITHM_INCREMENTAL || rd->algorithm == RRD_ALGORITHM_PCENT_OVER_DIFF_TOTAL) { p.type = "counter"; p.relation = "delta gives"; if (!prometheus_collector) p.suffix = "_total"; } if (homogeneous) { // all the dimensions of the chart, has the same algorithm, multiplier and divisor // we add all dimensions as labels prometheus_label_copy( dimension, (output_options & PROMETHEUS_OUTPUT_NAMES && rd->name) ? rd->name : rd->id, PROMETHEUS_ELEMENT_MAX); if (unlikely(output_options & PROMETHEUS_OUTPUT_HELP)) generate_as_collected_prom_help(wb, &p, homogeneous, prometheus_collector); if (unlikely(output_options & PROMETHEUS_OUTPUT_TYPES)) buffer_sprintf(wb, "# TYPE %s_%s%s %s\n", prefix, context, suffix, p.type); generate_as_collected_prom_metric(wb, &p, homogeneous, prometheus_collector); } else { // the dimensions of the chart, do not have the same algorithm, multiplier or divisor // we create a metric per dimension prometheus_name_copy( dimension, (output_options & PROMETHEUS_OUTPUT_NAMES && rd->name) ? rd->name : rd->id, PROMETHEUS_ELEMENT_MAX); if (unlikely(output_options & PROMETHEUS_OUTPUT_HELP)) generate_as_collected_prom_help(wb, &p, homogeneous, prometheus_collector); if (unlikely(output_options & PROMETHEUS_OUTPUT_TYPES)) buffer_sprintf( wb, "# TYPE %s_%s_%s%s %s\n", prefix, context, dimension, suffix, p.type); generate_as_collected_prom_metric(wb, &p, homogeneous, prometheus_collector); } } else { // we need average or sum of the data time_t first_time = instance->after; time_t last_time = instance->before; NETDATA_DOUBLE value = exporting_calculate_value_from_stored_data(instance, rd, &last_time); if (!isnan(value) && !isinf(value)) { if (EXPORTING_OPTIONS_DATA_SOURCE(exporting_options) == EXPORTING_SOURCE_DATA_AVERAGE) suffix = "_average"; else if (EXPORTING_OPTIONS_DATA_SOURCE(exporting_options) == EXPORTING_SOURCE_DATA_SUM) suffix = "_sum"; prometheus_label_copy( dimension, (output_options & PROMETHEUS_OUTPUT_NAMES && rd->name) ? rd->name : rd->id, PROMETHEUS_ELEMENT_MAX); if (unlikely(output_options & PROMETHEUS_OUTPUT_HELP)) buffer_sprintf( wb, "# COMMENT %s_%s%s%s: dimension \"%s\", value is %s, gauge, dt %llu to %llu inclusive\n", prefix, context, units, suffix, (output_options & PROMETHEUS_OUTPUT_NAMES && rd->name) ? rd->name : rd->id, st->units, (unsigned long long)first_time, (unsigned long long)last_time); if (unlikely(output_options & PROMETHEUS_OUTPUT_TYPES)) buffer_sprintf(wb, "# TYPE %s_%s%s%s gauge\n", prefix, context, units, suffix); if (output_options & PROMETHEUS_OUTPUT_TIMESTAMPS) buffer_sprintf( wb, "%s_%s%s%s{chart=\"%s\",family=\"%s\",dimension=\"%s\"%s} " NETDATA_DOUBLE_FORMAT " %llu\n", prefix, context, units, suffix, chart, family, dimension, labels, value, last_time * MSEC_PER_SEC); else buffer_sprintf( wb, "%s_%s%s%s{chart=\"%s\",family=\"%s\",dimension=\"%s\"%s} " NETDATA_DOUBLE_FORMAT "\n", prefix, context, units, suffix, chart, family, dimension, labels, value); } } } } rrdset_unlock(st); } } rrdhost_unlock(host); simple_pattern_free(filter); } /** * Get the last time time when a server accessed Netdata. Write information about an API request to a buffer. * * @param instance an instance data structure. * @param host a data collecting host. * @param wb the buffer to write to. * @param exporting_options options to configure what data is exported. * @param server the name of a Prometheus server.. * @param now actual time. * @param output_options options to configure the format of the output. * @return Returns the last time when the server accessed Netdata. */ static inline time_t prometheus_preparation( struct instance *instance, RRDHOST *host, BUFFER *wb, EXPORTING_OPTIONS exporting_options, const char *server, time_t now, PROMETHEUS_OUTPUT_OPTIONS output_options) { #ifndef UNIT_TESTING analytics_log_prometheus(); #endif if (!server || !*server) server = "default"; time_t after = prometheus_server_last_access(server, host, now); int first_seen = 0; if (!after) { after = now - instance->config.update_every; first_seen = 1; } if (after > now) { // oops! this should never happen after = now - instance->config.update_every; } if (output_options & PROMETHEUS_OUTPUT_HELP) { char *mode; if (EXPORTING_OPTIONS_DATA_SOURCE(exporting_options) == EXPORTING_SOURCE_DATA_AS_COLLECTED) mode = "as collected"; else if (EXPORTING_OPTIONS_DATA_SOURCE(exporting_options) == EXPORTING_SOURCE_DATA_AVERAGE) mode = "average"; else if (EXPORTING_OPTIONS_DATA_SOURCE(exporting_options) == EXPORTING_SOURCE_DATA_SUM) mode = "sum"; else mode = "unknown"; buffer_sprintf( wb, "# COMMENT netdata \"%s\" to %sprometheus \"%s\", source \"%s\", last seen %lu %s, time range %lu to %lu\n\n", host->hostname, (first_seen) ? "FIRST SEEN " : "", server, mode, (unsigned long)((first_seen) ? 0 : (now - after)), (first_seen) ? "never" : "seconds ago", (unsigned long)after, (unsigned long)now); } return after; } /** * Write metrics and auxiliary information for one host to a buffer. * * @param host a data collecting host. * @param filter_string a simple pattern filter. * @param wb the buffer to write to. * @param server the name of a Prometheus server. * @param prefix a prefix for every metric. * @param exporting_options options to configure what data is exported. * @param output_options options to configure the format of the output. */ void rrd_stats_api_v1_charts_allmetrics_prometheus_single_host( RRDHOST *host, const char *filter_string, BUFFER *wb, const char *server, const char *prefix, EXPORTING_OPTIONS exporting_options, PROMETHEUS_OUTPUT_OPTIONS output_options) { if (unlikely(!prometheus_exporter_instance || !prometheus_exporter_instance->config.initialized)) return; prometheus_exporter_instance->before = now_realtime_sec(); // we start at the point we had stopped before prometheus_exporter_instance->after = prometheus_preparation( prometheus_exporter_instance, host, wb, exporting_options, server, prometheus_exporter_instance->before, output_options); rrd_stats_api_v1_charts_allmetrics_prometheus( prometheus_exporter_instance, host, filter_string, wb, prefix, exporting_options, 0, output_options); } /** * Write metrics and auxiliary information for all hosts to a buffer. * * @param host a data collecting host. * @param filter_string a simple pattern filter. * @param wb the buffer to write to. * @param server the name of a Prometheus server. * @param prefix a prefix for every metric. * @param exporting_options options to configure what data is exported. * @param output_options options to configure the format of the output. */ void rrd_stats_api_v1_charts_allmetrics_prometheus_all_hosts( RRDHOST *host, const char *filter_string, BUFFER *wb, const char *server, const char *prefix, EXPORTING_OPTIONS exporting_options, PROMETHEUS_OUTPUT_OPTIONS output_options) { if (unlikely(!prometheus_exporter_instance || !prometheus_exporter_instance->config.initialized)) return; prometheus_exporter_instance->before = now_realtime_sec(); // we start at the point we had stopped before prometheus_exporter_instance->after = prometheus_preparation( prometheus_exporter_instance, host, wb, exporting_options, server, prometheus_exporter_instance->before, output_options); rrd_rdlock(); rrdhost_foreach_read(host) { rrd_stats_api_v1_charts_allmetrics_prometheus( prometheus_exporter_instance, host, filter_string, wb, prefix, exporting_options, 1, output_options); } rrd_unlock(); }