// SPDX-License-Identifier: GPL-3.0-or-later #include "pluginsd_parser.h" #define LOG_FUNCTIONS false static ssize_t send_to_plugin(const char *txt, void *data) { PARSER *parser = data; if(!txt || !*txt) return 0; errno = 0; spinlock_lock(&parser->writer.spinlock); ssize_t bytes = -1; #ifdef ENABLE_HTTPS NETDATA_SSL *ssl = parser->ssl_output; if(ssl) { if(SSL_connection(ssl)) bytes = netdata_ssl_write(ssl, (void *) txt, strlen(txt)); else netdata_log_error("PLUGINSD: cannot send command (SSL)"); spinlock_unlock(&parser->writer.spinlock); return bytes; } #endif if(parser->fp_output) { bytes = fprintf(parser->fp_output, "%s", txt); if(bytes <= 0) { netdata_log_error("PLUGINSD: cannot send command (FILE)"); bytes = -2; } else fflush(parser->fp_output); spinlock_unlock(&parser->writer.spinlock); return bytes; } if(parser->fd != -1) { bytes = 0; ssize_t total = (ssize_t)strlen(txt); ssize_t sent; do { sent = write(parser->fd, &txt[bytes], total - bytes); if(sent <= 0) { netdata_log_error("PLUGINSD: cannot send command (fd)"); spinlock_unlock(&parser->writer.spinlock); return -3; } bytes += sent; } while(bytes < total); spinlock_unlock(&parser->writer.spinlock); return (int)bytes; } spinlock_unlock(&parser->writer.spinlock); netdata_log_error("PLUGINSD: cannot send command (no output socket/pipe/file given to plugins.d parser)"); return -4; } static inline RRDHOST *pluginsd_require_host_from_parent(PARSER *parser, const char *cmd) { RRDHOST *host = parser->user.host; if(unlikely(!host)) netdata_log_error("PLUGINSD: command %s requires a host, but is not set.", cmd); return host; } static inline RRDSET *pluginsd_require_chart_from_parent(PARSER *parser, const char *cmd, const char *parent_cmd) { RRDSET *st = parser->user.st; if(unlikely(!st)) netdata_log_error("PLUGINSD: command %s requires a chart defined via command %s, but is not set.", cmd, parent_cmd); return st; } static inline RRDSET *pluginsd_get_chart_from_parent(PARSER *parser) { return parser->user.st; } static inline void pluginsd_lock_rrdset_data_collection(PARSER *parser) { if(parser->user.st && !parser->user.v2.locked_data_collection) { spinlock_lock(&parser->user.st->data_collection_lock); parser->user.v2.locked_data_collection = true; } } static inline bool pluginsd_unlock_rrdset_data_collection(PARSER *parser) { if(parser->user.st && parser->user.v2.locked_data_collection) { spinlock_unlock(&parser->user.st->data_collection_lock); parser->user.v2.locked_data_collection = false; return true; } return false; } void pluginsd_rrdset_cleanup(RRDSET *st) { for(size_t i = 0; i < st->pluginsd.used ; i++) { if (st->pluginsd.rda[i]) { rrddim_acquired_release(st->pluginsd.rda[i]); st->pluginsd.rda[i] = NULL; } } freez(st->pluginsd.rda); st->pluginsd.rda = NULL; st->pluginsd.size = 0; st->pluginsd.used = 0; st->pluginsd.pos = 0; } static inline void pluginsd_unlock_previous_chart(PARSER *parser, const char *keyword, bool stale) { if(unlikely(pluginsd_unlock_rrdset_data_collection(parser))) { if(stale) netdata_log_error("PLUGINSD: 'host:%s/chart:%s/' stale data collection lock found during %s; it has been unlocked", rrdhost_hostname(parser->user.st->rrdhost), rrdset_id(parser->user.st), keyword); } if(unlikely(parser->user.v2.ml_locked)) { ml_chart_update_end(parser->user.st); parser->user.v2.ml_locked = false; if(stale) netdata_log_error("PLUGINSD: 'host:%s/chart:%s/' stale ML lock found during %s, it has been unlocked", rrdhost_hostname(parser->user.st->rrdhost), rrdset_id(parser->user.st), keyword); } } static inline void pluginsd_set_chart_from_parent(PARSER *parser, RRDSET *st, const char *keyword) { pluginsd_unlock_previous_chart(parser, keyword, true); if(st) { size_t dims = dictionary_entries(st->rrddim_root_index); if(unlikely(st->pluginsd.size < dims)) { st->pluginsd.rda = reallocz(st->pluginsd.rda, dims * sizeof(RRDDIM_ACQUIRED *)); st->pluginsd.size = dims; } if(st->pluginsd.pos > st->pluginsd.used && st->pluginsd.pos <= st->pluginsd.size) st->pluginsd.used = st->pluginsd.pos; st->pluginsd.pos = 0; } parser->user.st = st; } static inline RRDDIM *pluginsd_acquire_dimension(RRDHOST *host, RRDSET *st, const char *dimension, const char *cmd) { if (unlikely(!dimension || !*dimension)) { netdata_log_error("PLUGINSD: 'host:%s/chart:%s' got a %s, without a dimension.", rrdhost_hostname(host), rrdset_id(st), cmd); return NULL; } RRDDIM_ACQUIRED *rda; if(likely(st->pluginsd.pos < st->pluginsd.used)) { rda = st->pluginsd.rda[st->pluginsd.pos]; RRDDIM *rd = rrddim_acquired_to_rrddim(rda); if (likely(rd && string_strcmp(rd->id, dimension) == 0)) { st->pluginsd.pos++; return rd; } else { rrddim_acquired_release(rda); st->pluginsd.rda[st->pluginsd.pos] = NULL; } } rda = rrddim_find_and_acquire(st, dimension); if (unlikely(!rda)) { netdata_log_error("PLUGINSD: 'host:%s/chart:%s/dim:%s' got a %s but dimension does not exist.", rrdhost_hostname(host), rrdset_id(st), dimension, cmd); return NULL; } if(likely(st->pluginsd.pos < st->pluginsd.size)) st->pluginsd.rda[st->pluginsd.pos++] = rda; return rrddim_acquired_to_rrddim(rda); } static inline RRDSET *pluginsd_find_chart(RRDHOST *host, const char *chart, const char *cmd) { if (unlikely(!chart || !*chart)) { netdata_log_error("PLUGINSD: 'host:%s' got a %s without a chart id.", rrdhost_hostname(host), cmd); return NULL; } RRDSET *st = rrdset_find(host, chart); if (unlikely(!st)) netdata_log_error("PLUGINSD: 'host:%s/chart:%s' got a %s but chart does not exist.", rrdhost_hostname(host), chart, cmd); return st; } static inline PARSER_RC PLUGINSD_DISABLE_PLUGIN(PARSER *parser, const char *keyword, const char *msg) { parser->user.enabled = 0; if(keyword && msg) { error_limit_static_global_var(erl, 1, 0); error_limit(&erl, "PLUGINSD: keyword %s: %s", keyword, msg); } return PARSER_RC_ERROR; } static inline PARSER_RC pluginsd_set(char **words, size_t num_words, PARSER *parser) { char *dimension = get_word(words, num_words, 1); char *value = get_word(words, num_words, 2); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_SET); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_SET, PLUGINSD_KEYWORD_CHART); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDDIM *rd = pluginsd_acquire_dimension(host, st, dimension, PLUGINSD_KEYWORD_SET); if(!rd) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); if (unlikely(rrdset_flag_check(st, RRDSET_FLAG_DEBUG))) netdata_log_debug(D_PLUGINSD, "PLUGINSD: 'host:%s/chart:%s/dim:%s' SET is setting value to '%s'", rrdhost_hostname(host), rrdset_id(st), dimension, value && *value ? value : "UNSET"); if (value && *value) rrddim_set_by_pointer(st, rd, str2ll_encoded(value)); return PARSER_RC_OK; } static inline PARSER_RC pluginsd_begin(char **words, size_t num_words, PARSER *parser) { char *id = get_word(words, num_words, 1); char *microseconds_txt = get_word(words, num_words, 2); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_BEGIN); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_find_chart(host, id, PLUGINSD_KEYWORD_BEGIN); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); pluginsd_set_chart_from_parent(parser, st, PLUGINSD_KEYWORD_BEGIN); usec_t microseconds = 0; if (microseconds_txt && *microseconds_txt) { long long t = str2ll(microseconds_txt, NULL); if(t >= 0) microseconds = t; } #ifdef NETDATA_LOG_REPLICATION_REQUESTS if(st->replay.log_next_data_collection) { st->replay.log_next_data_collection = false; internal_error(true, "REPLAY: 'host:%s/chart:%s' first BEGIN after replication, last collected %llu, last updated %llu, microseconds %llu", rrdhost_hostname(host), rrdset_id(st), st->last_collected_time.tv_sec * USEC_PER_SEC + st->last_collected_time.tv_usec, st->last_updated.tv_sec * USEC_PER_SEC + st->last_updated.tv_usec, microseconds ); } #endif if (likely(st->counter_done)) { if (likely(microseconds)) { if (parser->user.trust_durations) rrdset_next_usec_unfiltered(st, microseconds); else rrdset_next_usec(st, microseconds); } else rrdset_next(st); } return PARSER_RC_OK; } static inline PARSER_RC pluginsd_end(char **words, size_t num_words, PARSER *parser) { UNUSED(words); UNUSED(num_words); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_END); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_END, PLUGINSD_KEYWORD_BEGIN); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); if (unlikely(rrdset_flag_check(st, RRDSET_FLAG_DEBUG))) netdata_log_debug(D_PLUGINSD, "requested an END on chart '%s'", rrdset_id(st)); pluginsd_set_chart_from_parent(parser, NULL, PLUGINSD_KEYWORD_END); parser->user.data_collections_count++; struct timeval now; now_realtime_timeval(&now); rrdset_timed_done(st, now, /* pending_rrdset_next = */ false); return PARSER_RC_OK; } static void pluginsd_host_define_cleanup(PARSER *parser) { string_freez(parser->user.host_define.hostname); dictionary_destroy(parser->user.host_define.rrdlabels); parser->user.host_define.hostname = NULL; parser->user.host_define.rrdlabels = NULL; parser->user.host_define.parsing_host = false; } static inline bool pluginsd_validate_machine_guid(const char *guid, uuid_t *uuid, char *output) { if(uuid_parse(guid, *uuid)) return false; uuid_unparse_lower(*uuid, output); return true; } static inline PARSER_RC pluginsd_host_define(char **words, size_t num_words, PARSER *parser) { char *guid = get_word(words, num_words, 1); char *hostname = get_word(words, num_words, 2); if(unlikely(!guid || !*guid || !hostname || !*hostname)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_HOST_DEFINE, "missing parameters"); if(unlikely(parser->user.host_define.parsing_host)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_HOST_DEFINE, "another host definition is already open - did you send " PLUGINSD_KEYWORD_HOST_DEFINE_END "?"); if(!pluginsd_validate_machine_guid(guid, &parser->user.host_define.machine_guid, parser->user.host_define.machine_guid_str)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_HOST_DEFINE, "cannot parse MACHINE_GUID - is it a valid UUID?"); parser->user.host_define.hostname = string_strdupz(hostname); parser->user.host_define.rrdlabels = rrdlabels_create(); parser->user.host_define.parsing_host = true; return PARSER_RC_OK; } static inline PARSER_RC pluginsd_host_dictionary(char **words, size_t num_words, PARSER *parser, DICTIONARY *dict, const char *keyword) { char *name = get_word(words, num_words, 1); char *value = get_word(words, num_words, 2); if(!name || !*name || !value) return PLUGINSD_DISABLE_PLUGIN(parser, keyword, "missing parameters"); if(!parser->user.host_define.parsing_host || !dict) return PLUGINSD_DISABLE_PLUGIN(parser, keyword, "host is not defined, send " PLUGINSD_KEYWORD_HOST_DEFINE " before this"); rrdlabels_add(dict, name, value, RRDLABEL_SRC_CONFIG); return PARSER_RC_OK; } static inline PARSER_RC pluginsd_host_labels(char **words, size_t num_words, PARSER *parser) { return pluginsd_host_dictionary(words, num_words, parser, parser->user.host_define.rrdlabels, PLUGINSD_KEYWORD_HOST_LABEL); } static inline PARSER_RC pluginsd_host_define_end(char **words __maybe_unused, size_t num_words __maybe_unused, PARSER *parser) { if(!parser->user.host_define.parsing_host) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_HOST_DEFINE_END, "missing initialization, send " PLUGINSD_KEYWORD_HOST_DEFINE " before this"); RRDHOST *host = rrdhost_find_or_create( string2str(parser->user.host_define.hostname), string2str(parser->user.host_define.hostname), parser->user.host_define.machine_guid_str, "Netdata Virtual Host 1.0", netdata_configured_timezone, netdata_configured_abbrev_timezone, netdata_configured_utc_offset, NULL, program_name, program_version, default_rrd_update_every, default_rrd_history_entries, default_rrd_memory_mode, default_health_enabled, default_rrdpush_enabled, default_rrdpush_destination, default_rrdpush_api_key, default_rrdpush_send_charts_matching, default_rrdpush_enable_replication, default_rrdpush_seconds_to_replicate, default_rrdpush_replication_step, rrdhost_labels_to_system_info(parser->user.host_define.rrdlabels), false ); rrdhost_option_set(host, RRDHOST_OPTION_VIRTUAL_HOST); if(host->rrdlabels) { rrdlabels_migrate_to_these(host->rrdlabels, parser->user.host_define.rrdlabels); } else { host->rrdlabels = parser->user.host_define.rrdlabels; parser->user.host_define.rrdlabels = NULL; } pluginsd_host_define_cleanup(parser); parser->user.host = host; pluginsd_set_chart_from_parent(parser, NULL, PLUGINSD_KEYWORD_HOST_DEFINE_END); rrdhost_flag_clear(host, RRDHOST_FLAG_ORPHAN); rrdcontext_host_child_connected(host); schedule_node_info_update(host); return PARSER_RC_OK; } static inline PARSER_RC pluginsd_host(char **words, size_t num_words, PARSER *parser) { char *guid = get_word(words, num_words, 1); if(!guid || !*guid || strcmp(guid, "localhost") == 0) { parser->user.host = localhost; return PARSER_RC_OK; } uuid_t uuid; char uuid_str[UUID_STR_LEN]; if(!pluginsd_validate_machine_guid(guid, &uuid, uuid_str)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_HOST, "cannot parse MACHINE_GUID - is it a valid UUID?"); RRDHOST *host = rrdhost_find_by_guid(uuid_str); if(unlikely(!host)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_HOST, "cannot find a host with this machine guid - have you created it?"); parser->user.host = host; return PARSER_RC_OK; } static inline PARSER_RC pluginsd_chart(char **words, size_t num_words, PARSER *parser) { RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_CHART); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); char *type = get_word(words, num_words, 1); char *name = get_word(words, num_words, 2); char *title = get_word(words, num_words, 3); char *units = get_word(words, num_words, 4); char *family = get_word(words, num_words, 5); char *context = get_word(words, num_words, 6); char *chart = get_word(words, num_words, 7); char *priority_s = get_word(words, num_words, 8); char *update_every_s = get_word(words, num_words, 9); char *options = get_word(words, num_words, 10); char *plugin = get_word(words, num_words, 11); char *module = get_word(words, num_words, 12); // parse the id from type char *id = NULL; if (likely(type && (id = strchr(type, '.')))) { *id = '\0'; id++; } // make sure we have the required variables if (unlikely((!type || !*type || !id || !*id))) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_CHART, "missing parameters"); // parse the name, and make sure it does not include 'type.' if (unlikely(name && *name)) { // when data are streamed from child nodes // name will be type.name // so, we have to remove 'type.' from name too size_t len = strlen(type); if (strncmp(type, name, len) == 0 && name[len] == '.') name = &name[len + 1]; // if the name is the same with the id, // or is just 'NULL', clear it. if (unlikely(strcmp(name, id) == 0 || strcasecmp(name, "NULL") == 0 || strcasecmp(name, "(NULL)") == 0)) name = NULL; } int priority = 1000; if (likely(priority_s && *priority_s)) priority = str2i(priority_s); int update_every = parser->user.cd->update_every; if (likely(update_every_s && *update_every_s)) update_every = str2i(update_every_s); if (unlikely(!update_every)) update_every = parser->user.cd->update_every; RRDSET_TYPE chart_type = RRDSET_TYPE_LINE; if (unlikely(chart)) chart_type = rrdset_type_id(chart); if (unlikely(name && !*name)) name = NULL; if (unlikely(family && !*family)) family = NULL; if (unlikely(context && !*context)) context = NULL; if (unlikely(!title)) title = ""; if (unlikely(!units)) units = "unknown"; netdata_log_debug( D_PLUGINSD, "creating chart type='%s', id='%s', name='%s', family='%s', context='%s', chart='%s', priority=%d, update_every=%d", type, id, name ? name : "", family ? family : "", context ? context : "", rrdset_type_name(chart_type), priority, update_every); RRDSET *st = NULL; st = rrdset_create( host, type, id, name, family, context, title, units, (plugin && *plugin) ? plugin : parser->user.cd->filename, module, priority, update_every, chart_type); if (likely(st)) { if (options && *options) { if (strstr(options, "obsolete")) { pluginsd_rrdset_cleanup(st); rrdset_is_obsolete(st); } else rrdset_isnot_obsolete(st); if (strstr(options, "detail")) rrdset_flag_set(st, RRDSET_FLAG_DETAIL); else rrdset_flag_clear(st, RRDSET_FLAG_DETAIL); if (strstr(options, "hidden")) rrdset_flag_set(st, RRDSET_FLAG_HIDDEN); else rrdset_flag_clear(st, RRDSET_FLAG_HIDDEN); if (strstr(options, "store_first")) rrdset_flag_set(st, RRDSET_FLAG_STORE_FIRST); else rrdset_flag_clear(st, RRDSET_FLAG_STORE_FIRST); } else { rrdset_isnot_obsolete(st); rrdset_flag_clear(st, RRDSET_FLAG_DETAIL); rrdset_flag_clear(st, RRDSET_FLAG_STORE_FIRST); } } pluginsd_set_chart_from_parent(parser, st, PLUGINSD_KEYWORD_CHART); return PARSER_RC_OK; } static inline PARSER_RC pluginsd_chart_definition_end(char **words, size_t num_words, PARSER *parser) { const char *first_entry_txt = get_word(words, num_words, 1); const char *last_entry_txt = get_word(words, num_words, 2); const char *wall_clock_time_txt = get_word(words, num_words, 3); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_CHART_DEFINITION_END); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_CHART_DEFINITION_END, PLUGINSD_KEYWORD_CHART); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); time_t first_entry_child = (first_entry_txt && *first_entry_txt) ? (time_t)str2ul(first_entry_txt) : 0; time_t last_entry_child = (last_entry_txt && *last_entry_txt) ? (time_t)str2ul(last_entry_txt) : 0; time_t child_wall_clock_time = (wall_clock_time_txt && *wall_clock_time_txt) ? (time_t)str2ul(wall_clock_time_txt) : now_realtime_sec(); bool ok = true; if(!rrdset_flag_check(st, RRDSET_FLAG_RECEIVER_REPLICATION_IN_PROGRESS)) { #ifdef NETDATA_LOG_REPLICATION_REQUESTS st->replay.start_streaming = false; st->replay.after = 0; st->replay.before = 0; #endif rrdset_flag_set(st, RRDSET_FLAG_RECEIVER_REPLICATION_IN_PROGRESS); rrdset_flag_clear(st, RRDSET_FLAG_RECEIVER_REPLICATION_FINISHED); rrdhost_receiver_replicating_charts_plus_one(st->rrdhost); ok = replicate_chart_request(send_to_plugin, parser, host, st, first_entry_child, last_entry_child, child_wall_clock_time, 0, 0); } #ifdef NETDATA_LOG_REPLICATION_REQUESTS else { internal_error(true, "REPLAY: 'host:%s/chart:%s' not sending duplicate replication request", rrdhost_hostname(st->rrdhost), rrdset_id(st)); } #endif return ok ? PARSER_RC_OK : PARSER_RC_ERROR; } static inline PARSER_RC pluginsd_dimension(char **words, size_t num_words, PARSER *parser) { char *id = get_word(words, num_words, 1); char *name = get_word(words, num_words, 2); char *algorithm = get_word(words, num_words, 3); char *multiplier_s = get_word(words, num_words, 4); char *divisor_s = get_word(words, num_words, 5); char *options = get_word(words, num_words, 6); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_DIMENSION); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_DIMENSION, PLUGINSD_KEYWORD_CHART); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); if (unlikely(!id)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_DIMENSION, "missing dimension id"); long multiplier = 1; if (multiplier_s && *multiplier_s) { multiplier = str2ll_encoded(multiplier_s); if (unlikely(!multiplier)) multiplier = 1; } long divisor = 1; if (likely(divisor_s && *divisor_s)) { divisor = str2ll_encoded(divisor_s); if (unlikely(!divisor)) divisor = 1; } if (unlikely(!algorithm || !*algorithm)) algorithm = "absolute"; if (unlikely(st && rrdset_flag_check(st, RRDSET_FLAG_DEBUG))) netdata_log_debug( D_PLUGINSD, "creating dimension in chart %s, id='%s', name='%s', algorithm='%s', multiplier=%ld, divisor=%ld, hidden='%s'", rrdset_id(st), id, name ? name : "", rrd_algorithm_name(rrd_algorithm_id(algorithm)), multiplier, divisor, options ? options : ""); RRDDIM *rd = rrddim_add(st, id, name, multiplier, divisor, rrd_algorithm_id(algorithm)); int unhide_dimension = 1; rrddim_option_clear(rd, RRDDIM_OPTION_DONT_DETECT_RESETS_OR_OVERFLOWS); if (options && *options) { if (strstr(options, "obsolete") != NULL) rrddim_is_obsolete(st, rd); else rrddim_isnot_obsolete(st, rd); unhide_dimension = !strstr(options, "hidden"); if (strstr(options, "noreset") != NULL) rrddim_option_set(rd, RRDDIM_OPTION_DONT_DETECT_RESETS_OR_OVERFLOWS); if (strstr(options, "nooverflow") != NULL) rrddim_option_set(rd, RRDDIM_OPTION_DONT_DETECT_RESETS_OR_OVERFLOWS); } else rrddim_isnot_obsolete(st, rd); bool should_update_dimension = false; if (likely(unhide_dimension)) { rrddim_option_clear(rd, RRDDIM_OPTION_HIDDEN); should_update_dimension = rrddim_flag_check(rd, RRDDIM_FLAG_META_HIDDEN); } else { rrddim_option_set(rd, RRDDIM_OPTION_HIDDEN); should_update_dimension = !rrddim_flag_check(rd, RRDDIM_FLAG_META_HIDDEN); } if (should_update_dimension) { rrddim_flag_set(rd, RRDDIM_FLAG_METADATA_UPDATE); rrdhost_flag_set(rd->rrdset->rrdhost, RRDHOST_FLAG_METADATA_UPDATE); } return PARSER_RC_OK; } // ---------------------------------------------------------------------------- // execution of functions struct inflight_function { int code; int timeout; BUFFER *destination_wb; STRING *function; void (*callback)(BUFFER *wb, int code, void *callback_data); void *callback_data; usec_t timeout_ut; usec_t started_ut; usec_t sent_ut; const char *payload; }; static void inflight_functions_insert_callback(const DICTIONARY_ITEM *item, void *func, void *parser_ptr) { struct inflight_function *pf = func; PARSER *parser = parser_ptr; // leave this code as default, so that when the dictionary is destroyed this will be sent back to the caller pf->code = HTTP_RESP_GATEWAY_TIMEOUT; char buffer[2048 + 1]; snprintfz(buffer, 2048, "%s %s %d \"%s\"\n", pf->payload ? "FUNCTION_PAYLOAD" : "FUNCTION", dictionary_acquired_item_name(item), pf->timeout, string2str(pf->function)); // send the command to the plugin int ret = send_to_plugin(buffer, parser); pf->sent_ut = now_realtime_usec(); if(ret < 0) { netdata_log_error("FUNCTION: failed to send function to plugin, error %d", ret); rrd_call_function_error(pf->destination_wb, "Failed to communicate with collector", HTTP_RESP_BACKEND_FETCH_FAILED); } else { internal_error(LOG_FUNCTIONS, "FUNCTION '%s' with transaction '%s' sent to collector (%d bytes, in %llu usec)", string2str(pf->function), dictionary_acquired_item_name(item), ret, pf->sent_ut - pf->started_ut); } if (!pf->payload) return; // send the payload to the plugin ret = send_to_plugin(pf->payload, parser); if(ret < 0) { netdata_log_error("FUNCTION_PAYLOAD: failed to send function to plugin, error %d", ret); rrd_call_function_error(pf->destination_wb, "Failed to communicate with collector", HTTP_RESP_BACKEND_FETCH_FAILED); } else { internal_error(LOG_FUNCTIONS, "FUNCTION_PAYLOAD '%s' with transaction '%s' sent to collector (%d bytes, in %llu usec)", string2str(pf->function), dictionary_acquired_item_name(item), ret, pf->sent_ut - pf->started_ut); } send_to_plugin("\nFUNCTION_PAYLOAD_END\n", parser); } static bool inflight_functions_conflict_callback(const DICTIONARY_ITEM *item __maybe_unused, void *func __maybe_unused, void *new_func, void *parser_ptr __maybe_unused) { struct inflight_function *pf = new_func; netdata_log_error("PLUGINSD_PARSER: duplicate UUID on pending function '%s' detected. Ignoring the second one.", string2str(pf->function)); pf->code = rrd_call_function_error(pf->destination_wb, "This request is already in progress", HTTP_RESP_BAD_REQUEST); pf->callback(pf->destination_wb, pf->code, pf->callback_data); string_freez(pf->function); return false; } static void inflight_functions_delete_callback(const DICTIONARY_ITEM *item __maybe_unused, void *func, void *parser_ptr __maybe_unused) { struct inflight_function *pf = func; internal_error(LOG_FUNCTIONS, "FUNCTION '%s' result of transaction '%s' received from collector (%zu bytes, request %llu usec, response %llu usec)", string2str(pf->function), dictionary_acquired_item_name(item), buffer_strlen(pf->destination_wb), pf->sent_ut - pf->started_ut, now_realtime_usec() - pf->sent_ut); pf->callback(pf->destination_wb, pf->code, pf->callback_data); string_freez(pf->function); } void inflight_functions_init(PARSER *parser) { parser->inflight.functions = dictionary_create_advanced(DICT_OPTION_DONT_OVERWRITE_VALUE, &dictionary_stats_category_functions, 0); dictionary_register_insert_callback(parser->inflight.functions, inflight_functions_insert_callback, parser); dictionary_register_delete_callback(parser->inflight.functions, inflight_functions_delete_callback, parser); dictionary_register_conflict_callback(parser->inflight.functions, inflight_functions_conflict_callback, parser); } static void inflight_functions_garbage_collect(PARSER *parser, usec_t now) { parser->inflight.smaller_timeout = 0; struct inflight_function *pf; dfe_start_write(parser->inflight.functions, pf) { if (pf->timeout_ut < now) { internal_error(true, "FUNCTION '%s' removing expired transaction '%s', after %llu usec.", string2str(pf->function), pf_dfe.name, now - pf->started_ut); if(!buffer_strlen(pf->destination_wb) || pf->code == HTTP_RESP_OK) pf->code = rrd_call_function_error(pf->destination_wb, "Timeout waiting for collector response.", HTTP_RESP_GATEWAY_TIMEOUT); dictionary_del(parser->inflight.functions, pf_dfe.name); } else if(!parser->inflight.smaller_timeout || pf->timeout_ut < parser->inflight.smaller_timeout) parser->inflight.smaller_timeout = pf->timeout_ut; } dfe_done(pf); } // this is the function that is called from // rrd_call_function_and_wait() and rrd_call_function_async() static int pluginsd_execute_function_callback(BUFFER *destination_wb, int timeout, const char *function, void *collector_data, void (*callback)(BUFFER *wb, int code, void *callback_data), void *callback_data) { PARSER *parser = collector_data; usec_t now = now_realtime_usec(); struct inflight_function tmp = { .started_ut = now, .timeout_ut = now + timeout * USEC_PER_SEC, .destination_wb = destination_wb, .timeout = timeout, .function = string_strdupz(function), .callback = callback, .callback_data = callback_data, .payload = NULL }; uuid_t uuid; uuid_generate_time(uuid); char key[UUID_STR_LEN]; uuid_unparse_lower(uuid, key); dictionary_write_lock(parser->inflight.functions); // if there is any error, our dictionary callbacks will call the caller callback to notify // the caller about the error - no need for error handling here. dictionary_set(parser->inflight.functions, key, &tmp, sizeof(struct inflight_function)); if(!parser->inflight.smaller_timeout || tmp.timeout_ut < parser->inflight.smaller_timeout) parser->inflight.smaller_timeout = tmp.timeout_ut; // garbage collect stale inflight functions if(parser->inflight.smaller_timeout < now) inflight_functions_garbage_collect(parser, now); dictionary_write_unlock(parser->inflight.functions); return HTTP_RESP_OK; } static inline PARSER_RC pluginsd_function(char **words, size_t num_words, PARSER *parser) { bool global = false; size_t i = 1; if(num_words >= 2 && strcmp(get_word(words, num_words, 1), "GLOBAL") == 0) { i++; global = true; } char *name = get_word(words, num_words, i++); char *timeout_s = get_word(words, num_words, i++); char *help = get_word(words, num_words, i++); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_FUNCTION); if(!host) return PARSER_RC_ERROR; RRDSET *st = (global)?NULL:pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_FUNCTION, PLUGINSD_KEYWORD_CHART); if(!st) global = true; if (unlikely(!timeout_s || !name || !help || (!global && !st))) { netdata_log_error("PLUGINSD: 'host:%s/chart:%s' got a FUNCTION, without providing the required data (global = '%s', name = '%s', timeout = '%s', help = '%s'). Ignoring it.", rrdhost_hostname(host), st?rrdset_id(st):"(unset)", global?"yes":"no", name?name:"(unset)", timeout_s?timeout_s:"(unset)", help?help:"(unset)" ); return PARSER_RC_ERROR; } int timeout = PLUGINS_FUNCTIONS_TIMEOUT_DEFAULT; if (timeout_s && *timeout_s) { timeout = str2i(timeout_s); if (unlikely(timeout <= 0)) timeout = PLUGINS_FUNCTIONS_TIMEOUT_DEFAULT; } rrd_collector_add_function(host, st, name, timeout, help, false, pluginsd_execute_function_callback, parser); parser->user.data_collections_count++; return PARSER_RC_OK; } static void pluginsd_function_result_end(struct parser *parser, void *action_data) { STRING *key = action_data; if(key) dictionary_del(parser->inflight.functions, string2str(key)); string_freez(key); parser->user.data_collections_count++; } static inline PARSER_RC pluginsd_function_result_begin(char **words, size_t num_words, PARSER *parser) { char *key = get_word(words, num_words, 1); char *status = get_word(words, num_words, 2); char *format = get_word(words, num_words, 3); char *expires = get_word(words, num_words, 4); if (unlikely(!key || !*key || !status || !*status || !format || !*format || !expires || !*expires)) { netdata_log_error("got a " PLUGINSD_KEYWORD_FUNCTION_RESULT_BEGIN " without providing the required data (key = '%s', status = '%s', format = '%s', expires = '%s')." , key ? key : "(unset)" , status ? status : "(unset)" , format ? format : "(unset)" , expires ? expires : "(unset)" ); } int code = (status && *status) ? str2i(status) : 0; if (code <= 0) code = HTTP_RESP_BACKEND_RESPONSE_INVALID; time_t expiration = (expires && *expires) ? str2l(expires) : 0; struct inflight_function *pf = NULL; if(key && *key) pf = (struct inflight_function *)dictionary_get(parser->inflight.functions, key); if(!pf) { netdata_log_error("got a " PLUGINSD_KEYWORD_FUNCTION_RESULT_BEGIN " for transaction '%s', but the transaction is not found.", key?key:"(unset)"); } else { if(format && *format) pf->destination_wb->content_type = functions_format_to_content_type(format); pf->code = code; pf->destination_wb->expires = expiration; if(expiration <= now_realtime_sec()) buffer_no_cacheable(pf->destination_wb); else buffer_cacheable(pf->destination_wb); } parser->defer.response = (pf) ? pf->destination_wb : NULL; parser->defer.end_keyword = PLUGINSD_KEYWORD_FUNCTION_RESULT_END; parser->defer.action = pluginsd_function_result_end; parser->defer.action_data = string_strdupz(key); // it is ok is key is NULL parser->flags |= PARSER_DEFER_UNTIL_KEYWORD; return PARSER_RC_OK; } // ---------------------------------------------------------------------------- static inline PARSER_RC pluginsd_variable(char **words, size_t num_words, PARSER *parser) { char *name = get_word(words, num_words, 1); char *value = get_word(words, num_words, 2); NETDATA_DOUBLE v; RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_VARIABLE); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_get_chart_from_parent(parser); int global = (st) ? 0 : 1; if (name && *name) { if ((strcmp(name, "GLOBAL") == 0 || strcmp(name, "HOST") == 0)) { global = 1; name = get_word(words, num_words, 2); value = get_word(words, num_words, 3); } else if ((strcmp(name, "LOCAL") == 0 || strcmp(name, "CHART") == 0)) { global = 0; name = get_word(words, num_words, 2); value = get_word(words, num_words, 3); } } if (unlikely(!name || !*name)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_VARIABLE, "missing variable name"); if (unlikely(!value || !*value)) value = NULL; if (unlikely(!value)) { netdata_log_error("PLUGINSD: 'host:%s/chart:%s' cannot set %s VARIABLE '%s' to an empty value", rrdhost_hostname(host), st ? rrdset_id(st):"UNSET", (global) ? "HOST" : "CHART", name); return PARSER_RC_OK; } if (!global && !st) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_VARIABLE, "no chart is defined and no GLOBAL is given"); char *endptr = NULL; v = (NETDATA_DOUBLE) str2ndd_encoded(value, &endptr); if (unlikely(endptr && *endptr)) { if (endptr == value) netdata_log_error("PLUGINSD: 'host:%s/chart:%s' the value '%s' of VARIABLE '%s' cannot be parsed as a number", rrdhost_hostname(host), st ? rrdset_id(st):"UNSET", value, name); else netdata_log_error("PLUGINSD: 'host:%s/chart:%s' the value '%s' of VARIABLE '%s' has leftovers: '%s'", rrdhost_hostname(host), st ? rrdset_id(st):"UNSET", value, name, endptr); } if (global) { const RRDVAR_ACQUIRED *rva = rrdvar_custom_host_variable_add_and_acquire(host, name); if (rva) { rrdvar_custom_host_variable_set(host, rva, v); rrdvar_custom_host_variable_release(host, rva); } else netdata_log_error("PLUGINSD: 'host:%s' cannot find/create HOST VARIABLE '%s'", rrdhost_hostname(host), name); } else { const RRDSETVAR_ACQUIRED *rsa = rrdsetvar_custom_chart_variable_add_and_acquire(st, name); if (rsa) { rrdsetvar_custom_chart_variable_set(st, rsa, v); rrdsetvar_custom_chart_variable_release(st, rsa); } else netdata_log_error("PLUGINSD: 'host:%s/chart:%s' cannot find/create CHART VARIABLE '%s'", rrdhost_hostname(host), rrdset_id(st), name); } return PARSER_RC_OK; } static inline PARSER_RC pluginsd_flush(char **words __maybe_unused, size_t num_words __maybe_unused, PARSER *parser) { netdata_log_debug(D_PLUGINSD, "requested a " PLUGINSD_KEYWORD_FLUSH); pluginsd_set_chart_from_parent(parser, NULL, PLUGINSD_KEYWORD_FLUSH); parser->user.replay.start_time = 0; parser->user.replay.end_time = 0; parser->user.replay.start_time_ut = 0; parser->user.replay.end_time_ut = 0; return PARSER_RC_OK; } static inline PARSER_RC pluginsd_disable(char **words __maybe_unused, size_t num_words __maybe_unused, PARSER *parser) { netdata_log_info("PLUGINSD: plugin called DISABLE. Disabling it."); parser->user.enabled = 0; return PARSER_RC_STOP; } static inline PARSER_RC pluginsd_label(char **words, size_t num_words, PARSER *parser) { const char *name = get_word(words, num_words, 1); const char *label_source = get_word(words, num_words, 2); const char *value = get_word(words, num_words, 3); if (!name || !label_source || !value) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_LABEL, "missing parameters"); char *store = (char *)value; bool allocated_store = false; if(unlikely(num_words > 4)) { allocated_store = true; store = mallocz(PLUGINSD_LINE_MAX + 1); size_t remaining = PLUGINSD_LINE_MAX; char *move = store; char *word; for(size_t i = 3; i < num_words && remaining > 2 && (word = get_word(words, num_words, i)) ;i++) { if(i > 3) { *move++ = ' '; *move = '\0'; remaining--; } size_t length = strlen(word); if (length > remaining) length = remaining; remaining -= length; memcpy(move, word, length); move += length; *move = '\0'; } } if(unlikely(!(parser->user.new_host_labels))) parser->user.new_host_labels = rrdlabels_create(); rrdlabels_add(parser->user.new_host_labels, name, store, str2l(label_source)); if (allocated_store) freez(store); return PARSER_RC_OK; } static inline PARSER_RC pluginsd_overwrite(char **words __maybe_unused, size_t num_words __maybe_unused, PARSER *parser) { RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_OVERWRITE); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); netdata_log_debug(D_PLUGINSD, "requested to OVERWRITE host labels"); if(unlikely(!host->rrdlabels)) host->rrdlabels = rrdlabels_create(); rrdlabels_migrate_to_these(host->rrdlabels, parser->user.new_host_labels); rrdhost_flag_set(host, RRDHOST_FLAG_METADATA_LABELS | RRDHOST_FLAG_METADATA_UPDATE); rrdlabels_destroy(parser->user.new_host_labels); parser->user.new_host_labels = NULL; return PARSER_RC_OK; } static inline PARSER_RC pluginsd_clabel(char **words, size_t num_words, PARSER *parser) { const char *name = get_word(words, num_words, 1); const char *value = get_word(words, num_words, 2); const char *label_source = get_word(words, num_words, 3); if (!name || !value || !*label_source) { netdata_log_error("Ignoring malformed or empty CHART LABEL command."); return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); } if(unlikely(!parser->user.chart_rrdlabels_linked_temporarily)) { RRDSET *st = pluginsd_get_chart_from_parent(parser); parser->user.chart_rrdlabels_linked_temporarily = st->rrdlabels; rrdlabels_unmark_all(parser->user.chart_rrdlabels_linked_temporarily); } rrdlabels_add(parser->user.chart_rrdlabels_linked_temporarily, name, value, str2l(label_source)); return PARSER_RC_OK; } static inline PARSER_RC pluginsd_clabel_commit(char **words __maybe_unused, size_t num_words __maybe_unused, PARSER *parser) { RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_CLABEL_COMMIT); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_CLABEL_COMMIT, PLUGINSD_KEYWORD_BEGIN); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); netdata_log_debug(D_PLUGINSD, "requested to commit chart labels"); if(!parser->user.chart_rrdlabels_linked_temporarily) { netdata_log_error("PLUGINSD: 'host:%s' got CLABEL_COMMIT, without a CHART or BEGIN. Ignoring it.", rrdhost_hostname(host)); return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); } rrdlabels_remove_all_unmarked(parser->user.chart_rrdlabels_linked_temporarily); rrdset_flag_set(st, RRDSET_FLAG_METADATA_UPDATE); rrdhost_flag_set(st->rrdhost, RRDHOST_FLAG_METADATA_UPDATE); parser->user.chart_rrdlabels_linked_temporarily = NULL; return PARSER_RC_OK; } static inline PARSER_RC pluginsd_replay_begin(char **words, size_t num_words, PARSER *parser) { char *id = get_word(words, num_words, 1); char *start_time_str = get_word(words, num_words, 2); char *end_time_str = get_word(words, num_words, 3); char *child_now_str = get_word(words, num_words, 4); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_REPLAY_BEGIN); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st; if (likely(!id || !*id)) st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_REPLAY_BEGIN, PLUGINSD_KEYWORD_REPLAY_BEGIN); else st = pluginsd_find_chart(host, id, PLUGINSD_KEYWORD_REPLAY_BEGIN); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); pluginsd_set_chart_from_parent(parser, st, PLUGINSD_KEYWORD_REPLAY_BEGIN); if(start_time_str && end_time_str) { time_t start_time = (time_t) str2ull_encoded(start_time_str); time_t end_time = (time_t) str2ull_encoded(end_time_str); time_t wall_clock_time = 0, tolerance; bool wall_clock_comes_from_child; (void)wall_clock_comes_from_child; if(child_now_str) { wall_clock_time = (time_t) str2ull_encoded(child_now_str); tolerance = st->update_every + 1; wall_clock_comes_from_child = true; } if(wall_clock_time <= 0) { wall_clock_time = now_realtime_sec(); tolerance = st->update_every + 5; wall_clock_comes_from_child = false; } #ifdef NETDATA_LOG_REPLICATION_REQUESTS internal_error( (!st->replay.start_streaming && (end_time < st->replay.after || start_time > st->replay.before)), "REPLAY ERROR: 'host:%s/chart:%s' got a " PLUGINSD_KEYWORD_REPLAY_BEGIN " from %ld to %ld, which does not match our request (%ld to %ld).", rrdhost_hostname(st->rrdhost), rrdset_id(st), start_time, end_time, st->replay.after, st->replay.before); internal_error( true, "REPLAY: 'host:%s/chart:%s' got a " PLUGINSD_KEYWORD_REPLAY_BEGIN " from %ld to %ld, child wall clock is %ld (%s), had requested %ld to %ld", rrdhost_hostname(st->rrdhost), rrdset_id(st), start_time, end_time, wall_clock_time, wall_clock_comes_from_child ? "from child" : "parent time", st->replay.after, st->replay.before); #endif if(start_time && end_time && start_time < wall_clock_time + tolerance && end_time < wall_clock_time + tolerance && start_time < end_time) { if (unlikely(end_time - start_time != st->update_every)) rrdset_set_update_every_s(st, end_time - start_time); st->last_collected_time.tv_sec = end_time; st->last_collected_time.tv_usec = 0; st->last_updated.tv_sec = end_time; st->last_updated.tv_usec = 0; st->counter++; st->counter_done++; // these are only needed for db mode RAM, SAVE, MAP, ALLOC st->db.current_entry++; if(st->db.current_entry >= st->db.entries) st->db.current_entry -= st->db.entries; parser->user.replay.start_time = start_time; parser->user.replay.end_time = end_time; parser->user.replay.start_time_ut = (usec_t) start_time * USEC_PER_SEC; parser->user.replay.end_time_ut = (usec_t) end_time * USEC_PER_SEC; parser->user.replay.wall_clock_time = wall_clock_time; parser->user.replay.rset_enabled = true; return PARSER_RC_OK; } netdata_log_error("PLUGINSD REPLAY ERROR: 'host:%s/chart:%s' got a " PLUGINSD_KEYWORD_REPLAY_BEGIN " from %ld to %ld, but timestamps are invalid " "(now is %ld [%s], tolerance %ld). Ignoring " PLUGINSD_KEYWORD_REPLAY_SET, rrdhost_hostname(st->rrdhost), rrdset_id(st), start_time, end_time, wall_clock_time, wall_clock_comes_from_child ? "child wall clock" : "parent wall clock", tolerance); } // the child sends an RBEGIN without any parameters initially // setting rset_enabled to false, means the RSET should not store any metrics // to store metrics, the RBEGIN needs to have timestamps parser->user.replay.start_time = 0; parser->user.replay.end_time = 0; parser->user.replay.start_time_ut = 0; parser->user.replay.end_time_ut = 0; parser->user.replay.wall_clock_time = 0; parser->user.replay.rset_enabled = false; return PARSER_RC_OK; } static inline SN_FLAGS pluginsd_parse_storage_number_flags(const char *flags_str) { SN_FLAGS flags = SN_FLAG_NONE; char c; while ((c = *flags_str++)) { switch (c) { case 'A': flags |= SN_FLAG_NOT_ANOMALOUS; break; case 'R': flags |= SN_FLAG_RESET; break; case 'E': flags = SN_EMPTY_SLOT; return flags; default: internal_error(true, "Unknown SN_FLAGS flag '%c'", c); break; } } return flags; } static inline PARSER_RC pluginsd_replay_set(char **words, size_t num_words, PARSER *parser) { char *dimension = get_word(words, num_words, 1); char *value_str = get_word(words, num_words, 2); char *flags_str = get_word(words, num_words, 3); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_REPLAY_SET); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_REPLAY_SET, PLUGINSD_KEYWORD_REPLAY_BEGIN); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); if(!parser->user.replay.rset_enabled) { error_limit_static_thread_var(erl, 1, 0); error_limit(&erl, "PLUGINSD: 'host:%s/chart:%s' got a %s but it is disabled by %s errors", rrdhost_hostname(host), rrdset_id(st), PLUGINSD_KEYWORD_REPLAY_SET, PLUGINSD_KEYWORD_REPLAY_BEGIN); // we have to return OK here return PARSER_RC_OK; } RRDDIM *rd = pluginsd_acquire_dimension(host, st, dimension, PLUGINSD_KEYWORD_REPLAY_SET); if(!rd) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); if (unlikely(!parser->user.replay.start_time || !parser->user.replay.end_time)) { netdata_log_error("PLUGINSD: 'host:%s/chart:%s/dim:%s' got a %s with invalid timestamps %ld to %ld from a %s. Disabling it.", rrdhost_hostname(host), rrdset_id(st), dimension, PLUGINSD_KEYWORD_REPLAY_SET, parser->user.replay.start_time, parser->user.replay.end_time, PLUGINSD_KEYWORD_REPLAY_BEGIN); return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); } if (unlikely(!value_str || !*value_str)) value_str = "NAN"; if(unlikely(!flags_str)) flags_str = ""; if (likely(value_str)) { RRDDIM_FLAGS rd_flags = rrddim_flag_check(rd, RRDDIM_FLAG_OBSOLETE | RRDDIM_FLAG_ARCHIVED); if(!(rd_flags & RRDDIM_FLAG_ARCHIVED)) { NETDATA_DOUBLE value = str2ndd_encoded(value_str, NULL); SN_FLAGS flags = pluginsd_parse_storage_number_flags(flags_str); if (!netdata_double_isnumber(value) || (flags == SN_EMPTY_SLOT)) { value = NAN; flags = SN_EMPTY_SLOT; } rrddim_store_metric(rd, parser->user.replay.end_time_ut, value, flags); rd->collector.last_collected_time.tv_sec = parser->user.replay.end_time; rd->collector.last_collected_time.tv_usec = 0; rd->collector.counter++; } else { error_limit_static_global_var(erl, 1, 0); error_limit(&erl, "PLUGINSD: 'host:%s/chart:%s/dim:%s' has the ARCHIVED flag set, but it is replicated. Ignoring data.", rrdhost_hostname(st->rrdhost), rrdset_id(st), rrddim_name(rd)); } } return PARSER_RC_OK; } static inline PARSER_RC pluginsd_replay_rrddim_collection_state(char **words, size_t num_words, PARSER *parser) { if(parser->user.replay.rset_enabled == false) return PARSER_RC_OK; char *dimension = get_word(words, num_words, 1); char *last_collected_ut_str = get_word(words, num_words, 2); char *last_collected_value_str = get_word(words, num_words, 3); char *last_calculated_value_str = get_word(words, num_words, 4); char *last_stored_value_str = get_word(words, num_words, 5); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_REPLAY_RRDDIM_STATE); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_REPLAY_RRDDIM_STATE, PLUGINSD_KEYWORD_REPLAY_BEGIN); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDDIM *rd = pluginsd_acquire_dimension(host, st, dimension, PLUGINSD_KEYWORD_REPLAY_RRDDIM_STATE); if(!rd) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); usec_t dim_last_collected_ut = (usec_t)rd->collector.last_collected_time.tv_sec * USEC_PER_SEC + (usec_t)rd->collector.last_collected_time.tv_usec; usec_t last_collected_ut = last_collected_ut_str ? str2ull_encoded(last_collected_ut_str) : 0; if(last_collected_ut > dim_last_collected_ut) { rd->collector.last_collected_time.tv_sec = (time_t)(last_collected_ut / USEC_PER_SEC); rd->collector.last_collected_time.tv_usec = (last_collected_ut % USEC_PER_SEC); } rd->collector.last_collected_value = last_collected_value_str ? str2ll_encoded(last_collected_value_str) : 0; rd->collector.last_calculated_value = last_calculated_value_str ? str2ndd_encoded(last_calculated_value_str, NULL) : 0; rd->collector.last_stored_value = last_stored_value_str ? str2ndd_encoded(last_stored_value_str, NULL) : 0.0; return PARSER_RC_OK; } static inline PARSER_RC pluginsd_replay_rrdset_collection_state(char **words, size_t num_words, PARSER *parser) { if(parser->user.replay.rset_enabled == false) return PARSER_RC_OK; char *last_collected_ut_str = get_word(words, num_words, 1); char *last_updated_ut_str = get_word(words, num_words, 2); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_REPLAY_RRDSET_STATE); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_REPLAY_RRDSET_STATE, PLUGINSD_KEYWORD_REPLAY_BEGIN); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); usec_t chart_last_collected_ut = (usec_t)st->last_collected_time.tv_sec * USEC_PER_SEC + (usec_t)st->last_collected_time.tv_usec; usec_t last_collected_ut = last_collected_ut_str ? str2ull_encoded(last_collected_ut_str) : 0; if(last_collected_ut > chart_last_collected_ut) { st->last_collected_time.tv_sec = (time_t)(last_collected_ut / USEC_PER_SEC); st->last_collected_time.tv_usec = (last_collected_ut % USEC_PER_SEC); } usec_t chart_last_updated_ut = (usec_t)st->last_updated.tv_sec * USEC_PER_SEC + (usec_t)st->last_updated.tv_usec; usec_t last_updated_ut = last_updated_ut_str ? str2ull_encoded(last_updated_ut_str) : 0; if(last_updated_ut > chart_last_updated_ut) { st->last_updated.tv_sec = (time_t)(last_updated_ut / USEC_PER_SEC); st->last_updated.tv_usec = (last_updated_ut % USEC_PER_SEC); } st->counter++; st->counter_done++; return PARSER_RC_OK; } static inline PARSER_RC pluginsd_replay_end(char **words, size_t num_words, PARSER *parser) { if (num_words < 7) { // accepts 7, but the 7th is optional netdata_log_error("REPLAY: malformed " PLUGINSD_KEYWORD_REPLAY_END " command"); return PARSER_RC_ERROR; } const char *update_every_child_txt = get_word(words, num_words, 1); const char *first_entry_child_txt = get_word(words, num_words, 2); const char *last_entry_child_txt = get_word(words, num_words, 3); const char *start_streaming_txt = get_word(words, num_words, 4); const char *first_entry_requested_txt = get_word(words, num_words, 5); const char *last_entry_requested_txt = get_word(words, num_words, 6); const char *child_world_time_txt = get_word(words, num_words, 7); // optional time_t update_every_child = (time_t) str2ull_encoded(update_every_child_txt); time_t first_entry_child = (time_t) str2ull_encoded(first_entry_child_txt); time_t last_entry_child = (time_t) str2ull_encoded(last_entry_child_txt); bool start_streaming = (strcmp(start_streaming_txt, "true") == 0); time_t first_entry_requested = (time_t) str2ull_encoded(first_entry_requested_txt); time_t last_entry_requested = (time_t) str2ull_encoded(last_entry_requested_txt); // the optional child world time time_t child_world_time = (child_world_time_txt && *child_world_time_txt) ? (time_t) str2ull_encoded( child_world_time_txt) : now_realtime_sec(); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_REPLAY_END); if(!host) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_REPLAY_END, PLUGINSD_KEYWORD_REPLAY_BEGIN); if(!st) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); #ifdef NETDATA_LOG_REPLICATION_REQUESTS internal_error(true, "PLUGINSD REPLAY: 'host:%s/chart:%s': got a " PLUGINSD_KEYWORD_REPLAY_END " child db from %llu to %llu, start_streaming %s, had requested from %llu to %llu, wall clock %llu", rrdhost_hostname(host), rrdset_id(st), (unsigned long long)first_entry_child, (unsigned long long)last_entry_child, start_streaming?"true":"false", (unsigned long long)first_entry_requested, (unsigned long long)last_entry_requested, (unsigned long long)child_world_time ); #endif parser->user.data_collections_count++; if(parser->user.replay.rset_enabled && st->rrdhost->receiver) { time_t now = now_realtime_sec(); time_t started = st->rrdhost->receiver->replication_first_time_t; time_t current = parser->user.replay.end_time; if(started && current > started) { host->rrdpush_receiver_replication_percent = (NETDATA_DOUBLE) (current - started) * 100.0 / (NETDATA_DOUBLE) (now - started); worker_set_metric(WORKER_RECEIVER_JOB_REPLICATION_COMPLETION, host->rrdpush_receiver_replication_percent); } } parser->user.replay.start_time = 0; parser->user.replay.end_time = 0; parser->user.replay.start_time_ut = 0; parser->user.replay.end_time_ut = 0; parser->user.replay.wall_clock_time = 0; parser->user.replay.rset_enabled = false; st->counter++; st->counter_done++; store_metric_collection_completed(); #ifdef NETDATA_LOG_REPLICATION_REQUESTS st->replay.start_streaming = false; st->replay.after = 0; st->replay.before = 0; if(start_streaming) st->replay.log_next_data_collection = true; #endif if (start_streaming) { if (st->update_every != update_every_child) rrdset_set_update_every_s(st, update_every_child); if(rrdset_flag_check(st, RRDSET_FLAG_RECEIVER_REPLICATION_IN_PROGRESS)) { rrdset_flag_set(st, RRDSET_FLAG_RECEIVER_REPLICATION_FINISHED); rrdset_flag_clear(st, RRDSET_FLAG_RECEIVER_REPLICATION_IN_PROGRESS); rrdset_flag_clear(st, RRDSET_FLAG_SYNC_CLOCK); rrdhost_receiver_replicating_charts_minus_one(st->rrdhost); } #ifdef NETDATA_LOG_REPLICATION_REQUESTS else internal_error(true, "REPLAY ERROR: 'host:%s/chart:%s' got a " PLUGINSD_KEYWORD_REPLAY_END " with enable_streaming = true, but there is no replication in progress for this chart.", rrdhost_hostname(host), rrdset_id(st)); #endif pluginsd_set_chart_from_parent(parser, NULL, PLUGINSD_KEYWORD_REPLAY_END); host->rrdpush_receiver_replication_percent = 100.0; worker_set_metric(WORKER_RECEIVER_JOB_REPLICATION_COMPLETION, host->rrdpush_receiver_replication_percent); return PARSER_RC_OK; } pluginsd_set_chart_from_parent(parser, NULL, PLUGINSD_KEYWORD_REPLAY_END); rrdcontext_updated_retention_rrdset(st); bool ok = replicate_chart_request(send_to_plugin, parser, host, st, first_entry_child, last_entry_child, child_world_time, first_entry_requested, last_entry_requested); return ok ? PARSER_RC_OK : PARSER_RC_ERROR; } static inline PARSER_RC pluginsd_begin_v2(char **words, size_t num_words, PARSER *parser) { timing_init(); char *id = get_word(words, num_words, 1); char *update_every_str = get_word(words, num_words, 2); char *end_time_str = get_word(words, num_words, 3); char *wall_clock_time_str = get_word(words, num_words, 4); if(unlikely(!id || !update_every_str || !end_time_str || !wall_clock_time_str)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_BEGIN_V2, "missing parameters"); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_BEGIN_V2); if(unlikely(!host)) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); timing_step(TIMING_STEP_BEGIN2_PREPARE); RRDSET *st = pluginsd_find_chart(host, id, PLUGINSD_KEYWORD_BEGIN_V2); if(unlikely(!st)) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); pluginsd_set_chart_from_parent(parser, st, PLUGINSD_KEYWORD_BEGIN_V2); if(unlikely(rrdset_flag_check(st, RRDSET_FLAG_OBSOLETE | RRDSET_FLAG_ARCHIVED))) rrdset_isnot_obsolete(st); timing_step(TIMING_STEP_BEGIN2_FIND_CHART); // ------------------------------------------------------------------------ // parse the parameters time_t update_every = (time_t) str2ull_encoded(update_every_str); time_t end_time = (time_t) str2ull_encoded(end_time_str); time_t wall_clock_time; if(likely(*wall_clock_time_str == '#')) wall_clock_time = end_time; else wall_clock_time = (time_t) str2ull_encoded(wall_clock_time_str); if (unlikely(update_every != st->update_every)) rrdset_set_update_every_s(st, update_every); timing_step(TIMING_STEP_BEGIN2_PARSE); // ------------------------------------------------------------------------ // prepare our state pluginsd_lock_rrdset_data_collection(parser); parser->user.v2.update_every = update_every; parser->user.v2.end_time = end_time; parser->user.v2.wall_clock_time = wall_clock_time; parser->user.v2.ml_locked = ml_chart_update_begin(st); timing_step(TIMING_STEP_BEGIN2_ML); // ------------------------------------------------------------------------ // propagate it forward in v2 if(!parser->user.v2.stream_buffer.wb && rrdhost_has_rrdpush_sender_enabled(st->rrdhost)) parser->user.v2.stream_buffer = rrdset_push_metric_initialize(parser->user.st, wall_clock_time); if(parser->user.v2.stream_buffer.v2 && parser->user.v2.stream_buffer.wb) { // check if receiver and sender have the same number parsing capabilities bool can_copy = stream_has_capability(&parser->user, STREAM_CAP_IEEE754) == stream_has_capability(&parser->user.v2.stream_buffer, STREAM_CAP_IEEE754); NUMBER_ENCODING encoding = stream_has_capability(&parser->user.v2.stream_buffer, STREAM_CAP_IEEE754) ? NUMBER_ENCODING_BASE64 : NUMBER_ENCODING_HEX; BUFFER *wb = parser->user.v2.stream_buffer.wb; buffer_need_bytes(wb, 1024); if(unlikely(parser->user.v2.stream_buffer.begin_v2_added)) buffer_fast_strcat(wb, PLUGINSD_KEYWORD_END_V2 "\n", sizeof(PLUGINSD_KEYWORD_END_V2) - 1 + 1); buffer_fast_strcat(wb, PLUGINSD_KEYWORD_BEGIN_V2 " '", sizeof(PLUGINSD_KEYWORD_BEGIN_V2) - 1 + 2); buffer_fast_strcat(wb, rrdset_id(st), string_strlen(st->id)); buffer_fast_strcat(wb, "' ", 2); if(can_copy) buffer_strcat(wb, update_every_str); else buffer_print_uint64_encoded(wb, encoding, update_every); buffer_fast_strcat(wb, " ", 1); if(can_copy) buffer_strcat(wb, end_time_str); else buffer_print_uint64_encoded(wb, encoding, end_time); buffer_fast_strcat(wb, " ", 1); if(can_copy) buffer_strcat(wb, wall_clock_time_str); else buffer_print_uint64_encoded(wb, encoding, wall_clock_time); buffer_fast_strcat(wb, "\n", 1); parser->user.v2.stream_buffer.last_point_end_time_s = end_time; parser->user.v2.stream_buffer.begin_v2_added = true; } timing_step(TIMING_STEP_BEGIN2_PROPAGATE); // ------------------------------------------------------------------------ // store it st->last_collected_time.tv_sec = end_time; st->last_collected_time.tv_usec = 0; st->last_updated.tv_sec = end_time; st->last_updated.tv_usec = 0; st->counter++; st->counter_done++; // these are only needed for db mode RAM, SAVE, MAP, ALLOC st->db.current_entry++; if(st->db.current_entry >= st->db.entries) st->db.current_entry -= st->db.entries; timing_step(TIMING_STEP_BEGIN2_STORE); return PARSER_RC_OK; } static inline PARSER_RC pluginsd_set_v2(char **words, size_t num_words, PARSER *parser) { timing_init(); char *dimension = get_word(words, num_words, 1); char *collected_str = get_word(words, num_words, 2); char *value_str = get_word(words, num_words, 3); char *flags_str = get_word(words, num_words, 4); if(unlikely(!dimension || !collected_str || !value_str || !flags_str)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_SET_V2, "missing parameters"); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_SET_V2); if(unlikely(!host)) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_SET_V2, PLUGINSD_KEYWORD_BEGIN_V2); if(unlikely(!st)) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); timing_step(TIMING_STEP_SET2_PREPARE); RRDDIM *rd = pluginsd_acquire_dimension(host, st, dimension, PLUGINSD_KEYWORD_SET_V2); if(unlikely(!rd)) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); if(unlikely(rrddim_flag_check(rd, RRDDIM_FLAG_OBSOLETE | RRDDIM_FLAG_ARCHIVED))) rrddim_isnot_obsolete(st, rd); timing_step(TIMING_STEP_SET2_LOOKUP_DIMENSION); // ------------------------------------------------------------------------ // parse the parameters collected_number collected_value = (collected_number) str2ll_encoded(collected_str); NETDATA_DOUBLE value; if(*value_str == '#') value = (NETDATA_DOUBLE)collected_value; else value = str2ndd_encoded(value_str, NULL); SN_FLAGS flags = pluginsd_parse_storage_number_flags(flags_str); timing_step(TIMING_STEP_SET2_PARSE); // ------------------------------------------------------------------------ // check value and ML if (unlikely(!netdata_double_isnumber(value) || (flags == SN_EMPTY_SLOT))) { value = NAN; flags = SN_EMPTY_SLOT; if(parser->user.v2.ml_locked) ml_dimension_is_anomalous(rd, parser->user.v2.end_time, 0, false); } else if(parser->user.v2.ml_locked) { if (ml_dimension_is_anomalous(rd, parser->user.v2.end_time, value, true)) { // clear anomaly bit: 0 -> is anomalous, 1 -> not anomalous flags &= ~((storage_number) SN_FLAG_NOT_ANOMALOUS); } else flags |= SN_FLAG_NOT_ANOMALOUS; } timing_step(TIMING_STEP_SET2_ML); // ------------------------------------------------------------------------ // propagate it forward in v2 if(parser->user.v2.stream_buffer.v2 && parser->user.v2.stream_buffer.begin_v2_added && parser->user.v2.stream_buffer.wb) { // check if receiver and sender have the same number parsing capabilities bool can_copy = stream_has_capability(&parser->user, STREAM_CAP_IEEE754) == stream_has_capability(&parser->user.v2.stream_buffer, STREAM_CAP_IEEE754); NUMBER_ENCODING integer_encoding = stream_has_capability(&parser->user.v2.stream_buffer, STREAM_CAP_IEEE754) ? NUMBER_ENCODING_BASE64 : NUMBER_ENCODING_HEX; NUMBER_ENCODING doubles_encoding = stream_has_capability(&parser->user.v2.stream_buffer, STREAM_CAP_IEEE754) ? NUMBER_ENCODING_BASE64 : NUMBER_ENCODING_DECIMAL; BUFFER *wb = parser->user.v2.stream_buffer.wb; buffer_need_bytes(wb, 1024); buffer_fast_strcat(wb, PLUGINSD_KEYWORD_SET_V2 " '", sizeof(PLUGINSD_KEYWORD_SET_V2) - 1 + 2); buffer_fast_strcat(wb, rrddim_id(rd), string_strlen(rd->id)); buffer_fast_strcat(wb, "' ", 2); if(can_copy) buffer_strcat(wb, collected_str); else buffer_print_int64_encoded(wb, integer_encoding, collected_value); // original v2 had hex buffer_fast_strcat(wb, " ", 1); if(can_copy) buffer_strcat(wb, value_str); else buffer_print_netdata_double_encoded(wb, doubles_encoding, value); // original v2 had decimal buffer_fast_strcat(wb, " ", 1); buffer_print_sn_flags(wb, flags, true); buffer_fast_strcat(wb, "\n", 1); } timing_step(TIMING_STEP_SET2_PROPAGATE); // ------------------------------------------------------------------------ // store it rrddim_store_metric(rd, parser->user.v2.end_time * USEC_PER_SEC, value, flags); rd->collector.last_collected_time.tv_sec = parser->user.v2.end_time; rd->collector.last_collected_time.tv_usec = 0; rd->collector.last_collected_value = collected_value; rd->collector.last_stored_value = value; rd->collector.last_calculated_value = value; rd->collector.counter++; rrddim_set_updated(rd); timing_step(TIMING_STEP_SET2_STORE); return PARSER_RC_OK; } void pluginsd_cleanup_v2(PARSER *parser) { // this is called when the thread is stopped while processing pluginsd_set_chart_from_parent(parser, NULL, "THREAD CLEANUP"); } static inline PARSER_RC pluginsd_end_v2(char **words __maybe_unused, size_t num_words __maybe_unused, PARSER *parser) { timing_init(); RRDHOST *host = pluginsd_require_host_from_parent(parser, PLUGINSD_KEYWORD_END_V2); if(unlikely(!host)) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); RRDSET *st = pluginsd_require_chart_from_parent(parser, PLUGINSD_KEYWORD_END_V2, PLUGINSD_KEYWORD_BEGIN_V2); if(unlikely(!st)) return PLUGINSD_DISABLE_PLUGIN(parser, NULL, NULL); parser->user.data_collections_count++; timing_step(TIMING_STEP_END2_PREPARE); // ------------------------------------------------------------------------ // propagate the whole chart update in v1 if(unlikely(!parser->user.v2.stream_buffer.v2 && !parser->user.v2.stream_buffer.begin_v2_added && parser->user.v2.stream_buffer.wb)) rrdset_push_metrics_v1(&parser->user.v2.stream_buffer, st); timing_step(TIMING_STEP_END2_PUSH_V1); // ------------------------------------------------------------------------ // unblock data collection pluginsd_unlock_previous_chart(parser, PLUGINSD_KEYWORD_END_V2, false); rrdcontext_collected_rrdset(st); store_metric_collection_completed(); timing_step(TIMING_STEP_END2_RRDSET); // ------------------------------------------------------------------------ // propagate it forward rrdset_push_metrics_finished(&parser->user.v2.stream_buffer, st); timing_step(TIMING_STEP_END2_PROPAGATE); // ------------------------------------------------------------------------ // cleanup RRDSET / RRDDIM RRDDIM *rd; rrddim_foreach_read(rd, st) { rd->collector.calculated_value = 0; rd->collector.collected_value = 0; rrddim_clear_updated(rd); } rrddim_foreach_done(rd); // ------------------------------------------------------------------------ // reset state parser->user.v2 = (struct parser_user_object_v2){ 0 }; timing_step(TIMING_STEP_END2_STORE); timing_report(); return PARSER_RC_OK; } static inline PARSER_RC pluginsd_exit(char **words __maybe_unused, size_t num_words __maybe_unused, PARSER *parser __maybe_unused) { netdata_log_info("PLUGINSD: plugin called EXIT."); return PARSER_RC_STOP; } struct mutex_cond { pthread_mutex_t lock; pthread_cond_t cond; int rc; }; static void virt_fnc_got_data_cb(BUFFER *wb, int code, void *callback_data) { struct mutex_cond *ctx = callback_data; pthread_mutex_lock(&ctx->lock); ctx->rc = code; pthread_cond_broadcast(&ctx->cond); pthread_mutex_unlock(&ctx->lock); } #define VIRT_FNC_TIMEOUT 1 dyncfg_config_t call_virtual_function_blocking(PARSER *parser, const char *name, int *rc, const char *payload) { usec_t now = now_realtime_usec(); BUFFER *wb = buffer_create(4096, NULL); struct mutex_cond cond = { .lock = PTHREAD_MUTEX_INITIALIZER, .cond = PTHREAD_COND_INITIALIZER }; struct inflight_function tmp = { .started_ut = now, .timeout_ut = now + VIRT_FNC_TIMEOUT + USEC_PER_SEC, .destination_wb = wb, .timeout = VIRT_FNC_TIMEOUT, .function = string_strdupz(name), .callback = virt_fnc_got_data_cb, .callback_data = &cond, .payload = payload, }; uuid_t uuid; uuid_generate_time(uuid); char key[UUID_STR_LEN]; uuid_unparse_lower(uuid, key); dictionary_write_lock(parser->inflight.functions); // if there is any error, our dictionary callbacks will call the caller callback to notify // the caller about the error - no need for error handling here. dictionary_set(parser->inflight.functions, key, &tmp, sizeof(struct inflight_function)); if(!parser->inflight.smaller_timeout || tmp.timeout_ut < parser->inflight.smaller_timeout) parser->inflight.smaller_timeout = tmp.timeout_ut; // garbage collect stale inflight functions if(parser->inflight.smaller_timeout < now) inflight_functions_garbage_collect(parser, now); dictionary_write_unlock(parser->inflight.functions); struct timespec tp; clock_gettime(CLOCK_REALTIME, &tp); tp.tv_sec += (time_t)VIRT_FNC_TIMEOUT; pthread_mutex_lock(&cond.lock); int ret = pthread_cond_timedwait(&cond.cond, &cond.lock, &tp); if (ret == ETIMEDOUT) netdata_log_error("PLUGINSD: DYNCFG virtual function %s timed out", name); pthread_mutex_unlock(&cond.lock); dyncfg_config_t cfg; cfg.data = strdupz(buffer_tostring(wb)); cfg.data_size = buffer_strlen(wb); if (rc != NULL) *rc = cond.rc; buffer_free(wb); return cfg; } static dyncfg_config_t get_plugin_config_cb(void *usr_ctx) { PARSER *parser = usr_ctx; return call_virtual_function_blocking(parser, "get_plugin_config", NULL, NULL); } static dyncfg_config_t get_plugin_config_schema_cb(void *usr_ctx) { PARSER *parser = usr_ctx; return call_virtual_function_blocking(parser, "get_plugin_config_schema", NULL, NULL); } static dyncfg_config_t get_module_config_cb(void *usr_ctx, const char *module_name) { PARSER *parser = usr_ctx; char buf[1024]; snprintfz(buf, sizeof(buf), "get_module_config %s", module_name); return call_virtual_function_blocking(parser, buf, NULL, NULL); } static dyncfg_config_t get_module_config_schema_cb(void *usr_ctx, const char *module_name) { PARSER *parser = usr_ctx; char buf[1024]; snprintfz(buf, sizeof(buf), "get_module_config_schema %s", module_name); return call_virtual_function_blocking(parser, buf, NULL, NULL); } static dyncfg_config_t get_job_config_schema_cb(void *usr_ctx, const char *module_name) { PARSER *parser = usr_ctx; char buf[1024]; snprintfz(buf, sizeof(buf), "get_job_config_schema %s", module_name); return call_virtual_function_blocking(parser, buf, NULL, NULL); } static dyncfg_config_t get_job_config_cb(void *usr_ctx, const char *module_name, const char* job_name) { PARSER *parser = usr_ctx; char buf[1024]; snprintfz(buf, sizeof(buf), "get_job_config %s %s", module_name, job_name); return call_virtual_function_blocking(parser, buf, NULL, NULL); } enum set_config_result set_plugin_config_cb(void *usr_ctx, dyncfg_config_t *cfg) { PARSER *parser = usr_ctx; int rc; call_virtual_function_blocking(parser, "set_plugin_config", &rc, cfg->data); if(rc != 1) return SET_CONFIG_REJECTED; return SET_CONFIG_ACCEPTED; } enum set_config_result set_module_config_cb(void *usr_ctx, const char *module_name, dyncfg_config_t *cfg) { PARSER *parser = usr_ctx; int rc; char buf[1024]; snprintfz(buf, sizeof(buf), "set_module_config %s", module_name); call_virtual_function_blocking(parser, buf, &rc, cfg->data); if(rc != 1) return SET_CONFIG_REJECTED; return SET_CONFIG_ACCEPTED; } enum set_config_result set_job_config_cb(void *usr_ctx, const char *module_name, const char *job_name, dyncfg_config_t *cfg) { PARSER *parser = usr_ctx; int rc; char buf[1024]; snprintfz(buf, sizeof(buf), "set_job_config %s %s", module_name, job_name); call_virtual_function_blocking(parser, buf, &rc, cfg->data); if(rc != 1) return SET_CONFIG_REJECTED; return SET_CONFIG_ACCEPTED; } enum set_config_result delete_job_cb(void *usr_ctx, const char *module_name, const char *job_name) { PARSER *parser = usr_ctx; int rc; char buf[1024]; snprintfz(buf, sizeof(buf), "delete_job %s %s", module_name, job_name); call_virtual_function_blocking(parser, buf, &rc, NULL); if(rc != 1) return SET_CONFIG_REJECTED; return SET_CONFIG_ACCEPTED; } static inline PARSER_RC pluginsd_register_plugin(char **words __maybe_unused, size_t num_words __maybe_unused, PARSER *parser __maybe_unused) { netdata_log_info("PLUGINSD: DYNCFG_ENABLE"); if (unlikely (num_words != 2)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_DYNCFG_ENABLE, "missing name parameter"); struct configurable_plugin *cfg = callocz(1, sizeof(struct configurable_plugin)); cfg->name = strdupz(words[1]); cfg->set_config_cb = set_plugin_config_cb; cfg->get_config_cb = get_plugin_config_cb; cfg->get_config_schema_cb = get_plugin_config_schema_cb; cfg->cb_usr_ctx = parser; parser->user.cd->cfg_dict_item = register_plugin(cfg); if (unlikely(parser->user.cd->cfg_dict_item == NULL)) { freez(cfg->name); freez(cfg); return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_DYNCFG_ENABLE, "error registering plugin"); } parser->user.cd->configuration = cfg; return PARSER_RC_OK; } static inline PARSER_RC pluginsd_register_module(char **words __maybe_unused, size_t num_words __maybe_unused, PARSER *parser __maybe_unused) { netdata_log_info("PLUGINSD: DYNCFG_REG_MODULE"); struct configurable_plugin *plug_cfg = parser->user.cd->configuration; if (unlikely(plug_cfg == NULL)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_DYNCFG_REGISTER_MODULE, "you have to enable dynamic configuration first using " PLUGINSD_KEYWORD_DYNCFG_ENABLE); if (unlikely(num_words != 3)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_DYNCFG_REGISTER_MODULE, "expected 2 parameters module_name followed by module_type"); struct module *mod = callocz(1, sizeof(struct module)); mod->type = str2_module_type(words[2]); if (unlikely(mod->type == MOD_TYPE_UNKNOWN)) { freez(mod); return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_DYNCFG_REGISTER_MODULE, "unknown module type (allowed: job_array, single)"); } mod->name = strdupz(words[1]); mod->set_config_cb = set_module_config_cb; mod->get_config_cb = get_module_config_cb; mod->get_config_schema_cb = get_module_config_schema_cb; mod->config_cb_usr_ctx = parser; mod->get_job_config_cb = get_job_config_cb; mod->get_job_config_schema_cb = get_job_config_schema_cb; mod->set_job_config_cb = set_job_config_cb; mod->delete_job_cb = delete_job_cb; mod->job_config_cb_usr_ctx = parser; register_module(plug_cfg, mod); return PARSER_RC_OK; } // job_status static inline PARSER_RC pluginsd_job_status(char **words, size_t num_words, PARSER *parser) { if (unlikely(num_words != 6 && num_words != 5)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_REPORT_JOB_STATUS, "expected 4 or 5 parameters: module_name, job_name, status_code, state, [optional: message]"); int state = atoi(words[4]); enum job_status job_status = str2job_state(words[3]); if (unlikely(job_status == JOB_STATUS_UNKNOWN)) return PLUGINSD_DISABLE_PLUGIN(parser, PLUGINSD_KEYWORD_REPORT_JOB_STATUS, "unknown job state"); char *message = NULL; if (num_words == 6) message = strdupz(words[5]); report_job_status(parser->user.cd->configuration, words[1], words[2], job_status, state, message); return PARSER_RC_OK; } static inline PARSER_RC streaming_claimed_id(char **words, size_t num_words, PARSER *parser) { const char *host_uuid_str = get_word(words, num_words, 1); const char *claim_id_str = get_word(words, num_words, 2); if (!host_uuid_str || !claim_id_str) { netdata_log_error("Command CLAIMED_ID came malformed, uuid = '%s', claim_id = '%s'", host_uuid_str ? host_uuid_str : "[unset]", claim_id_str ? claim_id_str : "[unset]"); return PARSER_RC_ERROR; } uuid_t uuid; RRDHOST *host = parser->user.host; // We don't need the parsed UUID // just do it to check the format if(uuid_parse(host_uuid_str, uuid)) { netdata_log_error("1st parameter (host GUID) to CLAIMED_ID command is not valid GUID. Received: \"%s\".", host_uuid_str); return PARSER_RC_ERROR; } if(uuid_parse(claim_id_str, uuid) && strcmp(claim_id_str, "NULL") != 0) { netdata_log_error("2nd parameter (Claim ID) to CLAIMED_ID command is not valid GUID. Received: \"%s\".", claim_id_str); return PARSER_RC_ERROR; } if(strcmp(host_uuid_str, host->machine_guid) != 0) { netdata_log_error("Claim ID is for host \"%s\" but it came over connection for \"%s\"", host_uuid_str, host->machine_guid); return PARSER_RC_OK; //the message is OK problem must be somewhere else } rrdhost_aclk_state_lock(host); if (host->aclk_state.claimed_id) freez(host->aclk_state.claimed_id); host->aclk_state.claimed_id = strcmp(claim_id_str, "NULL") ? strdupz(claim_id_str) : NULL; rrdhost_aclk_state_unlock(host); rrdhost_flag_set(host, RRDHOST_FLAG_METADATA_CLAIMID |RRDHOST_FLAG_METADATA_UPDATE); rrdpush_send_claimed_id(host); return PARSER_RC_OK; } // ---------------------------------------------------------------------------- static inline bool buffered_reader_read(struct buffered_reader *reader, int fd) { #ifdef NETDATA_INTERNAL_CHECKS if(reader->read_buffer[reader->read_len] != '\0') fatal("%s(): read_buffer does not start with zero", __FUNCTION__ ); #endif ssize_t bytes_read = read(fd, reader->read_buffer + reader->read_len, sizeof(reader->read_buffer) - reader->read_len - 1); if(unlikely(bytes_read <= 0)) return false; reader->read_len += bytes_read; reader->read_buffer[reader->read_len] = '\0'; return true; } static inline bool buffered_reader_read_timeout(struct buffered_reader *reader, int fd, int timeout_ms) { errno = 0; struct pollfd fds[1]; fds[0].fd = fd; fds[0].events = POLLIN; int ret = poll(fds, 1, timeout_ms); if (ret > 0) { /* There is data to read */ if (fds[0].revents & POLLIN) return buffered_reader_read(reader, fd); else if(fds[0].revents & POLLERR) { netdata_log_error("PARSER: read failed: POLLERR."); return false; } else if(fds[0].revents & POLLHUP) { netdata_log_error("PARSER: read failed: POLLHUP."); return false; } else if(fds[0].revents & POLLNVAL) { netdata_log_error("PARSER: read failed: POLLNVAL."); return false; } netdata_log_error("PARSER: poll() returned positive number, but POLLIN|POLLERR|POLLHUP|POLLNVAL are not set."); return false; } else if (ret == 0) { netdata_log_error("PARSER: timeout while waiting for data."); return false; } netdata_log_error("PARSER: poll() failed with code %d.", ret); return false; } void pluginsd_process_thread_cleanup(void *ptr) { PARSER *parser = (PARSER *)ptr; pluginsd_cleanup_v2(parser); pluginsd_host_define_cleanup(parser); rrd_collector_finished(); parser_destroy(parser); } inline size_t pluginsd_process(RRDHOST *host, struct plugind *cd, FILE *fp_plugin_input, FILE *fp_plugin_output, int trust_durations) { int enabled = cd->unsafe.enabled; if (!fp_plugin_input || !fp_plugin_output || !enabled) { cd->unsafe.enabled = 0; return 0; } if (unlikely(fileno(fp_plugin_input) == -1)) { netdata_log_error("input file descriptor given is not a valid stream"); cd->serial_failures++; return 0; } if (unlikely(fileno(fp_plugin_output) == -1)) { netdata_log_error("output file descriptor given is not a valid stream"); cd->serial_failures++; return 0; } clearerr(fp_plugin_input); clearerr(fp_plugin_output); PARSER *parser; { PARSER_USER_OBJECT user = { .enabled = cd->unsafe.enabled, .host = host, .cd = cd, .trust_durations = trust_durations }; // fp_plugin_output = our input; fp_plugin_input = our output parser = parser_init(&user, fp_plugin_output, fp_plugin_input, -1, PARSER_INPUT_SPLIT, NULL); } pluginsd_keywords_init(parser, PARSER_INIT_PLUGINSD); rrd_collector_started(); size_t count = 0; // this keeps the parser with its current value // so, parser needs to be allocated before pushing it netdata_thread_cleanup_push(pluginsd_process_thread_cleanup, parser); buffered_reader_init(&parser->reader); char buffer[PLUGINSD_LINE_MAX + 2]; while(likely(service_running(SERVICE_COLLECTORS))) { if (unlikely(!buffered_reader_next_line(&parser->reader, buffer, PLUGINSD_LINE_MAX + 2))) { if(unlikely(!buffered_reader_read_timeout(&parser->reader, fileno((FILE *)parser->fp_input), 2 * 60 * MSEC_PER_SEC))) break; } else if(unlikely(parser_action(parser, buffer))) break; } cd->unsafe.enabled = parser->user.enabled; count = parser->user.data_collections_count; if (likely(count)) { cd->successful_collections += count; cd->serial_failures = 0; } else cd->serial_failures++; // free parser with the pop function netdata_thread_cleanup_pop(1); return count; } void pluginsd_keywords_init(PARSER *parser, PARSER_REPERTOIRE repertoire) { parser_init_repertoire(parser, repertoire); if (repertoire & (PARSER_INIT_PLUGINSD | PARSER_INIT_STREAMING)) inflight_functions_init(parser); } PARSER *parser_init(struct parser_user_object *user, FILE *fp_input, FILE *fp_output, int fd, PARSER_INPUT_TYPE flags, void *ssl __maybe_unused) { PARSER *parser; parser = callocz(1, sizeof(*parser)); if(user) parser->user = *user; parser->fd = fd; parser->fp_input = fp_input; parser->fp_output = fp_output; #ifdef ENABLE_HTTPS parser->ssl_output = ssl; #endif parser->flags = flags; spinlock_init(&parser->writer.spinlock); return parser; } PARSER_RC parser_execute(PARSER *parser, PARSER_KEYWORD *keyword, char **words, size_t num_words) { switch(keyword->id) { case 1: return pluginsd_set_v2(words, num_words, parser); case 2: return pluginsd_begin_v2(words, num_words, parser); case 3: return pluginsd_end_v2(words, num_words, parser); case 11: return pluginsd_set(words, num_words, parser); case 12: return pluginsd_begin(words, num_words, parser); case 13: return pluginsd_end(words, num_words, parser); case 21: return pluginsd_replay_set(words, num_words, parser); case 22: return pluginsd_replay_begin(words, num_words, parser); case 23: return pluginsd_replay_rrddim_collection_state(words, num_words, parser); case 24: return pluginsd_replay_rrdset_collection_state(words, num_words, parser); case 25: return pluginsd_replay_end(words, num_words, parser); case 31: return pluginsd_dimension(words, num_words, parser); case 32: return pluginsd_chart(words, num_words, parser); case 33: return pluginsd_chart_definition_end(words, num_words, parser); case 34: return pluginsd_clabel(words, num_words, parser); case 35: return pluginsd_clabel_commit(words, num_words, parser); case 41: return pluginsd_function(words, num_words, parser); case 42: return pluginsd_function_result_begin(words, num_words, parser); case 51: return pluginsd_label(words, num_words, parser); case 52: return pluginsd_overwrite(words, num_words, parser); case 53: return pluginsd_variable(words, num_words, parser); case 61: return streaming_claimed_id(words, num_words, parser); case 71: return pluginsd_host(words, num_words, parser); case 72: return pluginsd_host_define(words, num_words, parser); case 73: return pluginsd_host_define_end(words, num_words, parser); case 74: return pluginsd_host_labels(words, num_words, parser); case 97: return pluginsd_flush(words, num_words, parser); case 98: return pluginsd_disable(words, num_words, parser); case 99: return pluginsd_exit(words, num_words, parser); case 101: return pluginsd_register_plugin(words, num_words, parser); case 102: return pluginsd_register_module(words, num_words, parser); default: fatal("Unknown keyword '%s' with id %zu", keyword->keyword, keyword->id); } } #include "gperf-hashtable.h" void parser_init_repertoire(PARSER *parser, PARSER_REPERTOIRE repertoire) { parser->repertoire = repertoire; for(size_t i = GPERF_PARSER_MIN_HASH_VALUE ; i <= GPERF_PARSER_MAX_HASH_VALUE ;i++) { if(gperf_keywords[i].keyword && *gperf_keywords[i].keyword && (parser->repertoire & gperf_keywords[i].repertoire)) worker_register_job_name(gperf_keywords[i].worker_job_id, gperf_keywords[i].keyword); } } void parser_destroy(PARSER *parser) { if (unlikely(!parser)) return; if (parser->user.cd != NULL && parser->user.cd->configuration != NULL) { unregister_plugin(parser->user.cd->cfg_dict_item); parser->user.cd->configuration = NULL; } dictionary_destroy(parser->inflight.functions); freez(parser); } int pluginsd_parser_unittest(void) { PARSER *p = parser_init(NULL, NULL, NULL, -1, PARSER_INPUT_SPLIT, NULL); pluginsd_keywords_init(p, PARSER_INIT_PLUGINSD | PARSER_INIT_STREAMING); char *lines[] = { "BEGIN2 abcdefghijklmnopqr 123", "SET2 abcdefg 0x12345678 0 0", "SET2 hijklmnoqr 0x12345678 0 0", "SET2 stuvwxyz 0x12345678 0 0", "END2", NULL, }; char *words[PLUGINSD_MAX_WORDS]; size_t iterations = 1000000; size_t count = 0; char input[PLUGINSD_LINE_MAX + 1]; usec_t started = now_realtime_usec(); while(--iterations) { for(size_t line = 0; lines[line] ;line++) { strncpyz(input, lines[line], PLUGINSD_LINE_MAX); size_t num_words = quoted_strings_splitter_pluginsd(input, words, PLUGINSD_MAX_WORDS); const char *command = get_word(words, num_words, 0); PARSER_KEYWORD *keyword = parser_find_keyword(p, command); if(unlikely(!keyword)) fatal("Cannot parse the line '%s'", lines[line]); count++; } } usec_t ended = now_realtime_usec(); netdata_log_info("Parsed %zu lines in %0.2f secs, %0.2f klines/sec", count, (double)(ended - started) / (double)USEC_PER_SEC, (double)count / ((double)(ended - started) / (double)USEC_PER_SEC) / 1000.0); parser_destroy(p); return 0; }