// SPDX-License-Identifier: GPL-3.0-or-later #include "common.h" void *aclk_main(void *ptr); void *analytics_main(void *ptr); void *cpuidlejitter_main(void *ptr); void *global_statistics_main(void *ptr); void *global_statistics_extended_main(void *ptr); void *health_main(void *ptr); void *pluginsd_main(void *ptr); void *service_main(void *ptr); void *statsd_main(void *ptr); void *profile_main(void *ptr); void *replication_thread_main(void *ptr); extern bool global_statistics_enabled; const struct netdata_static_thread static_threads_common[] = { { .name = "P[idlejitter]", .config_section = CONFIG_SECTION_PLUGINS, .config_name = "idlejitter", .enabled = 1, .thread = NULL, .init_routine = NULL, .start_routine = cpuidlejitter_main }, { .name = "HEALTH", .config_section = NULL, .config_name = NULL, .enabled = 1, .thread = NULL, .init_routine = NULL, .start_routine = health_main }, { .name = "ANALYTICS", .config_section = NULL, .config_name = NULL, .enabled = 0, .thread = NULL, .init_routine = NULL, .start_routine = analytics_main }, { .name = "STATS_GLOBAL", .config_section = CONFIG_SECTION_PLUGINS, .config_name = "netdata monitoring", .env_name = "NETDATA_INTERNALS_MONITORING", .global_variable = &global_statistics_enabled, .enabled = 1, .thread = NULL, .init_routine = NULL, .start_routine = global_statistics_main }, { .name = "STATS_GLOBAL_EXT", .config_section = CONFIG_SECTION_PLUGINS, .config_name = "netdata monitoring extended", .env_name = "NETDATA_INTERNALS_EXTENDED_MONITORING", .global_variable = &global_statistics_enabled, .enabled = 0, // this is ignored - check main() for "netdata monitoring extended" .thread = NULL, .init_routine = NULL, .start_routine = global_statistics_extended_main }, { .name = "PLUGINSD", .config_section = NULL, .config_name = NULL, .enabled = 1, .thread = NULL, .init_routine = NULL, .start_routine = pluginsd_main }, { .name = "SERVICE", .config_section = NULL, .config_name = NULL, .enabled = 1, .thread = NULL, .init_routine = NULL, .start_routine = service_main }, { .name = "STATSD_FLUSH", .config_section = NULL, .config_name = NULL, .enabled = 1, .thread = NULL, .init_routine = NULL, .start_routine = statsd_main }, { .name = "EXPORTING", .config_section = NULL, .config_name = NULL, .enabled = 1, .thread = NULL, .init_routine = NULL, .start_routine = exporting_main }, { .name = "SNDR[localhost]", .config_section = NULL, .config_name = NULL, .enabled = 0, .thread = NULL, .init_routine = NULL, .start_routine = rrdpush_sender_thread }, { .name = "WEB[1]", .config_section = NULL, .config_name = NULL, .enabled = 0, .thread = NULL, .init_routine = NULL, .start_routine = socket_listen_main_static_threaded }, #ifdef ENABLE_H2O { .name = "h2o", .config_section = NULL, .config_name = NULL, .enabled = 0, .thread = NULL, .init_routine = NULL, .start_routine = h2o_main }, #endif #ifdef ENABLE_ACLK { .name = "ACLK_MAIN", .config_section = NULL, .config_name = NULL, .enabled = 1, .thread = NULL, .init_routine = NULL, .start_routine = aclk_main }, #endif { .name = "RRDCONTEXT", .config_section = NULL, .config_name = NULL, .enabled = 1, .thread = NULL, .init_routine = NULL, .start_routine = rrdcontext_main }, { .name = "REPLAY[1]", .config_section = NULL, .config_name = NULL, .enabled = 1, .thread = NULL, .init_routine = NULL, .start_routine = replication_thread_main }, { .name = "P[PROFILE]", .config_section = CONFIG_SECTION_PLUGINS, .config_name = "profile", .enabled = 0, .thread = NULL, .init_routine = NULL, .start_routine = profile_main }, // terminator { .name = NULL, .config_section = NULL, .config_name = NULL, .env_name = NULL, .enabled = 0, .thread = NULL, .init_routine = NULL, .start_routine = NULL } }; struct netdata_static_thread * static_threads_concat(const struct netdata_static_thread *lhs, const struct netdata_static_thread *rhs) { struct netdata_static_thread *res; int lhs_size = 0; for (; lhs[lhs_size].name; lhs_size++) {} int rhs_size = 0; for (; rhs[rhs_size].name; rhs_size++) {} res = callocz(lhs_size + rhs_size + 1, sizeof(struct netdata_static_thread)); for (int i = 0; i != lhs_size; i++) memcpy(&res[i], &lhs[i], sizeof(struct netdata_static_thread)); for (int i = 0; i != rhs_size; i++) memcpy(&res[lhs_size + i], &rhs[i], sizeof(struct netdata_static_thread)); return res; }