Mercurial > hg > nginx-ranges
view src/os/unix/ngx_process_cycle.c @ 16:74b1868dd3cd NGINX_0_1_8
nginx 0.1.8
*) Bugfix: in the ngx_http_autoindex_module if the long file names were
in the listing.
*) Feature: the "^~" modifier in the location directive.
*) Feature: the proxy_max_temp_file_size directive.
| author | Igor Sysoev <http://sysoev.ru> |
|---|---|
| date | Sat, 20 Nov 2004 00:00:00 +0300 |
| parents | 46833bd150cb |
| children | 6f8b0dc0f8dd |
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/* * Copyright (C) Igor Sysoev */ #include <ngx_config.h> #include <ngx_core.h> #include <ngx_event.h> #include <ngx_channel.h> static void ngx_start_worker_processes(ngx_cycle_t *cycle, ngx_int_t n, ngx_int_t type); static void ngx_start_garbage_collector(ngx_cycle_t *cycle, ngx_int_t type); static void ngx_signal_worker_processes(ngx_cycle_t *cycle, int signo); static ngx_uint_t ngx_reap_childs(ngx_cycle_t *cycle); static void ngx_master_exit(ngx_cycle_t *cycle); static void ngx_worker_process_cycle(ngx_cycle_t *cycle, void *data); static void ngx_worker_process_init(ngx_cycle_t *cycle); static void ngx_channel_handler(ngx_event_t *ev); #if (NGX_THREADS) static void ngx_wakeup_worker_threads(ngx_cycle_t *cycle); static void *ngx_worker_thread_cycle(void *data); #endif static void ngx_garbage_collector_cycle(ngx_cycle_t *cycle, void *data); ngx_uint_t ngx_process; ngx_pid_t ngx_pid; ngx_uint_t ngx_threaded; sig_atomic_t ngx_reap; sig_atomic_t ngx_timer; sig_atomic_t ngx_sigio; sig_atomic_t ngx_terminate; sig_atomic_t ngx_quit; ngx_uint_t ngx_exiting; sig_atomic_t ngx_reconfigure; sig_atomic_t ngx_reopen; sig_atomic_t ngx_change_binary; ngx_pid_t ngx_new_binary; ngx_uint_t ngx_inherited; ngx_uint_t ngx_daemonized; sig_atomic_t ngx_noaccept; ngx_uint_t ngx_noaccepting; ngx_uint_t ngx_restart; #if (NGX_THREADS) volatile ngx_thread_t ngx_threads[NGX_MAX_THREADS]; ngx_int_t ngx_threads_n; #endif u_char master_process[] = "master process"; void ngx_master_process_cycle(ngx_cycle_t *cycle) { char *title; u_char *p; size_t size; ngx_int_t i; sigset_t set; struct timeval tv; struct itimerval itv; ngx_uint_t live; ngx_msec_t delay; ngx_core_conf_t *ccf; sigemptyset(&set); sigaddset(&set, SIGCHLD); sigaddset(&set, SIGALRM); sigaddset(&set, SIGIO); sigaddset(&set, SIGINT); sigaddset(&set, ngx_signal_value(NGX_RECONFIGURE_SIGNAL)); sigaddset(&set, ngx_signal_value(NGX_REOPEN_SIGNAL)); sigaddset(&set, ngx_signal_value(NGX_NOACCEPT_SIGNAL)); sigaddset(&set, ngx_signal_value(NGX_TERMINATE_SIGNAL)); sigaddset(&set, ngx_signal_value(NGX_SHUTDOWN_SIGNAL)); sigaddset(&set, ngx_signal_value(NGX_CHANGEBIN_SIGNAL)); if (sigprocmask(SIG_BLOCK, &set, NULL) == -1) { ngx_log_error(NGX_LOG_ALERT, cycle->log, ngx_errno, "sigprocmask() failed"); } sigemptyset(&set); size = sizeof(master_process); for (i = 0; i < ngx_argc; i++) { size += ngx_strlen(ngx_argv[i]) + 1; } title = ngx_palloc(cycle->pool, size); p = ngx_cpymem(title, master_process, sizeof(master_process) - 1); for (i = 0; i < ngx_argc; i++) { *p++ = ' '; p = ngx_cpystrn(p, (u_char *) ngx_argv[i], size); } ngx_setproctitle(title); ccf = (ngx_core_conf_t *) ngx_get_conf(cycle->conf_ctx, ngx_core_module); ngx_start_worker_processes(cycle, ccf->worker_processes, NGX_PROCESS_RESPAWN); ngx_start_garbage_collector(cycle, NGX_PROCESS_RESPAWN); ngx_new_binary = 0; delay = 0; live = 1; for ( ;; ) { if (delay) { delay *= 2; ngx_log_debug1(NGX_LOG_DEBUG_EVENT, cycle->log, 0, "temination cycle: %d", delay); itv.it_interval.tv_sec = 0; itv.it_interval.tv_usec = 0; itv.it_value.tv_sec = delay / 1000; itv.it_value.tv_usec = (delay % 1000 ) * 1000; if (setitimer(ITIMER_REAL, &itv, NULL) == -1) { ngx_log_error(NGX_LOG_ALERT, cycle->log, ngx_errno, "setitimer() failed"); } } ngx_log_debug0(NGX_LOG_DEBUG_EVENT, cycle->log, 0, "sigsuspend"); sigsuspend(&set); ngx_gettimeofday(&tv); ngx_time_update(tv.tv_sec); ngx_log_debug0(NGX_LOG_DEBUG_EVENT, cycle->log, 0, "wake up"); if (ngx_reap) { ngx_reap = 0; ngx_log_debug0(NGX_LOG_DEBUG_EVENT, cycle->log, 0, "reap childs"); live = ngx_reap_childs(cycle); } if (!live && (ngx_terminate || ngx_quit)) { ngx_master_exit(cycle); } if (ngx_terminate) { if (delay == 0) { delay = 50; } if (delay > 1000) { ngx_signal_worker_processes(cycle, SIGKILL); } else { ngx_signal_worker_processes(cycle, ngx_signal_value(NGX_TERMINATE_SIGNAL)); } continue; } if (ngx_quit) { ngx_signal_worker_processes(cycle, ngx_signal_value(NGX_SHUTDOWN_SIGNAL)); continue; } if (ngx_timer) { ngx_timer = 0; if (!ngx_noaccepting) { ngx_start_worker_processes(cycle, ccf->worker_processes, NGX_PROCESS_JUST_RESPAWN); ngx_start_garbage_collector(cycle, NGX_PROCESS_JUST_RESPAWN); live = 1; ngx_signal_worker_processes(cycle, ngx_signal_value(NGX_SHUTDOWN_SIGNAL)); } } if (ngx_reconfigure) { ngx_reconfigure = 0; if (ngx_new_binary) { ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "start new workers"); ngx_start_worker_processes(cycle, ccf->worker_processes, NGX_PROCESS_RESPAWN); ngx_start_garbage_collector(cycle, NGX_PROCESS_RESPAWN); ngx_noaccepting = 0; continue; } ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "reconfiguring"); cycle = ngx_init_cycle(cycle); if (cycle == NULL) { cycle = (ngx_cycle_t *) ngx_cycle; continue; } ngx_cycle = cycle; ccf = (ngx_core_conf_t *) ngx_get_conf(cycle->conf_ctx, ngx_core_module); ngx_start_worker_processes(cycle, ccf->worker_processes, NGX_PROCESS_JUST_RESPAWN); ngx_start_garbage_collector(cycle, NGX_PROCESS_JUST_RESPAWN); live = 1; ngx_signal_worker_processes(cycle, ngx_signal_value(NGX_SHUTDOWN_SIGNAL)); } if (ngx_restart) { ngx_restart = 0; ngx_start_worker_processes(cycle, ccf->worker_processes, NGX_PROCESS_RESPAWN); ngx_start_garbage_collector(cycle, NGX_PROCESS_RESPAWN); live = 1; } if (ngx_reopen) { ngx_reopen = 0; ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "reopening logs"); ngx_reopen_files(cycle, ccf->user); ngx_signal_worker_processes(cycle, ngx_signal_value(NGX_REOPEN_SIGNAL)); } if (ngx_change_binary) { ngx_change_binary = 0; ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "changing binary"); ngx_new_binary = ngx_exec_new_binary(cycle, ngx_argv); } if (ngx_noaccept) { ngx_noaccept = 0; ngx_noaccepting = 1; ngx_signal_worker_processes(cycle, ngx_signal_value(NGX_SHUTDOWN_SIGNAL)); } } } void ngx_single_process_cycle(ngx_cycle_t *cycle) { ngx_uint_t i; ngx_init_temp_number(); for (i = 0; ngx_modules[i]; i++) { if (ngx_modules[i]->init_process) { if (ngx_modules[i]->init_process(cycle) == NGX_ERROR) { /* fatal */ exit(2); } } } for ( ;; ) { ngx_log_debug0(NGX_LOG_DEBUG_EVENT, cycle->log, 0, "worker cycle"); ngx_process_events(cycle); if (ngx_terminate || ngx_quit) { ngx_master_exit(cycle); } if (ngx_reconfigure) { ngx_reconfigure = 0; ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "reconfiguring"); cycle = ngx_init_cycle(cycle); if (cycle == NULL) { cycle = (ngx_cycle_t *) ngx_cycle; continue; } ngx_cycle = cycle; } if (ngx_reopen) { ngx_reopen = 0; ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "reopening logs"); ngx_reopen_files(cycle, (ngx_uid_t) -1); } } } static void ngx_start_worker_processes(ngx_cycle_t *cycle, ngx_int_t n, ngx_int_t type) { ngx_int_t i; ngx_channel_t ch; struct itimerval itv; ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "start worker processes"); ch.command = NGX_CMD_OPEN_CHANNEL; while (n--) { ngx_spawn_process(cycle, ngx_worker_process_cycle, NULL, "worker process", type); ch.pid = ngx_processes[ngx_process_slot].pid; ch.slot = ngx_process_slot; ch.fd = ngx_processes[ngx_process_slot].channel[0]; for (i = 0; i < ngx_last_process; i++) { if (i == ngx_process_slot || ngx_processes[i].pid == -1 || ngx_processes[i].channel[0] == -1) { continue; } ngx_log_debug6(NGX_LOG_DEBUG_CORE, cycle->log, 0, "pass channel s:%d pid:%P fd:%d to s:%i pid:%P fd:%d", ch.slot, ch.pid, ch.fd, i, ngx_processes[i].pid, ngx_processes[i].channel[0]); /* TODO: NGX_AGAIN */ ngx_write_channel(ngx_processes[i].channel[0], &ch, sizeof(ngx_channel_t), cycle->log); } } /* * we have to limit the maximum life time of the worker processes * by 10 days because our millisecond event timer is limited * by 24 days on 32-bit platforms */ itv.it_interval.tv_sec = 0; itv.it_interval.tv_usec = 0; itv.it_value.tv_sec = 10 * 24 * 60 * 60; itv.it_value.tv_usec = 0; if (setitimer(ITIMER_REAL, &itv, NULL) == -1) { ngx_log_error(NGX_LOG_ALERT, cycle->log, ngx_errno, "setitimer() failed"); } } static void ngx_start_garbage_collector(ngx_cycle_t *cycle, ngx_int_t type) { ngx_int_t i; ngx_channel_t ch; return; ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "start garbage collector"); ch.command = NGX_CMD_OPEN_CHANNEL; ngx_spawn_process(cycle, ngx_garbage_collector_cycle, NULL, "garbage collector", type); ch.pid = ngx_processes[ngx_process_slot].pid; ch.slot = ngx_process_slot; ch.fd = ngx_processes[ngx_process_slot].channel[0]; for (i = 0; i < ngx_last_process; i++) { if (i == ngx_process_slot || ngx_processes[i].pid == -1 || ngx_processes[i].channel[0] == -1) { continue; } ngx_log_debug6(NGX_LOG_DEBUG_CORE, cycle->log, 0, "pass channel s:%d pid:%P fd:%d to s:%i pid:%P fd:%d", ch.slot, ch.pid, ch.fd, i, ngx_processes[i].pid, ngx_processes[i].channel[0]); /* TODO: NGX_AGAIN */ ngx_write_channel(ngx_processes[i].channel[0], &ch, sizeof(ngx_channel_t), cycle->log); } } static void ngx_signal_worker_processes(ngx_cycle_t *cycle, int signo) { ngx_int_t i; ngx_err_t err; ngx_channel_t ch; switch (signo) { case ngx_signal_value(NGX_SHUTDOWN_SIGNAL): ch.command = NGX_CMD_QUIT; break; case ngx_signal_value(NGX_TERMINATE_SIGNAL): ch.command = NGX_CMD_TERMINATE; break; case ngx_signal_value(NGX_REOPEN_SIGNAL): ch.command = NGX_CMD_REOPEN; break; default: ch.command = 0; } ch.fd = -1; for (i = 0; i < ngx_last_process; i++) { ngx_log_debug7(NGX_LOG_DEBUG_EVENT, cycle->log, 0, "child: %d %P e:%d t:%d d:%d r:%d j:%d", i, ngx_processes[i].pid, ngx_processes[i].exiting, ngx_processes[i].exited, ngx_processes[i].detached, ngx_processes[i].respawn, ngx_processes[i].just_respawn); if (ngx_processes[i].detached || ngx_processes[i].pid == -1) { continue; } if (ngx_processes[i].just_respawn) { ngx_processes[i].just_respawn = 0; continue; } if (ngx_processes[i].exiting && signo == ngx_signal_value(NGX_SHUTDOWN_SIGNAL)) { continue; } if (ch.command) { if (ngx_write_channel(ngx_processes[i].channel[0], &ch, sizeof(ngx_channel_t), cycle->log) == NGX_OK) { if (signo != ngx_signal_value(NGX_REOPEN_SIGNAL)) { ngx_processes[i].exiting = 1; } continue; } } ngx_log_debug2(NGX_LOG_DEBUG_CORE, cycle->log, 0, "kill (%P, %d)" , ngx_processes[i].pid, signo); if (kill(ngx_processes[i].pid, signo) == -1) { err = ngx_errno; ngx_log_error(NGX_LOG_ALERT, cycle->log, err, "kill(%P, %d) failed", ngx_processes[i].pid, signo); if (err == NGX_ESRCH) { ngx_processes[i].exited = 1; ngx_processes[i].exiting = 0; ngx_reap = 1; } continue; } if (signo != ngx_signal_value(NGX_REOPEN_SIGNAL)) { ngx_processes[i].exiting = 1; } } } static ngx_uint_t ngx_reap_childs(ngx_cycle_t *cycle) { ngx_int_t i, n; ngx_uint_t live; ngx_channel_t ch; ch.command = NGX_CMD_CLOSE_CHANNEL; ch.fd = -1; live = 0; for (i = 0; i < ngx_last_process; i++) { ngx_log_debug7(NGX_LOG_DEBUG_EVENT, cycle->log, 0, "child: %d %P e:%d t:%d d:%d r:%d j:%d", i, ngx_processes[i].pid, ngx_processes[i].exiting, ngx_processes[i].exited, ngx_processes[i].detached, ngx_processes[i].respawn, ngx_processes[i].just_respawn); if (ngx_processes[i].pid == -1) { continue; } if (ngx_processes[i].exited) { if (!ngx_processes[i].detached) { ngx_close_channel(ngx_processes[i].channel, cycle->log); ngx_processes[i].channel[0] = -1; ngx_processes[i].channel[1] = -1; ch.pid = ngx_processes[i].pid; ch.slot = i; for (n = 0; n < ngx_last_process; n++) { if (ngx_processes[n].exited || ngx_processes[n].pid == -1 || ngx_processes[n].channel[0] == -1) { continue; } ngx_log_debug3(NGX_LOG_DEBUG_CORE, cycle->log, 0, "pass close channel s:%i pid:%P to:%P", ch.slot, ch.pid, ngx_processes[n].pid); /* TODO: NGX_AGAIN */ ngx_write_channel(ngx_processes[n].channel[0], &ch, sizeof(ngx_channel_t), cycle->log); } } if (ngx_processes[i].respawn && !ngx_processes[i].exiting && !ngx_terminate && !ngx_quit) { if (ngx_spawn_process(cycle, ngx_processes[i].proc, ngx_processes[i].data, ngx_processes[i].name, i) == NGX_ERROR) { ngx_log_error(NGX_LOG_ALERT, cycle->log, 0, "can not respawn %s", ngx_processes[i].name); continue; } live = 1; continue; } if (ngx_processes[i].pid == ngx_new_binary) { ngx_new_binary = 0; if (ngx_noaccepting) { ngx_restart = 1; ngx_noaccepting = 0; } } if (i == ngx_last_process - 1) { ngx_last_process--; } else { ngx_processes[i].pid = -1; } } else if (ngx_processes[i].exiting || !ngx_processes[i].detached) { live = 1; } } return live; } static void ngx_master_exit(ngx_cycle_t *cycle) { ngx_delete_pidfile(cycle); ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "exit"); ngx_destroy_pool(cycle->pool); exit(0); } static void ngx_worker_process_cycle(ngx_cycle_t *cycle, void *data) { ngx_worker_process_init(cycle); ngx_setproctitle("worker process"); #if (NGX_THREADS) if (ngx_time_mutex_init(cycle->log) == NGX_ERROR) { /* fatal */ exit(2); } if (ngx_threads_n) { if (ngx_init_threads(ngx_threads_n, ccf->thread_stack_size, cycle) == NGX_ERROR) { /* fatal */ exit(2); } err = ngx_thread_key_create(&ngx_core_tls_key); if (err != 0) { ngx_log_error(NGX_LOG_ALERT, cycle->log, err, ngx_thread_key_create_n " failed"); /* fatal */ exit(2); } for (n = 0; n < ngx_threads_n; n++) { if (!(ngx_threads[n].cv = ngx_cond_init(cycle->log))) { /* fatal */ exit(2); } if (ngx_create_thread((ngx_tid_t *) &ngx_threads[n].tid, ngx_worker_thread_cycle, (void *) &ngx_threads[n], cycle->log) != 0) { /* fatal */ exit(2); } } } #endif for ( ;; ) { if (ngx_exiting && ngx_event_timer_rbtree == &ngx_event_timer_sentinel) { ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "exiting"); #if (NGX_THREADS) ngx_terminate = 1; ngx_wakeup_worker_threads(cycle); #endif /* * we do not destroy cycle->pool here because a signal handler * that uses cycle->log can be called at this point */ exit(0); } ngx_log_debug0(NGX_LOG_DEBUG_EVENT, cycle->log, 0, "worker cycle"); ngx_process_events(cycle); if (ngx_terminate) { ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "exiting"); #if (NGX_THREADS) ngx_wakeup_worker_threads(cycle); #endif /* * we do not destroy cycle->pool here because a signal handler * that uses cycle->log can be called at this point */ exit(0); } if (ngx_quit) { ngx_quit = 0; ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "gracefully shutting down"); ngx_setproctitle("worker process is shutting down"); if (!ngx_exiting) { ngx_close_listening_sockets(cycle); ngx_exiting = 1; } } if (ngx_reopen) { ngx_reopen = 0; ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "reopen logs"); ngx_reopen_files(cycle, -1); } } } static void ngx_worker_process_init(ngx_cycle_t *cycle) { sigset_t set; ngx_int_t n; ngx_uint_t i; struct timeval tv; ngx_core_conf_t *ccf; ngx_listening_t *ls; ngx_gettimeofday(&tv); ngx_start_msec = (ngx_epoch_msec_t) tv.tv_sec * 1000 + tv.tv_usec / 1000; ngx_old_elapsed_msec = 0; ngx_elapsed_msec = 0; ngx_process = NGX_PROCESS_WORKER; ccf = (ngx_core_conf_t *) ngx_get_conf(cycle->conf_ctx, ngx_core_module); if (geteuid() == 0) { if (setgid(ccf->group) == -1) { ngx_log_error(NGX_LOG_EMERG, cycle->log, ngx_errno, "setgid(%d) failed", ccf->group); /* fatal */ exit(2); } if (setuid(ccf->user) == -1) { ngx_log_error(NGX_LOG_EMERG, cycle->log, ngx_errno, "setuid(%d) failed", ccf->user); /* fatal */ exit(2); } } #if (NGX_HAVE_PR_SET_DUMPABLE) /* allow coredump after setuid() in Linux 2.4.x */ if (prctl(PR_SET_DUMPABLE, 1, 0, 0, 0) == -1) { ngx_log_error(NGX_LOG_ALERT, cycle->log, ngx_errno, "prctl(PR_SET_DUMPABLE) failed"); } #endif sigemptyset(&set); if (sigprocmask(SIG_SETMASK, &set, NULL) == -1) { ngx_log_error(NGX_LOG_ALERT, cycle->log, ngx_errno, "sigprocmask() failed"); } ngx_init_temp_number(); /* * disable deleting previous events for the listening sockets because * in the worker processes there are no events at all at this point */ ls = cycle->listening.elts; for (i = 0; i < cycle->listening.nelts; i++) { ls[i].remain = 0; } for (i = 0; ngx_modules[i]; i++) { if (ngx_modules[i]->init_process) { if (ngx_modules[i]->init_process(cycle) == NGX_ERROR) { /* fatal */ exit(2); } } } for (n = 0; n < ngx_last_process; n++) { if (ngx_processes[n].pid == -1) { continue; } if (n == ngx_process_slot) { continue; } if (ngx_processes[n].channel[1] == -1) { continue; } if (close(ngx_processes[n].channel[1]) == -1) { ngx_log_error(NGX_LOG_ALERT, cycle->log, ngx_errno, "close() channel failed"); } } if (close(ngx_processes[ngx_process_slot].channel[0]) == -1) { ngx_log_error(NGX_LOG_ALERT, cycle->log, ngx_errno, "close() channel failed"); } #if 0 ngx_last_process = 0; #endif if (ngx_add_channel_event(cycle, ngx_channel, NGX_READ_EVENT, ngx_channel_handler) == NGX_ERROR) { /* fatal */ exit(2); } } static void ngx_channel_handler(ngx_event_t *ev) { ngx_int_t n; ngx_channel_t ch; ngx_connection_t *c; if (ev->timedout) { ev->timedout = 0; return; } c = ev->data; ngx_log_debug0(NGX_LOG_DEBUG_CORE, ev->log, 0, "channel handler"); n = ngx_read_channel(c->fd, &ch, sizeof(ngx_channel_t), ev->log); ngx_log_debug1(NGX_LOG_DEBUG_CORE, ev->log, 0, "channel: %i", n); if (n == NGX_ERROR) { if (close(c->fd) == -1) { ngx_log_error(NGX_LOG_ALERT, ev->log, ngx_errno, "close() channel failed"); } c->fd = -1; return; } if (n == NGX_AGAIN) { return; } ngx_log_debug1(NGX_LOG_DEBUG_CORE, ev->log, 0, "channel command: %d", ch.command); switch (ch.command) { case NGX_CMD_QUIT: ngx_quit = 1; break; case NGX_CMD_TERMINATE: ngx_terminate = 1; break; case NGX_CMD_REOPEN: ngx_reopen = 1; break; case NGX_CMD_OPEN_CHANNEL: ngx_log_debug3(NGX_LOG_DEBUG_CORE, ev->log, 0, "get channel s:%i pid:%P fd:%d", ch.slot, ch.pid, ch.fd); ngx_processes[ch.slot].pid = ch.pid; ngx_processes[ch.slot].channel[0] = ch.fd; break; case NGX_CMD_CLOSE_CHANNEL: ngx_log_debug4(NGX_LOG_DEBUG_CORE, ev->log, 0, "close channel s:%i pid:%P our:%P fd:%d", ch.slot, ch.pid, ngx_processes[ch.slot].pid, ngx_processes[ch.slot].channel[0]); if (close(ngx_processes[ch.slot].channel[0]) == -1) { ngx_log_error(NGX_LOG_ALERT, ev->log, ngx_errno, "close() channel failed"); } ngx_processes[ch.slot].channel[0] = -1; break; } } #if (NGX_THREADS) static void ngx_wakeup_worker_threads(ngx_cycle_t *cycle) { ngx_int_t i; ngx_uint_t live; for ( ;; ) { live = 0; for (i = 0; i < ngx_threads_n; i++) { if (ngx_threads[i].state < NGX_THREAD_EXIT) { ngx_cond_signal(ngx_threads[i].cv); if (ngx_threads[i].cv->tid == (ngx_tid_t) -1) { ngx_threads[i].state = NGX_THREAD_DONE; } else { live = 1; } } if (ngx_threads[i].state == NGX_THREAD_EXIT) { ngx_thread_join(ngx_threads[i].tid, NULL); ngx_threads[i].state = NGX_THREAD_DONE; } } if (live == 0) { ngx_log_debug0(NGX_LOG_DEBUG_CORE, cycle->log, 0, "all worker threads are joined"); /* STUB */ ngx_done_events(cycle); ngx_mutex_destroy(ngx_event_timer_mutex); ngx_mutex_destroy(ngx_posted_events_mutex); return; } ngx_sched_yield(); } } static void *ngx_worker_thread_cycle(void *data) { ngx_thread_t *thr = data; sigset_t set; ngx_err_t err; ngx_core_tls_t *tls; ngx_cycle_t *cycle; thr->cv->tid = ngx_thread_self(); cycle = (ngx_cycle_t *) ngx_cycle; sigemptyset(&set); sigaddset(&set, ngx_signal_value(NGX_RECONFIGURE_SIGNAL)); sigaddset(&set, ngx_signal_value(NGX_REOPEN_SIGNAL)); sigaddset(&set, ngx_signal_value(NGX_CHANGEBIN_SIGNAL)); err = ngx_thread_sigmask(SIG_BLOCK, &set, NULL); if (err) { ngx_log_error(NGX_LOG_ALERT, cycle->log, err, ngx_thread_sigmask_n " failed"); return (void *) 1; } ngx_log_debug1(NGX_LOG_DEBUG_CORE, cycle->log, 0, "thread " NGX_TID_T_FMT " started", ngx_thread_self()); ngx_setthrtitle("worker thread"); if (!(tls = ngx_calloc(sizeof(ngx_core_tls_t), cycle->log))) { return (void *) 1; } err = ngx_thread_set_tls(ngx_core_tls_key, tls); if (err != 0) { ngx_log_error(NGX_LOG_ALERT, cycle->log, err, ngx_thread_set_tls_n " failed"); return (void *) 1; } if (ngx_mutex_lock(ngx_posted_events_mutex) == NGX_ERROR) { return (void *) 1; } for ( ;; ) { thr->state = NGX_THREAD_FREE; if (ngx_cond_wait(thr->cv, ngx_posted_events_mutex) == NGX_ERROR) { return (void *) 1; } if (ngx_terminate) { thr->state = NGX_THREAD_EXIT; ngx_mutex_unlock(ngx_posted_events_mutex); ngx_log_debug1(NGX_LOG_DEBUG_CORE, cycle->log, 0, "thread " NGX_TID_T_FMT " is done", ngx_thread_self()); return (void *) 0; } thr->state = NGX_THREAD_BUSY; if (ngx_event_thread_process_posted(cycle) == NGX_ERROR) { return (void *) 1; } if (ngx_event_thread_process_posted(cycle) == NGX_ERROR) { return (void *) 1; } if (ngx_process_changes) { if (ngx_process_changes(cycle, 1) == NGX_ERROR) { return (void *) 1; } } } } #endif static void ngx_garbage_collector_cycle(ngx_cycle_t *cycle, void *data) { ngx_uint_t i; ngx_gc_t ctx; ngx_path_t **path; ngx_event_t *ev; ngx_worker_process_init(cycle); ev = &cycle->read_events[ngx_channel]; ngx_accept_mutex = NULL; ngx_setproctitle("garbage collector"); #if 0 ngx_add_timer(ev, 60 * 1000); #endif for ( ;; ) { if (ngx_terminate || ngx_quit) { ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "exiting"); exit(0); } if (ngx_reopen) { ngx_reopen = 0; ngx_log_error(NGX_LOG_INFO, cycle->log, 0, "reopen logs"); ngx_reopen_files(cycle, -1); } path = cycle->pathes.elts; for (i = 0; i < cycle->pathes.nelts; i++) { ctx.path = path[i]; ctx.log = cycle->log; ctx.handler = path[i]->gc_handler; ngx_collect_garbage(&ctx, &path[i]->name, 0); } ngx_add_timer(ev, 60 * 60 * 1000); ngx_process_events(cycle); } }