/*
* Copyright (C) Igor Sysoev
* Copyright (C) NGINX, Inc.
*/
#include <nxt_main.h>
static nxt_int_t nxt_event_engine_post_init(nxt_event_engine_t *engine);
static nxt_int_t nxt_event_engine_signal_pipe_create(
nxt_event_engine_t *engine);
static void nxt_event_engine_signal_pipe_close(nxt_task_t *task, void *obj,
void *data);
static void nxt_event_engine_signal_pipe(nxt_task_t *task, void *obj,
void *data);
static void nxt_event_engine_post_handler(nxt_task_t *task, void *obj,
void *data);
static void nxt_event_engine_signal_pipe_error(nxt_task_t *task, void *obj,
void *data);
static void nxt_event_engine_signal_handler(nxt_task_t *task, void *obj,
void *data);
static nxt_work_handler_t nxt_event_engine_queue_pop(nxt_event_engine_t *engine,
nxt_task_t **task, void **obj, void **data);
nxt_event_engine_t *
nxt_event_engine_create(nxt_thread_t *thr,
const nxt_event_interface_t *interface, const nxt_sig_event_t *signals,
nxt_uint_t flags, nxt_uint_t batch)
{
nxt_uint_t events;
nxt_event_engine_t *engine;
engine = nxt_zalloc(sizeof(nxt_event_engine_t));
if (engine == NULL) {
return NULL;
}
engine->task.thread = thr;
engine->task.log = thr->log;
engine->task.ident = nxt_task_next_ident();
thr->engine = engine;
thr->fiber = &engine->fibers->fiber;
engine->batch = batch;
if (flags & NXT_ENGINE_FIBERS) {
engine->fibers = nxt_fiber_main_create(engine);
if (engine->fibers == NULL) {
goto fibers_fail;
}
}
engine->current_work_queue = &engine->fast_work_queue;
nxt_work_queue_cache_create(&engine->work_queue_cache, 0);
engine->fast_work_queue.cache = &engine->work_queue_cache;
engine->accept_work_queue.cache = &engine->work_queue_cache;
engine->read_work_queue.cache = &engine->work_queue_cache;
engine->socket_work_queue.cache = &engine->work_queue_cache;
engine->connect_work_queue.cache = &engine->work_queue_cache;
engine->write_work_queue.cache = &engine->work_queue_cache;
engine->shutdown_work_queue.cache = &engine->work_queue_cache;
engine->close_work_queue.cache = &engine->work_queue_cache;
nxt_work_queue_name(&engine->fast_work_queue, "fast");
nxt_work_queue_name(&engine->accept_work_queue, "accept");
nxt_work_queue_name(&engine->read_work_queue, "read");
nxt_work_queue_name(&engine->socket_work_queue, "socket");
nxt_work_queue_name(&engine->connect_work_queue, "connect");
nxt_work_queue_name(&engine->write_work_queue, "write");
nxt_work_queue_name(&engine->shutdown_work_queue, "shutdown");
nxt_work_queue_name(&engine->close_work_queue, "close");
if (signals != NULL) {
engine->signals = nxt_event_engine_signals(signals);
if (engine->signals == NULL) {
goto signals_fail;
}
engine->signals->handler = nxt_event_engine_signal_handler;
if (!interface->signal_support) {
if (nxt_event_engine_signals_start(engine) != NXT_OK) {
goto signals_fail;
}
}
}
/*
* Number of event set and timers changes should be at least twice
* more than number of events to avoid premature flushes of the changes.
* Fourfold is for sure.
*/
events = (batch != 0) ? batch : 32;
if (interface->create(engine, 4 * events, events) != NXT_OK) {
goto event_set_fail;
}
engine->event = *interface;
if (nxt_event_engine_post_init(engine) != NXT_OK) {
goto post_fail;
}
if (nxt_timers_init(&engine->timers, 4 * events) != NXT_OK) {
goto timers_fail;
}
nxt_thread_time_update(thr);
engine->timers.now = nxt_thread_monotonic_time(thr) / 1000000;
engine->max_connections = 0xffffffff;
nxt_queue_init(&engine->listen_connections);
nxt_queue_init(&engine->idle_connections);
#if !(NXT_THREADS)
if (interface->signal_support) {
thr->time.signal = -1;
}
#endif
return engine;
timers_fail:
post_fail:
interface->free(engine);
event_set_fail:
signals_fail:
nxt_free(engine->signals);
nxt_work_queue_cache_destroy(&engine->work_queue_cache);
nxt_free(engine->fibers);
fibers_fail:
nxt_free(engine);
return NULL;
}
static nxt_int_t
nxt_event_engine_post_init(nxt_event_engine_t *engine)
{
if (engine->event.enable_post != NULL) {
return engine->event.enable_post(engine, nxt_event_engine_post_handler);
}
#if !(NXT_THREADS)
/* Only signals may are posted in single-threaded mode. */
if (engine->event->signal_support) {
return NXT_OK;
}
#endif
if (nxt_event_engine_signal_pipe_create(engine) != NXT_OK) {
return NXT_ERROR;
}
return NXT_OK;
}
static nxt_int_t
nxt_event_engine_signal_pipe_create(nxt_event_engine_t *engine)
{
nxt_event_engine_pipe_t *pipe;
pipe = nxt_zalloc(sizeof(nxt_event_engine_pipe_t));
if (pipe == NULL) {
return NXT_ERROR;
}
engine->pipe = pipe;
/*
* An event engine pipe is in blocking mode for writer
* and in non-blocking node for reader.
*/
if (nxt_pipe_create(pipe->fds, 1, 0) != NXT_OK) {
nxt_free(pipe);
return NXT_ERROR;
}
pipe->event.fd = pipe->fds[0];
pipe->event.task = &engine->task;
pipe->event.read_work_queue = &engine->fast_work_queue;
pipe->event.read_handler = nxt_event_engine_signal_pipe;
pipe->event.write_work_queue = &engine->fast_work_queue;
pipe->event.error_handler = nxt_event_engine_signal_pipe_error;
pipe->event.log = engine->task.log;
nxt_fd_event_enable_read(engine, &pipe->event);
return NXT_OK;
}
static void
nxt_event_engine_signal_pipe_free(nxt_event_engine_t *engine)
{
nxt_event_engine_pipe_t *pipe;
pipe = engine->pipe;
if (pipe != NULL) {
if (pipe->event.read_work_queue != NULL) {
nxt_fd_event_close(engine, &pipe->event);
nxt_pipe_close(pipe->fds);
}
nxt_free(pipe);
}
}
static void
nxt_event_engine_signal_pipe_close(nxt_task_t *task, void *obj, void *data)
{
nxt_event_engine_pipe_t *pipe;
pipe = obj;
nxt_pipe_close(pipe->fds);
nxt_free(pipe);
}
void
nxt_event_engine_post(nxt_event_engine_t *engine, nxt_work_t *work)
{
nxt_debug(&engine->task, "event engine post");
nxt_locked_work_queue_add(&engine->locked_work_queue, work);
nxt_event_engine_signal(engine, 0);
}
void
nxt_event_engine_signal(nxt_event_engine_t *engine, nxt_uint_t signo)
{
u_char buf;
nxt_debug(&engine->task, "event engine signal:%ui", signo);
/*
* A signal number may be sent in a signal context, so the signal
* information cannot be passed via a locked work queue.
*/
if (engine->event.signal != NULL) {
engine->event.signal(engine, signo);
return;
}
buf = (u_char) signo;
(void) nxt_fd_write(engine->pipe->fds[1], &buf, 1);
}
static void
nxt_event_engine_signal_pipe(nxt_task_t *task, void *obj, void *data)
{
int i, n;
u_char signo;
nxt_bool_t post;
nxt_fd_event_t *ev;
u_char buf[128];
ev = obj;
nxt_debug(task, "engine signal pipe");
post = 0;
do {
n = nxt_fd_read(ev->fd, buf, sizeof(buf));
for (i = 0; i < n; i++) {
signo = buf[i];
nxt_debug(task, "engine pipe signo:%d", signo);
if (signo == 0) {
/* A post should be processed only once. */
post = 1;
} else {
nxt_event_engine_signal_handler(task,
(void *) (uintptr_t) signo, NULL);
}
}
} while (n == sizeof(buf));
if (post) {
nxt_event_engine_post_handler(task, NULL, NULL);
}
}
static void
nxt_event_engine_post_handler(nxt_task_t *task, void *obj, void *data)
{
nxt_thread_t *thread;
nxt_event_engine_t *engine;
thread = task->thread;
engine = thread->engine;
nxt_locked_work_queue_move(thread, &engine->locked_work_queue,
&engine->fast_work_queue);
}
static void
nxt_event_engine_signal_pipe_error(nxt_task_t *task, void *obj, void *data)
{
nxt_event_engine_t *engine;
engine = task->thread->engine;
nxt_log(task, NXT_LOG_CRIT, "engine pipe(%FD:%FD) event error",
engine->pipe->fds[0], engine->pipe->fds[1]);
nxt_fd_event_close(engine, &engine->pipe->event);
nxt_pipe_close(engine->pipe->fds);
}
static void
nxt_event_engine_signal_handler(nxt_task_t *task, void *obj, void *data)
{
uintptr_t signo;
const nxt_sig_event_t *sigev;
signo = (uintptr_t) obj;
for (sigev = task->thread->engine->signals->sigev;
sigev->signo != 0;
sigev++)
{
if (signo == (nxt_uint_t) sigev->signo) {
sigev->handler(task, (void *) signo, (void *) sigev->name);
return;
}
}
nxt_log(task, NXT_LOG_CRIT, "signal %ui handler not found", signo);
}
nxt_int_t
nxt_event_engine_change(nxt_thread_t *thr, nxt_task_t *task,
const nxt_event_interface_t *interface, nxt_uint_t batch)
{
nxt_uint_t events;
nxt_event_engine_t *engine;
engine = thr->engine;
engine->batch = batch;
if (!engine->event.signal_support && interface->signal_support) {
/*
* Block signal processing if the current event
* facility does not support signal processing.
*/
nxt_event_engine_signals_stop(engine);
/*
* Add to engine fast work queue the signal events possibly
* received before the blocking signal processing.
*/
nxt_event_engine_signal_pipe(task, &engine->pipe->event, NULL);
}
if (engine->pipe != NULL && interface->enable_post != NULL) {
/*
* An engine pipe must be closed after all signal events
* added above to engine fast work queue will be processed.
*/
nxt_work_queue_add(&engine->fast_work_queue,
nxt_event_engine_signal_pipe_close,
&engine->task, engine->pipe, NULL);
engine->pipe = NULL;
}
engine->event.free(engine);
events = (batch != 0) ? batch : 32;
if (interface->create(engine, 4 * events, events) != NXT_OK) {
return NXT_ERROR;
}
engine->event = *interface;
if (nxt_event_engine_post_init(engine) != NXT_OK) {
return NXT_ERROR;
}
if (engine->signals != NULL) {
if (!engine->event.signal_support) {
return nxt_event_engine_signals_start(engine);
}
#if (NXT_THREADS)
/*
* Reset the PID flag to start the signal thread if
* some future event facility will not support signals.
*/
engine->signals->process = 0;
#endif
}
return NXT_OK;
}
void
nxt_event_engine_free(nxt_event_engine_t *engine)
{
nxt_event_engine_signal_pipe_free(engine);
nxt_free(engine->signals);
nxt_work_queue_cache_destroy(&engine->work_queue_cache);
engine->event.free(engine);
/* TODO: free timers */
nxt_free(engine);
}
static nxt_work_handler_t
nxt_event_engine_queue_pop(nxt_event_engine_t *engine, nxt_task_t **task,
void **obj, void **data)
{
nxt_work_queue_t *wq, *last;
wq = engine->current_work_queue;
last = wq;
if (wq->head == NULL) {
wq = &engine->fast_work_queue;
if (wq->head == NULL) {
do {
engine->current_work_queue++;
wq = engine->current_work_queue;
if (wq > &engine->close_work_queue) {
wq = &engine->fast_work_queue;
engine->current_work_queue = wq;
}
if (wq->head != NULL) {
goto found;
}
} while (wq != last);
engine->current_work_queue = &engine->fast_work_queue;
return NULL;
}
}
found:
nxt_debug(&engine->task, "work queue: %s", wq->name);
return nxt_work_queue_pop(wq, task, obj, data);
}
void
nxt_event_engine_start(nxt_event_engine_t *engine)
{
void *obj, *data;
nxt_task_t *task;
nxt_msec_t timeout, now;
nxt_thread_t *thr;
nxt_work_handler_t handler;
thr = nxt_thread();
if (engine->fibers) {
/*
* _setjmp() cannot be wrapped in a function since return from
* the function clobbers stack used by future _setjmp() returns.
*/
_setjmp(engine->fibers->fiber.jmp);
/* A return point from fibers. */
}
thr->log = engine->task.log;
for ( ;; ) {
for ( ;; ) {
handler = nxt_event_engine_queue_pop(engine, &task, &obj, &data);
if (handler == NULL) {
break;
}
handler(task, obj, data);
}
/* Attach some event engine work queues in preferred order. */
timeout = nxt_timer_find(engine);
engine->event.poll(engine, timeout);
now = nxt_thread_monotonic_time(thr) / 1000000;
nxt_timer_expire(engine, now);
}
}