void expire_rb_timeouts(struct uwsgi_rbtree *tree) {
uint64_t current = (uint64_t) uwsgi_now();
struct uwsgi_rb_timer *urbt;
struct uwsgi_signal_rb_timer *usrbt;
for (;;) {
urbt = uwsgi_min_rb_timer(tree, NULL);
if (urbt == NULL)
return;
if (urbt->value <= current) {
// remove the timeout and add another
usrbt = (struct uwsgi_signal_rb_timer *) urbt->data;
uwsgi_del_rb_timer(tree, urbt);
free(urbt);
usrbt->iterations_done++;
uwsgi_route_signal(usrbt->sig);
if (!usrbt->iterations || usrbt->iterations_done < usrbt->iterations) {
usrbt->uwsgi_rb_timer = uwsgi_add_rb_timer(tree, uwsgi_now() + usrbt->value, usrbt);
}
continue;
}
break;
}
}
void async_reset_request(struct wsgi_request *wsgi_req) {
if (wsgi_req->async_timeout) {
uwsgi_del_rb_timer(uwsgi.rb_async_timeouts, wsgi_req->async_timeout);
free(wsgi_req->async_timeout);
wsgi_req->async_timeout = NULL;
}
struct uwsgi_async_fd *uaf = wsgi_req->waiting_fds;
while (uaf) {
event_queue_del_fd(uwsgi.async_queue, uaf->fd, uaf->event);
uwsgi.async_waiting_fd_table[uaf->fd] = NULL;
struct uwsgi_async_fd *current_uaf = uaf;
uaf = current_uaf->next;
free(current_uaf);
}
wsgi_req->waiting_fds = NULL;
}
static void async_expire_timeouts(uint64_t now) {
struct wsgi_request *wsgi_req;
struct uwsgi_async_fd *uaf = NULL, *current_uaf;
struct uwsgi_rb_timer *urbt;
for (;;) {
urbt = uwsgi_min_rb_timer(uwsgi.rb_async_timeouts, NULL);
if (urbt == NULL)
return;
if (urbt->value <= now) {
wsgi_req = (struct wsgi_request *) urbt->data;
// timeout expired
wsgi_req->async_timed_out = 1;
uwsgi_del_rb_timer(uwsgi.rb_async_timeouts, wsgi_req->async_timeout);
free(wsgi_req->async_timeout);
wsgi_req->async_timeout = NULL;
uaf = wsgi_req->waiting_fds;
// remove fds from monitoring (no problem modifying the queue here, as the function is executed only when there are no fd ready)
while (uaf) {
event_queue_del_fd(uwsgi.async_queue, uaf->fd, uaf->event);
uwsgi.async_waiting_fd_table[uaf->fd] = NULL;
current_uaf = uaf;
uaf = current_uaf->next;
free(current_uaf);
}
wsgi_req->waiting_fds = NULL;
// put th request in the runqueue
runqueue_push(wsgi_req);
continue;
}
break;
}
}
void async_loop() {
if (uwsgi.async < 2) {
uwsgi_log("the async loop engine requires async mode (--async <n>)\n");
exit(1);
}
struct uwsgi_async_fd *tmp_uaf;
int interesting_fd, i;
struct uwsgi_rb_timer *min_timeout;
int timeout;
int is_a_new_connection;
int proto_parser_status;
uint64_t now;
static struct uwsgi_async_request *current_request = NULL, *next_async_request = NULL;
void *events = event_queue_alloc(64);
struct uwsgi_socket *uwsgi_sock;
uwsgi.async_runqueue = NULL;
uwsgi.async_runqueue_cnt = 0;
uwsgi.wait_write_hook = async_wait_fd_write;
uwsgi.wait_read_hook = async_wait_fd_read;
if (uwsgi.signal_socket > -1) {
event_queue_add_fd_read(uwsgi.async_queue, uwsgi.signal_socket);
event_queue_add_fd_read(uwsgi.async_queue, uwsgi.my_signal_socket);
}
// set a default request manager
if (!uwsgi.schedule_to_req)
uwsgi.schedule_to_req = async_schedule_to_req;
if (!uwsgi.schedule_to_main) {
uwsgi_log("*** WARNING *** async mode without coroutine/greenthread engine loaded !!!\n");
}
while (uwsgi.workers[uwsgi.mywid].manage_next_request) {
now = (uint64_t) uwsgi_now();
if (uwsgi.async_runqueue_cnt) {
timeout = 0;
}
else {
min_timeout = uwsgi_min_rb_timer(uwsgi.rb_async_timeouts, NULL);
if (min_timeout) {
timeout = min_timeout->value - now;
if (timeout <= 0) {
async_expire_timeouts(now);
timeout = 0;
}
}
else {
timeout = -1;
}
}
uwsgi.async_nevents = event_queue_wait_multi(uwsgi.async_queue, timeout, events, 64);
now = (uint64_t) uwsgi_now();
// timeout ???
if (uwsgi.async_nevents == 0) {
async_expire_timeouts(now);
}
for (i = 0; i < uwsgi.async_nevents; i++) {
// manage events
interesting_fd = event_queue_interesting_fd(events, i);
if (uwsgi.signal_socket > -1 && (interesting_fd == uwsgi.signal_socket || interesting_fd == uwsgi.my_signal_socket)) {
uwsgi_receive_signal(interesting_fd, "worker", uwsgi.mywid);
continue;
}
is_a_new_connection = 0;
// new request coming in ?
uwsgi_sock = uwsgi.sockets;
while (uwsgi_sock) {
if (interesting_fd == uwsgi_sock->fd) {
is_a_new_connection = 1;
uwsgi.wsgi_req = find_first_available_wsgi_req();
if (uwsgi.wsgi_req == NULL) {
uwsgi_async_queue_is_full((time_t)now);
break;
}
wsgi_req_setup(uwsgi.wsgi_req, uwsgi.wsgi_req->async_id, uwsgi_sock);
if (wsgi_req_simple_accept(uwsgi.wsgi_req, interesting_fd)) {
uwsgi.async_queue_unused_ptr++;
uwsgi.async_queue_unused[uwsgi.async_queue_unused_ptr] = uwsgi.wsgi_req;
break;
}
if (wsgi_req_async_recv(uwsgi.wsgi_req)) {
uwsgi.async_queue_unused_ptr++;
uwsgi.async_queue_unused[uwsgi.async_queue_unused_ptr] = uwsgi.wsgi_req;
break;
}
if (uwsgi.wsgi_req->do_not_add_to_async_queue) {
runqueue_push(uwsgi.wsgi_req);
}
break;
}
uwsgi_sock = uwsgi_sock->next;
}
if (!is_a_new_connection) {
// proto event
uwsgi.wsgi_req = find_wsgi_req_proto_by_fd(interesting_fd);
if (uwsgi.wsgi_req) {
proto_parser_status = uwsgi.wsgi_req->socket->proto(uwsgi.wsgi_req);
// reset timeout
uwsgi_del_rb_timer(uwsgi.rb_async_timeouts, uwsgi.wsgi_req->async_timeout);
free(uwsgi.wsgi_req->async_timeout);
uwsgi.wsgi_req->async_timeout = NULL;
// parsing complete
if (!proto_parser_status) {
// remove fd from event poll and fd proto table
uwsgi.async_proto_fd_table[interesting_fd] = NULL;
event_queue_del_fd(uwsgi.async_queue, interesting_fd, event_queue_read());
// put request in the runqueue
runqueue_push(uwsgi.wsgi_req);
continue;
}
else if (proto_parser_status < 0) {
if (proto_parser_status == -1)
uwsgi_log("error parsing request\n");
uwsgi.async_proto_fd_table[interesting_fd] = NULL;
close(interesting_fd);
continue;
}
// re-add timer
async_add_timeout(uwsgi.wsgi_req, uwsgi.shared->options[UWSGI_OPTION_SOCKET_TIMEOUT]);
continue;
}
// app event
uwsgi.wsgi_req = find_wsgi_req_by_fd(interesting_fd);
// unknown fd, remove it (for safety)
if (uwsgi.wsgi_req == NULL) {
close(interesting_fd);
continue;
}
// remove all the fd monitors and timeout
while (uwsgi.wsgi_req->waiting_fds) {
tmp_uaf = uwsgi.wsgi_req->waiting_fds;
uwsgi.async_waiting_fd_table[tmp_uaf->fd] = NULL;
event_queue_del_fd(uwsgi.async_queue, tmp_uaf->fd, tmp_uaf->event);
uwsgi.wsgi_req->waiting_fds = tmp_uaf->next;
free(tmp_uaf);
}
uwsgi.wsgi_req->waiting_fds = NULL;
if (uwsgi.wsgi_req->async_timeout) {
uwsgi_del_rb_timer(uwsgi.rb_async_timeouts, uwsgi.wsgi_req->async_timeout);
free(uwsgi.wsgi_req->async_timeout);
uwsgi.wsgi_req->async_timeout = NULL;
}
uwsgi.wsgi_req->async_ready_fd = 1;
uwsgi.wsgi_req->async_last_ready_fd = interesting_fd;
// put the request in the runqueue again
runqueue_push(uwsgi.wsgi_req);
// avoid managing other enqueued events...
break;
}
}
// event queue managed, give cpu to runqueue
if (!current_request)
current_request = uwsgi.async_runqueue;
if (uwsgi.async_runqueue_cnt) {
uwsgi.wsgi_req = current_request->wsgi_req;
uwsgi.schedule_to_req();
uwsgi.wsgi_req->switches++;
next_async_request = current_request->next;
// request ended ?
if (uwsgi.wsgi_req->async_status <= UWSGI_OK) {
// remove all the monitored fds and timeout
while (uwsgi.wsgi_req->waiting_fds) {
tmp_uaf = uwsgi.wsgi_req->waiting_fds;
uwsgi.async_waiting_fd_table[tmp_uaf->fd] = NULL;
event_queue_del_fd(uwsgi.async_queue, tmp_uaf->fd, tmp_uaf->event);
uwsgi.wsgi_req->waiting_fds = tmp_uaf->next;
free(tmp_uaf);
}
uwsgi.wsgi_req->waiting_fds = NULL;
if (uwsgi.wsgi_req->async_timeout) {
uwsgi_del_rb_timer(uwsgi.rb_async_timeouts, uwsgi.wsgi_req->async_timeout);
free(uwsgi.wsgi_req->async_timeout);
uwsgi.wsgi_req->async_timeout = NULL;
}
// remove from the list
runqueue_remove(current_request);
uwsgi_close_request(uwsgi.wsgi_req);
// push wsgi_request in the unused stack
uwsgi.async_queue_unused_ptr++;
uwsgi.async_queue_unused[uwsgi.async_queue_unused_ptr] = uwsgi.wsgi_req;
}
else if (uwsgi.wsgi_req->waiting_fds || uwsgi.wsgi_req->async_timeout) {
// remove this request from suspended list
runqueue_remove(current_request);
}
current_request = next_async_request;
}
}
}
