/* * Copyright (C) Igor Sysoev * Copyright (C) NGINX, Inc. */ #include void nxt_event_conn_read(nxt_task_t *task, nxt_event_conn_t *c) { nxt_work_queue_t *wq; nxt_work_handler_t handler; handler = c->io->read; if (task->thread->engine->batch != 0) { wq = &task->thread->engine->read_work_queue; c->socket.read_work_queue = wq; nxt_work_queue_add( wq, handler, task, c, c->socket.data); return; } handler(task, c, c->socket.data); } void nxt_event_conn_io_read(nxt_task_t *task, void *obj, void *data) { ssize_t n; nxt_buf_t *b; nxt_bool_t batch; nxt_event_conn_t *c; nxt_event_engine_t *engine; nxt_work_handler_t handler; const nxt_event_conn_state_t *state; c = obj; nxt_debug(task, "event conn read fd:%d rdy:%d cl:%d", c->socket.fd, c->socket.read_ready, c->socket.closed); engine = task->thread->engine; batch = (engine->batch != 0); state = c->read_state; if (c->socket.read_ready) { b = c->read; if (b == NULL) { /* Just test descriptor readiness. */ goto ready; } if (c->peek == 0) { n = c->io->recvbuf(c, b); } else { n = c->io->recv(c, b->mem.free, c->peek, MSG_PEEK); } if (n > 0) { c->nbytes = n; if (state->process_buffers) { nxt_recvbuf_update(b, n); } else { /* * A ready_handler must not be queued, instead buffers * must be processed by the ready_handler at once after * recv() operation, otherwise two sequentially queued * recv() operations will read in the same buffers. */ batch = 0; } goto ready; } if (n != NXT_AGAIN) { nxt_event_fd_block_read(engine, &c->socket); nxt_event_timer_disable(&c->read_timer); if (n == 0) { handler = state->close_handler; goto done; } /* n == NXT_ERROR */ handler = state->error_handler; goto done; } } /* * Here c->io->read() is assigned instead of direct * nxt_event_conn_io_read() because the function can * be called by nxt_kqueue_event_conn_io_read(). */ c->socket.read_handler = c->io->read; c->socket.error_handler = state->error_handler; if (c->read_timer.state == NXT_EVENT_TIMER_DISABLED || nxt_event_fd_is_disabled(c->socket.read)) { /* Timer may be set or reset. */ nxt_event_conn_timer(engine, c, state, &c->read_timer); if (nxt_event_fd_is_disabled(c->socket.read)) { nxt_event_fd_enable_read(engine, &c->socket); } } return; ready: nxt_event_fd_block_read(engine, &c->socket); if (state->autoreset_timer) { nxt_event_timer_disable(&c->read_timer); } handler = state->ready_handler; done: if (batch) { nxt_work_queue_add(c->read_work_queue, handler, task, c, data); } else { handler(task, c, data); } } ssize_t nxt_event_conn_io_recvbuf(nxt_event_conn_t *c, nxt_buf_t *b) { ssize_t n; nxt_err_t err; nxt_uint_t niov; struct iovec iov[NXT_IOBUF_MAX]; nxt_recvbuf_coalesce_t rb; rb.buf = b; rb.iobuf = iov; rb.nmax = NXT_IOBUF_MAX; rb.size = 0; niov = nxt_recvbuf_mem_coalesce(&rb); if (niov == 1) { /* Disposal of surplus kernel iovec copy-in operation. */ return nxt_event_conn_io_recv(c, iov->iov_base, iov->iov_len, 0); } for ( ;; ) { n = readv(c->socket.fd, iov, niov); err = (n == -1) ? nxt_socket_errno : 0; nxt_debug(c->socket.task, "readv(%d, %ui): %z", c->socket.fd, niov, n); if (n > 0) { if ((size_t) n < rb.size) { c->socket.read_ready = 0; } return n; } if (n == 0) { c->socket.closed = 1; c->socket.read_ready = 0; return n; } /* n == -1 */ switch (err) { case NXT_EAGAIN: nxt_debug(c->socket.task, "readv() %E", err); c->socket.read_ready = 0; return NXT_AGAIN; case NXT_EINTR: nxt_debug(c->socket.task, "readv() %E", err); continue; default: c->socket.error = err; nxt_log_error(nxt_socket_error_level(err, c->socket.log_error), c->socket.log, "readv(%d, %ui) failed %E", c->socket.fd, niov, err); return NXT_ERROR; } } } ssize_t nxt_event_conn_io_recv(nxt_event_conn_t *c, void *buf, size_t size, nxt_uint_t flags) { ssize_t n; nxt_err_t err; for ( ;; ) { n = recv(c->socket.fd, buf, size, flags); err = (n == -1) ? nxt_socket_errno : 0; nxt_debug(c->socket.task, "recv(%d, %p, %uz, 0x%ui): %z", c->socket.fd, buf, size, flags, n); if (n > 0) { if ((size_t) n < size) { c->socket.read_ready = 0; } return n; } if (n == 0) { c->socket.closed = 1; c->socket.read_ready = 0; return n; } /* n == -1 */ switch (err) { case NXT_EAGAIN: nxt_log_debug(c->socket.log, "recv() %E", err); c->socket.read_ready = 0; return NXT_AGAIN; case NXT_EINTR: nxt_log_debug(c->socket.log, "recv() %E", err); continue; default: c->socket.error = err; nxt_log_error(nxt_socket_error_level(err, c->socket.log_error), c->socket.log, "recv(%d, %p, %uz, %ui) failed %E", c->socket.fd, buf, size, flags, err); return NXT_ERROR; } } }