/* Copyright 2011 NORDUnet A/S. All rights reserved. See LICENSE for licensing information. */ #if defined HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include "debug.h" #include "event.h" #include "compat.h" #include "udp.h" /* Send one packet, the first in queue. */ static int _send (struct rs_connection *conn, int fd) { ssize_t r = 0; struct rs_message *msg = conn->out_queue; assert (msg->rpkt); assert (msg->rpkt->data); /* Send. */ r = compat_send (fd, msg->rpkt->data, msg->rpkt->length, 0); if (r == -1) { int sockerr = evutil_socket_geterror (msg->conn->fd); if (sockerr != EAGAIN) return rs_err_conn_push_fl (msg->conn, RSE_SOCKERR, __FILE__, __LINE__, "%d: send: %d (%s)", fd, sockerr, evutil_socket_error_to_string (sockerr)); } assert (r == msg->rpkt->length); /* Unlink the message. */ conn->out_queue = msg->next; /* If there are more messages in queue, add the write event again. */ if (msg->conn->out_queue) { r = event_add (msg->conn->wev, NULL); if (r < 0) return rs_err_conn_push_fl (msg->conn, RSE_EVENT, __FILE__, __LINE__, "event_add: %s", evutil_gai_strerror (r)); rs_debug (("%s: re-adding the write event\n", __func__)); } return RSE_OK; } /* Callback for conn->wev and conn->rev. FIXME: Rename. USER_DATA contains connection for EV_READ and a message for EV_WRITE. This is because we don't have a connect/establish entry point at the user level -- send implies connect so when we're connected we need the message to send. */ static void _evcb (evutil_socket_t fd, short what, void *user_data) { int err; rs_debug (("%s: fd=%d what =", __func__, fd)); if (what & EV_TIMEOUT) rs_debug ((" TIMEOUT")); if (what & EV_READ) rs_debug ((" READ")); if (what & EV_WRITE) rs_debug ((" WRITE")); rs_debug (("\n")); if (what & EV_READ) { /* Read a single UDP packet and stick it in USER_DATA. */ /* TODO: Verify that unsolicited packets are dropped. */ struct rs_message *msg = (struct rs_message *) user_data; ssize_t r = 0; assert (msg); assert (msg->conn); assert (msg->rpkt->data); r = compat_recv (fd, msg->rpkt->data, RS_MAX_PACKET_LEN, MSG_TRUNC); if (r == -1) { int sockerr = evutil_socket_geterror (msg->conn->fd); if (sockerr == EAGAIN) { /* FIXME: Really shouldn't happen since we've been told that fd is readable! */ rs_debug (("%s: EAGAIN reading UDP packet -- wot?")); return; } /* Hard error. */ rs_err_conn_push_fl (msg->conn, RSE_SOCKERR, __FILE__, __LINE__, "%d: recv: %d (%s)", fd, sockerr, evutil_socket_error_to_string (sockerr)); event_del (msg->conn->tev); return; } event_del (msg->conn->tev); if (r < 20 || r > RS_MAX_PACKET_LEN) /* Short or long packet. */ { rs_err_conn_push (msg->conn, RSE_INVALID_MSG, "invalid message length: %d", msg->rpkt->length); return; } msg->rpkt->length = (msg->rpkt->data[2] << 8) + msg->rpkt->data[3]; err = nr_packet_ok (msg->rpkt); if (err) { rs_err_conn_push_fl (msg->conn, err, __FILE__, __LINE__, "invalid message"); return; } /* Hand over message to user. This changes ownership of msg. Don't touch it afterwards -- it might have been freed. */ if (msg->conn->callbacks.received_cb) msg->conn->callbacks.received_cb (msg, msg->conn->user_data); } else if (what & EV_WRITE) { struct rs_message *msg = (struct rs_message *) user_data; assert (msg); assert (msg->conn); if (!msg->conn->is_connected) event_on_connect (msg->conn, msg); if (msg->conn->out_queue) if (_send (msg->conn, fd) == RSE_OK) if (msg->conn->callbacks.sent_cb) msg->conn->callbacks.sent_cb (msg->conn->user_data); } #if defined (DEBUG) if (what & EV_TIMEOUT) rs_debug (("%s: timeout on UDP event, shouldn't happen\n", __func__)); #endif } int udp_init (struct rs_connection *conn, struct rs_message *msg) { assert (!conn->bev); conn->rev = event_new (conn->evb, conn->fd, EV_READ|EV_PERSIST, _evcb, NULL); conn->wev = event_new (conn->evb, conn->fd, EV_WRITE, _evcb, NULL); if (!conn->rev || !conn->wev) { if (conn->rev) { event_free (conn->rev); conn->rev = NULL; } /* ENOMEM _or_ EINVAL but EINVAL only if we use EV_SIGNAL, at least for now (libevent-2.0.5). */ return rs_err_conn_push_fl (conn, RSE_NOMEM, __FILE__, __LINE__, NULL); } return RSE_OK; } int udp_init_retransmit_timer (struct rs_connection *conn) { assert (conn); if (conn->tev) event_free (conn->tev); conn->tev = evtimer_new (conn->evb, event_retransmit_timeout_cb, conn); if (!conn->tev) return rs_err_conn_push_fl (conn, RSE_EVENT, __FILE__, __LINE__, "evtimer_new"); return RSE_OK; }