/** * Enqueue message to be sent to the ip:port held in the supplied node. */ void mq_udp_node_putq(mqueue_t *q, pmsg_t *mb, const gnutella_node_t *n) { gnet_host_t to; mq_check_consistency(q); gnet_host_set(&to, n->addr, n->port); mq_udp_putq(q, mb, &to); }
/** * Route query hits from one node to the other. */ void dh_route(gnutella_node_t *src, gnutella_node_t *dest, int count) { pmsg_t *mb; struct dh_pmsg_info *pmi; const struct guid *muid; dqhit_t *dh; mqueue_t *mq; g_assert( gnutella_header_get_function(&src->header) == GTA_MSG_SEARCH_RESULTS); g_assert(count >= 0); if (!NODE_IS_WRITABLE(dest)) goto drop_shutdown; muid = gnutella_header_get_muid(&src->header); dh = dh_locate(muid); g_assert(dh != NULL); /* Must have called dh_got_results() first! */ if (GNET_PROPERTY(dh_debug) > 19) { g_debug("DH #%s got %d hit%s: " "msg=%u, hits_recv=%u, hits_sent=%u, hits_queued=%u", guid_hex_str(muid), count, plural(count), dh->msg_recv, dh->hits_recv, dh->hits_sent, dh->hits_queued); } mq = dest->outq; /* * Can we forward the message? */ switch (dh_can_forward(dh, mq, FALSE)) { case DH_DROP_FC: goto drop_flow_control; case DH_DROP_THROTTLE: goto drop_throttle; case DH_DROP_TRANSIENT: goto drop_transient; case DH_FORWARD: default: break; } /* * Allow message through. */ WALLOC(pmi); pmi->hits = count; dh->hits_queued += count; dh->msg_queued++; g_assert(dh->hits_queued >= UNSIGNED(count)); /* * Magic: we create an extended version of a pmsg_t that contains a * free routine, which will be invoked when the message queue frees * the message. * * This enables us to track how much results we already queued/sent. */ if (NODE_IS_UDP(dest)) { gnet_host_t to; pmsg_t *mbe; gnet_host_set(&to, dest->addr, dest->port); /* * With GUESS we may route back a query hit to an UDP node. */ if (GNET_PROPERTY(guess_server_debug) > 19) { g_debug("GUESS sending %d hit%s (%s) for #%s to %s", count, plural(count), NODE_CAN_SR_UDP(dest) ? "reliably" : NODE_CAN_INFLATE(dest) ? "possibly deflated" : "uncompressed", guid_hex_str(muid), node_infostr(dest)); } /* * Attempt to compress query hit if the destination supports it. * * If we're going to send the hit using semi-reliable UDP, there's * no need to compress beforehand, since the transport layer will * attempt its own compression anyway. */ if (!NODE_CAN_SR_UDP(dest) && NODE_CAN_INFLATE(dest)) { mb = gmsg_split_to_deflated_pmsg(&src->header, src->data, src->size + GTA_HEADER_SIZE); if (gnutella_header_get_ttl(pmsg_start(mb)) & GTA_UDP_DEFLATED) gnet_stats_inc_general(GNR_UDP_TX_COMPRESSED); } else { mb = gmsg_split_to_pmsg(&src->header, src->data, src->size + GTA_HEADER_SIZE); } mbe = pmsg_clone_extend(mb, dh_pmsg_free, pmi); pmsg_free(mb); if (NODE_CAN_SR_UDP(dest)) pmsg_mark_reliable(mbe); mq_udp_putq(mq, mbe, &to); } else { mb = gmsg_split_to_pmsg_extend(&src->header, src->data, src->size + GTA_HEADER_SIZE, dh_pmsg_free, pmi); mq_tcp_putq(mq, mb, src); if (GNET_PROPERTY(dh_debug) > 19) { g_debug("DH enqueued %d hit%s for #%s to %s", count, plural(count), guid_hex_str(muid), node_infostr(dest)); } } return; drop_shutdown: gnet_stats_count_dropped(src, MSG_DROP_SHUTDOWN); return; drop_flow_control: gnet_stats_count_dropped(src, MSG_DROP_FLOW_CONTROL); gnet_stats_count_flowc(&src->header, TRUE); return; drop_throttle: gnet_stats_count_dropped(src, MSG_DROP_THROTTLE); return; drop_transient: gnet_stats_count_dropped(src, MSG_DROP_TRANSIENT); return; }