Exemplo n.º 1
0
int link::credit() const {
    pn_link_t *lnk = pn_object();
    if (pn_link_is_sender(lnk))
        return pn_link_credit(lnk);
    link_context& lctx = link_context::get(lnk);
    return pn_link_credit(lnk) + lctx.pending_credit;
}
void messaging_adapter::on_link_flow(proton_event &pe) {
    pn_event_t *pne = pe.pn_event();
    pn_link_t *lnk = pn_event_link(pne);
    // TODO: process session flow data, if no link-specific data, just return.
    if (!lnk) return;
    link_context& lctx = link_context::get(lnk);
    int state = pn_link_state(lnk);
    if ((state&PN_LOCAL_ACTIVE) && (state&PN_REMOTE_ACTIVE)) {
        if (pn_link_is_sender(lnk)) {
            if (pn_link_credit(lnk) > 0) {
                sender s(make_wrapper<sender>(lnk));
                if (pn_link_get_drain(lnk)) {
                    if (!lctx.draining) {
                        lctx.draining = true;
                        delegate_.on_sender_drain_start(s);
                    }
                }
                else {
                    lctx.draining = false;
                }
                // create on_message extended event
                delegate_.on_sendable(s);
            }
        }
        else {
            // receiver
            if (!pn_link_credit(lnk) && lctx.draining) {
                lctx.draining = false;
                receiver r(make_wrapper<receiver>(lnk));
                delegate_.on_receiver_drain_finish(r);
            }
        }
    }
    credit_topup(lnk);
}
Exemplo n.º 3
0
bool link::draining() {
    pn_link_t *lnk = pn_object();
    link_context& lctx = link_context::get(lnk);
    if (pn_link_is_sender(lnk))
        return pn_link_credit(lnk) > 0 && lctx.draining;
    else
        return lctx.draining;
}
void messaging_adapter::on_link_flow(event &e) {
    proton_event *pe = dynamic_cast<proton_event*>(&e);
    if (pe) {
        pn_event_t *pne = pe->pn_event();
        pn_link_t *lnk = pn_event_link(pne);
        if (lnk && pn_link_is_sender(lnk) && pn_link_credit(lnk) > 0) {
            // create on_message extended event
            messaging_event mevent(messaging_event::SENDABLE, *pe);
            delegate_.on_sendable(mevent);;
        }
   }
}
Exemplo n.º 5
0
SenderContext::Delivery* SenderContext::send(const qpid::messaging::Message& message)
{
    if (processUnsettled() < capacity && pn_link_credit(sender)) {
        deliveries.push_back(Delivery(nextId++));
        Delivery& delivery = deliveries.back();
        delivery.encode(MessageImplAccess::get(message), address);
        delivery.send(sender);
        return &delivery;
    } else {
        return 0;
    }
}
Exemplo n.º 6
0
/**
 * Allows the link to initiate any outgoing transfers
 */
bool OutgoingFromRelay::doWork()
{
    relay->check();
    relay->setCredit(pn_link_credit(link));
    bool worked = relay->send(link);
    pn_delivery_t *d = pn_link_current(link);
    if (d && pn_delivery_writable(d)) {
        handle(d);
        return true;
    }
    return worked;
}
Exemplo n.º 7
0
static void CORE_link_push(void *context, qdr_link_t *link)
{
    qd_router_t *router = (qd_router_t*) context;
    qd_link_t   *qlink  = (qd_link_t*) qdr_link_get_context(link);
    if (!qlink)
        return;
    
    pn_link_t *plink = qd_link_pn(qlink);

    if (plink) {
        int link_credit = pn_link_credit(plink);
        qdr_link_process_deliveries(router->router_core, link, link_credit);
    }
}
Exemplo n.º 8
0
tracker sender::send(const message &message) {
    uint64_t id = ++tag_counter;
    pn_delivery_t *dlv =
        pn_delivery(pn_object(), pn_dtag(reinterpret_cast<const char*>(&id), sizeof(id)));
    std::vector<char> buf;
    message.encode(buf);
    assert(!buf.empty());
    pn_link_send(pn_object(), &buf[0], buf.size());
    pn_link_advance(pn_object());
    if (pn_link_snd_settle_mode(pn_object()) == PN_SND_SETTLED)
        pn_delivery_settle(dlv);
    if (!pn_link_credit(pn_object()))
        link_context::get(pn_object()).draining = false;
    return make_wrapper<tracker>(dlv);
}
Exemplo n.º 9
0
bool ConnectionContext::fetch(boost::shared_ptr<SessionContext> ssn, boost::shared_ptr<ReceiverContext> lnk, qpid::messaging::Message& message, qpid::messaging::Duration timeout)
{
    {
        qpid::sys::ScopedLock<qpid::sys::Monitor> l(lock);
        if (!lnk->capacity) {
            pn_link_flow(lnk->receiver, 1);
            wakeupDriver();
        }
    }
    if (get(ssn, lnk, message, timeout)) {
        qpid::sys::ScopedLock<qpid::sys::Monitor> l(lock);
        if (lnk->capacity) {
            pn_link_flow(lnk->receiver, 1);//TODO: is this the right approach?
            wakeupDriver();
        }
        return true;
    } else {
        {
            qpid::sys::ScopedLock<qpid::sys::Monitor> l(lock);
            pn_link_drain(lnk->receiver, 0);
            wakeupDriver();
            while (pn_link_credit(lnk->receiver) && !pn_link_queued(lnk->receiver)) {
                QPID_LOG(debug, "Waiting for message or for credit to be drained: credit=" << pn_link_credit(lnk->receiver) << ", queued=" << pn_link_queued(lnk->receiver));
                wait();
            }
            if (lnk->capacity && pn_link_queued(lnk->receiver) == 0) {
                pn_link_flow(lnk->receiver, lnk->capacity);
            }
        }
        if (get(ssn, lnk, message, qpid::messaging::Duration::IMMEDIATE)) {
            qpid::sys::ScopedLock<qpid::sys::Monitor> l(lock);
            if (lnk->capacity) {
                pn_link_flow(lnk->receiver, 1);
                wakeupDriver();
            }
            return true;
        } else {
            return false;
        }
    }
}
void messaging_adapter::on_delivery(proton_event &pe) {
    pn_event_t *cevent = pe.pn_event();
    pn_link_t *lnk = pn_event_link(cevent);
    pn_delivery_t *dlv = pn_event_delivery(cevent);
    link_context& lctx = link_context::get(lnk);

    if (pn_link_is_receiver(lnk)) {
        delivery d(make_wrapper<delivery>(dlv));
        if (!pn_delivery_partial(dlv) && pn_delivery_readable(dlv)) {
            // generate on_message
            pn_connection_t *pnc = pn_session_connection(pn_link_session(lnk));
            connection_context& ctx = connection_context::get(pnc);
            // Reusable per-connection message.
            // Avoid expensive heap malloc/free overhead.
            // See PROTON-998
            class message &msg(ctx.event_message);
            msg.decode(d);
            if (pn_link_state(lnk) & PN_LOCAL_CLOSED) {
                if (lctx.auto_accept)
                    d.release();
            } else {
                delegate_.on_message(d, msg);
                if (lctx.auto_accept && !d.settled())
                    d.accept();
                if (lctx.draining && !pn_link_credit(lnk)) {
                    lctx.draining = false;
                    receiver r(make_wrapper<receiver>(lnk));
                    delegate_.on_receiver_drain_finish(r);
                }
            }
        }
        else if (pn_delivery_updated(dlv) && d.settled()) {
            delegate_.on_delivery_settle(d);
        }
        if (lctx.draining && pn_link_credit(lnk) == 0) {
            lctx.draining = false;
            pn_link_set_drain(lnk, false);
            receiver r(make_wrapper<receiver>(lnk));
            delegate_.on_receiver_drain_finish(r);
            if (lctx.pending_credit) {
                pn_link_flow(lnk, lctx.pending_credit);
                lctx.pending_credit = 0;
            }
        }
        credit_topup(lnk);
    } else {
        tracker t(make_wrapper<tracker>(dlv));
        // sender
        if (pn_delivery_updated(dlv)) {
            uint64_t rstate = pn_delivery_remote_state(dlv);
            if (rstate == PN_ACCEPTED) {
                delegate_.on_tracker_accept(t);
            }
            else if (rstate == PN_REJECTED) {
                delegate_.on_tracker_reject(t);
            }
            else if (rstate == PN_RELEASED || rstate == PN_MODIFIED) {
                delegate_.on_tracker_release(t);
            }

            if (t.settled()) {
                delegate_.on_tracker_settle(t);
            }
            if (lctx.auto_settle)
                t.settle();
        }
    }
}
Exemplo n.º 11
0
void connection_dispatch(pn_handler_t *h, pn_event_t *event, pn_event_type_t type)
{
  connection_context_t *cc = connection_context(h);
  bool replying = cc->global->opts->reply;

  switch (type) {
  case PN_LINK_REMOTE_OPEN:
    {
      pn_link_t *link = pn_event_link(event);
      if (pn_link_is_receiver(link)) {
        check(cc->recv_link == NULL, "Multiple incomming links on one connection");
        cc->recv_link = link;
        pn_connection_t *conn = pn_event_connection(event);
        pn_list_add(cc->global->active_connections, conn);
        if (cc->global->shutting_down) {
          pn_connection_close(conn);
          break;
        }
        if (replying) {
          // Set up a reply link and defer granting credit to the incoming link
          pn_connection_t *conn = pn_session_connection(pn_link_session(link));
          pn_session_t *ssn = pn_session(conn);
          pn_session_open(ssn);
          char name[100]; // prefer a multiplatform uuid generator
          sprintf(name, "reply_sender_%d", cc->connection_id);
          cc->reply_link = pn_sender(ssn, name);
          pn_link_open(cc->reply_link);
        }
        else {
          pn_flowcontroller_t *fc = pn_flowcontroller(1024);
          pn_handler_add(h, fc);
          pn_decref(fc);
        }
      }
    }
    break;
  case PN_LINK_FLOW:
    {
      if (replying) {
        pn_link_t *reply_link = pn_event_link(event);
        // pn_flowcontroller handles the non-reply case
        check(reply_link == cc->reply_link, "internal error");

        // Grant the sender as much credit as just given to us for replies
        int delta = pn_link_credit(reply_link) - pn_link_credit(cc->recv_link);
        if (delta > 0)
          pn_link_flow(cc->recv_link, delta);
      }
    }
    break;
  case PN_DELIVERY:
    {
      pn_link_t *recv_link = pn_event_link(event);
      pn_delivery_t *dlv = pn_event_delivery(event);
      if (pn_link_is_receiver(recv_link) && !pn_delivery_partial(dlv)) {
        if (cc->global->received == 0) statistics_start(cc->global->stats);

        size_t encoded_size = pn_delivery_pending(dlv);
        cc->global->encoded_data = ensure_buffer(cc->global->encoded_data, encoded_size,
                                                 &cc->global->encoded_data_size);
        check(cc->global->encoded_data, "decoding buffer realloc failure");

        ssize_t n = pn_link_recv(recv_link, cc->global->encoded_data, encoded_size);
        check(n == (ssize_t) encoded_size, "message data read fail");
        pn_message_t *msg = cc->global->message;
        int err = pn_message_decode(msg, cc->global->encoded_data, n);
        check(err == 0, "message decode error");
        cc->global->received++;
        pn_delivery_settle(dlv);
        statistics_msg_received(cc->global->stats, msg);

        if (replying) {
          const char *reply_addr = pn_message_get_reply_to(msg);
          if (reply_addr) {
            pn_link_t *rl = cc->reply_link;
            check(pn_link_credit(rl) > 0, "message received without corresponding reply credit");
            LOG("Replying to: %s\n", reply_addr );

            pn_message_set_address(msg, reply_addr);
            pn_message_set_creation_time(msg, msgr_now());

            char tag[8];
            void *ptr = &tag;
            *((uint64_t *) ptr) = cc->global->sent;
            pn_delivery_t *dlv = pn_delivery(rl, pn_dtag(tag, 8));
            size_t size = cc->global->encoded_data_size;
            int err = pn_message_encode(msg, cc->global->encoded_data, &size);
            check(err == 0, "message encoding error");
            pn_link_send(rl, cc->global->encoded_data, size);
            pn_delivery_settle(dlv);

            cc->global->sent++;
          }
        }
      }
      if (cc->global->received >= cc->global->opts->msg_count) {
        global_shutdown(cc->global);
      }
    }
    break;
  case PN_CONNECTION_UNBOUND:
    {
      pn_connection_t *conn = pn_event_connection(event);
      pn_list_remove(cc->global->active_connections, conn);
      pn_connection_release(conn);
    }
    break;
  default:
    break;
  }
}
Exemplo n.º 12
0
int 
main ( int argc, char ** argv )
{
  char info[1000];
  int  expected = (argc > 1) ? atoi(argv[1]) : 100000;
  int  received = 0;
  int  size     = 32;
  int  msg_size = 50;
  bool done     = false;
  int  initial_credit   = 500,
       new_credit       = 250,
       low_credit_limit = 250;

  char const * host = "0.0.0.0";
  char const * port = "5672";

  bool sasl_done = false;

  pn_driver_t     * driver;
  pn_listener_t   * listener;
  pn_connector_t  * connector;
  pn_connection_t * connection;
  pn_session_t    * session;
  pn_link_t       * link;
  pn_delivery_t   * delivery;


  char * message_data          = (char *) malloc ( MY_BUF_SIZE );
  int    message_data_capacity = MY_BUF_SIZE;


  fprintf ( stderr, "drecv expecting %d messages.\n", expected );
  driver = pn_driver ( );

  if ( ! pn_listener(driver, host, port, 0) ) 
  {
    fprintf ( stderr, "listener creation failed.\n" );
    exit ( 1 );
  }

  while ( ! done)
  {
    pn_driver_wait ( driver, -1 );

    if ( (listener = pn_driver_listener(driver)) ) 
      pn_listener_accept( listener );

    if ( (connector = pn_driver_connector(driver)) ) 
    {
      pn_connector_process ( connector );

      if ( ! sasl_done )
        if( ! (sasl_done = get_sasl_over_with(connector) ))
          continue;

      connection = pn_connector_connection ( connector );


      /*=========================================================
        Open everything that is ready on the 
        other side but not here.
      =========================================================*/
      pn_state_t hes_ready_im_not = PN_LOCAL_UNINIT | PN_REMOTE_ACTIVE;

      if (pn_connection_state(connection) == hes_ready_im_not)
        pn_connection_open( connection);


      for ( session = pn_session_head(connection, hes_ready_im_not);
            session;
            session = pn_session_next(session, hes_ready_im_not)
          )
        pn_session_open(session);


      for ( link = pn_link_head(connection, hes_ready_im_not);
            link;
            link = pn_link_next(link, hes_ready_im_not)
          )
       {
         pn_terminus_copy(pn_link_source(link), pn_link_remote_source(link));
         pn_terminus_copy(pn_link_target(link), pn_link_remote_target(link));
         pn_link_open ( link );
         if ( pn_link_is_receiver(link) ) 
           pn_link_flow ( link, initial_credit );
       }


      /*==========================================================
        Get all available deliveries.
      ==========================================================*/
      for ( delivery = pn_work_head ( connection );
            delivery;
            delivery = pn_work_next ( delivery )
          )
      {
        if ( pn_delivery_readable(delivery) ) 
        {
          link = pn_delivery_link ( delivery );
          while ( PN_EOS != pn_link_recv(link, message_data, MY_BUF_SIZE) )
            ;
          pn_link_advance ( link );
          pn_delivery_update ( delivery, PN_ACCEPTED );
          pn_delivery_settle ( delivery );


          if ( ++ received >= expected )
          {
            sprintf ( info, "received %d messages", received );
            print_timestamp ( stderr, info );
            done = true;
          }

          // a progress report for long tests.
          if ( ! (received % 5000000) )
            fprintf ( stderr, "received: %d\n", received );


          if ( pn_link_credit(link) <= low_credit_limit ) 
            pn_link_flow ( link, new_credit );
        } 
        else
        {
          // TODO
          // Why am I getting writables?
          // And what to do with them?
        }
      } 


      /*===============================================================
        Shut down everything that the other side has closed.
      ===============================================================*/
      pn_state_t active_here_closed_there = PN_LOCAL_ACTIVE | PN_REMOTE_CLOSED;

      if ( pn_connection_state(connection) == active_here_closed_there )
        pn_connection_close ( connection );

      for ( session = pn_session_head(connection, active_here_closed_there);
            session;
            session = pn_session_next(session, active_here_closed_there)
          )
        pn_session_close ( session );

      for ( link = pn_link_head(connection, active_here_closed_there);
            link;
            link = pn_link_next(link, active_here_closed_there)
          )
        pn_link_close ( link );

      if ( pn_connector_closed(connector) ) 
      {
        pn_connection_free ( pn_connector_connection(connector) );
        pn_connector_free ( connector );
        done = true;
      } 
      else 
        pn_connector_process(connector);
    }
  }

  pn_driver_free(driver);

  return 0;
}
Exemplo n.º 13
0
/* Process each event posted by the reactor.
 */
static void event_handler(pn_handler_t *handler,
                          pn_event_t *event,
                          pn_event_type_t type)
{
    app_data_t *data = GET_APP_DATA(handler);

    switch (type) {

    case PN_CONNECTION_INIT: {
        // Create and open all the endpoints needed to send a message
        //
        pn_connection_t *conn;
        pn_session_t *ssn;
        pn_link_t *sender;

        conn = pn_event_connection(event);
        pn_connection_open(conn);
        ssn = pn_session(conn);
        pn_session_open(ssn);
        sender = pn_sender(ssn, "MySender");
        // we do not wait for ack until the last message
        pn_link_set_snd_settle_mode(sender, PN_SND_MIXED);
        if (!data->anon) {
            pn_terminus_set_address(pn_link_target(sender), data->target);
        }
        pn_link_open(sender);
    } break;

    case PN_LINK_FLOW: {
        // the remote has given us some credit, now we can send messages
        //
        static long tag = 0;  // a simple tag generator
        pn_delivery_t *delivery;
        pn_link_t *sender = pn_event_link(event);
        int credit = pn_link_credit(sender);
        while (credit > 0 && data->count > 0) {
            --credit;
            --data->count;
            ++tag;
            delivery = pn_delivery(sender,
                                   pn_dtag((const char *)&tag, sizeof(tag)));
            pn_link_send(sender, data->msg_data, data->msg_len);
            pn_link_advance(sender);
            if (data->count > 0) {
                // send pre-settled until the last one, then wait for an ack on
                // the last sent message. This allows the sender to send
                // messages as fast as possible and then exit when the consumer
                // has dealt with the last one.
                //
                pn_delivery_settle(delivery);
            }
        }
    } break;

    case PN_DELIVERY: {
        // Since the example sends all messages but the last pre-settled
        // (pre-acked), only the last message's delivery will get updated with
        // the remote state (acked/nacked).
        //
        pn_delivery_t *dlv = pn_event_delivery(event);
        if (pn_delivery_updated(dlv) && pn_delivery_remote_state(dlv)) {
            uint64_t rs = pn_delivery_remote_state(dlv);
            int done = 1;
            switch (rs) {
            case PN_RECEIVED:
                // This is not a terminal state - it is informational, and the
                // peer is still processing the message.
                done = 0;
                break;
            case PN_ACCEPTED:
                pn_delivery_settle(dlv);
                if (!quiet) fprintf(stdout, "Send complete!\n");
                break;
            case PN_REJECTED:
            case PN_RELEASED:
            case PN_MODIFIED:
                pn_delivery_settle(dlv);
                fprintf(stderr, "Message not accepted - code:%lu\n", (unsigned long)rs);
                break;
            default:
                // ??? no other terminal states defined, so ignore anything else
                pn_delivery_settle(dlv);
                fprintf(stderr, "Unknown delivery failure - code=%lu\n", (unsigned long)rs);
                break;
            }

            if (done) {
                // initiate clean shutdown of the endpoints
                pn_link_t *link = pn_delivery_link(dlv);
                pn_session_t *ssn = pn_link_session(link);
                pn_link_close(link);
                pn_session_close(ssn);
                pn_connection_close(pn_session_connection(ssn));
            }
        }
    } break;

    case PN_TRANSPORT_ERROR: {
        // The connection to the peer failed.
        //
        pn_transport_t *tport = pn_event_transport(event);
        pn_condition_t *cond = pn_transport_condition(tport);
        fprintf(stderr, "Network transport failed!\n");
        if (pn_condition_is_set(cond)) {
            const char *name = pn_condition_get_name(cond);
            const char *desc = pn_condition_get_description(cond);
            fprintf(stderr, "    Error: %s  Description: %s\n",
                    (name) ? name : "<error name not provided>",
                    (desc) ? desc : "<no description provided>");
        }
        // pn_reactor_process() will exit with a false return value, stopping
        // the main loop.
    } break;

    default:
        break;
    }
}
Exemplo n.º 14
0
int link::credit() const {
    return pn_link_credit(pn_cast(this));
}
Exemplo n.º 15
0
int link::credit() const {
    return pn_link_credit(pn_object());
}
Exemplo n.º 16
0
/* is the link ready to send messages? */
static sbool _is_ready(pn_link_t *link)
{
	return (link
	        && pn_link_state(link) == (PN_LOCAL_ACTIVE | PN_REMOTE_ACTIVE)
	        && pn_link_credit(link) > 0);
}
Exemplo n.º 17
0
void sender_dispatch(pn_handler_t *h, pn_event_t *event, pn_event_type_t type)
{
  sender_context_t *sc = sender_context(h);

  switch (type) {
  case PN_CONNECTION_INIT:
    {
      pn_connection_t *conn = pn_event_connection(event);
      pn_connection_set_container(conn, pn_string_get(sc->container_id));
      pn_connection_set_hostname(conn, pn_string_get(sc->hostname));
      pn_connection_open(conn);
      pn_session_t *ssn = pn_session(conn);
      pn_session_open(ssn);
      pn_link_t *snd = pn_sender(ssn, "sender");
      const char *path = pn_url_get_path(sc->send_url);
      if (path && strlen(path)) {
        pn_terminus_set_address(pn_link_target(snd), path);
        pn_terminus_set_address(pn_link_source(snd), path);
      }
      pn_link_open(snd);
    }
    break;
  case PN_LINK_FLOW:
    {
      pn_link_t *snd = pn_event_link(event);
      while (pn_link_credit(snd) > 0 && sc->sent < sc->opts->msg_count) {
        if (sc->sent == 0)
          statistics_start(sc->stats);

        char tag[8];
        void *ptr = &tag;
        *((uint64_t *) ptr) = sc->sent;
        pn_delivery_t *dlv = pn_delivery(snd, pn_dtag(tag, 8));

        // setup the message to send
        pn_message_t *msg = sc->message;
        pn_message_set_address(msg, sc->opts->targets.addresses[0]);
        sc->id.u.as_ulong = sc->sent;
        pn_message_set_correlation_id(msg, sc->id);
        pn_message_set_creation_time(msg, msgr_now());

        size_t size = sc->encoded_data_size;
        int err = pn_message_encode(msg, sc->encoded_data, &size);
        check(err == 0, "message encoding error");
        pn_link_send(snd, sc->encoded_data, size);
        pn_delivery_settle(dlv);
        sc->sent++;
      }
      if (sc->sent == sc->opts->msg_count && !sc->opts->get_replies) {
        pn_link_close(snd);
        pn_connection_t *conn = pn_event_connection(event);
        pn_connection_close(conn);
      }
    }
    break;
  case PN_LINK_INIT:
    {
      pn_link_t *link = pn_event_link(event);
      if (pn_link_is_receiver(link)) {
        // Response messages link.  Could manage credit and deliveries in this handler but
        // a dedicated handler also works.
        pn_handler_t *replyto = replyto_handler(sc);
        pn_flowcontroller_t *fc = pn_flowcontroller(1024);
        pn_handler_add(replyto, fc);
        pn_decref(fc);
        pn_handshaker_t *handshaker = pn_handshaker();
        pn_handler_add(replyto, handshaker);
        pn_decref(handshaker);
        pn_record_t *record = pn_link_attachments(link);
        pn_record_set_handler(record, replyto);
        pn_decref(replyto);
      }
    }
    break;
  case PN_CONNECTION_LOCAL_CLOSE:
    {
      statistics_report(sc->stats, sc->sent, sc->received);
    }
    break;
  default:
    break;
  }
}