/**
* Called when a delivery is writable
*/
void OutgoingFromRelay::handle(pn_delivery_t* delivery)
{
void* context = pn_delivery_get_context(delivery);
BufferedTransfer* transfer = reinterpret_cast<BufferedTransfer*>(context);
assert(transfer);
if (pn_delivery_writable(delivery)) {
if (transfer->write(link)) {
outgoingMessageSent();
QPID_LOG(debug, "Sent relayed message " << name << " [" << relay.get() << "]");
} else {
QPID_LOG(error, "Failed to send relayed message " << name << " [" << relay.get() << "]");
}
}
if (pn_delivery_updated(delivery)) {
uint64_t d = transfer->updated();
switch (d) {
case PN_ACCEPTED:
outgoingMessageAccepted();
break;
case PN_REJECTED:
case PN_RELEASED://TODO: not quite true...
case PN_MODIFIED://TODO: not quite true...
outgoingMessageRejected();
break;
default:
QPID_LOG(warning, "Unhandled disposition: " << d);
}
}
}
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();
}
}
}
int pn_event_handler(void *handler_context, void *conn_context, pn_event_t *event, qd_connection_t *qd_conn)
{
qd_container_t *container = (qd_container_t*) handler_context;
pn_connection_t *conn = qd_connection_pn(qd_conn);
pn_session_t *ssn;
pn_link_t *pn_link;
qd_link_t *qd_link;
pn_delivery_t *delivery;
switch (pn_event_type(event)) {
case PN_CONNECTION_REMOTE_OPEN :
qd_connection_set_user(qd_conn);
if (pn_connection_state(conn) & PN_LOCAL_UNINIT) {
// This Open is an externally initiated connection
// Let policy engine decide
qd_connection_set_event_stall(qd_conn, true);
qd_conn->open_container = (void *)container;
qd_connection_invoke_deferred(qd_conn, qd_policy_amqp_open, qd_conn);
} else {
// This Open is in response to an internally initiated connection
notify_opened(container, qd_conn, conn_context);
}
break;
case PN_CONNECTION_REMOTE_CLOSE :
if (pn_connection_state(conn) == (PN_LOCAL_ACTIVE | PN_REMOTE_CLOSED))
pn_connection_close(conn);
break;
case PN_SESSION_REMOTE_OPEN :
if (!(pn_connection_state(conn) & PN_LOCAL_CLOSED)) {
ssn = pn_event_session(event);
if (pn_session_state(ssn) & PN_LOCAL_UNINIT) {
if (qd_conn->policy_settings) {
if (!qd_policy_approve_amqp_session(ssn, qd_conn)) {
break;
}
qd_conn->n_sessions++;
}
qd_policy_apply_session_settings(ssn, qd_conn);
pn_session_open(ssn);
}
}
break;
case PN_SESSION_REMOTE_CLOSE :
if (!(pn_connection_state(conn) & PN_LOCAL_CLOSED)) {
ssn = pn_event_session(event);
if (pn_session_state(ssn) == (PN_LOCAL_ACTIVE | PN_REMOTE_CLOSED)) {
// remote has nuked our session. Check for any links that were
// left open and forcibly detach them, since no detaches will
// arrive on this session.
pn_connection_t *conn = pn_session_connection(ssn);
pn_link_t *pn_link = pn_link_head(conn, PN_LOCAL_ACTIVE | PN_REMOTE_ACTIVE);
while (pn_link) {
if (pn_link_session(pn_link) == ssn) {
qd_link_t *qd_link = (qd_link_t*) pn_link_get_context(pn_link);
if (qd_link && qd_link->node) {
if (qd_conn->policy_settings) {
if (qd_link->direction == QD_OUTGOING) {
qd_conn->n_receivers--;
assert(qd_conn->n_receivers >= 0);
} else {
qd_conn->n_senders--;
assert(qd_conn->n_senders >= 0);
}
}
qd_log(container->log_source, QD_LOG_NOTICE,
"Aborting link '%s' due to parent session end",
pn_link_name(pn_link));
qd_link->node->ntype->link_detach_handler(qd_link->node->context,
qd_link, QD_LOST);
}
}
pn_link = pn_link_next(pn_link, PN_LOCAL_ACTIVE | PN_REMOTE_ACTIVE);
}
if (qd_conn->policy_settings) {
qd_conn->n_sessions--;
}
pn_session_close(ssn);
}
}
break;
case PN_LINK_REMOTE_OPEN :
if (!(pn_connection_state(conn) & PN_LOCAL_CLOSED)) {
pn_link = pn_event_link(event);
if (pn_link_state(pn_link) & PN_LOCAL_UNINIT) {
if (pn_link_is_sender(pn_link)) {
if (qd_conn->policy_settings) {
if (!qd_policy_approve_amqp_receiver_link(pn_link, qd_conn)) {
break;
}
qd_conn->n_receivers++;
}
setup_outgoing_link(container, pn_link);
} else {
if (qd_conn->policy_settings) {
if (!qd_policy_approve_amqp_sender_link(pn_link, qd_conn)) {
break;
}
qd_conn->n_senders++;
}
setup_incoming_link(container, pn_link);
}
} else if (pn_link_state(pn_link) & PN_LOCAL_ACTIVE)
handle_link_open(container, pn_link);
}
break;
case PN_LINK_REMOTE_CLOSE :
case PN_LINK_REMOTE_DETACH :
if (!(pn_connection_state(conn) & PN_LOCAL_CLOSED)) {
pn_link = pn_event_link(event);
qd_link = (qd_link_t*) pn_link_get_context(pn_link);
if (qd_link) {
qd_node_t *node = qd_link->node;
qd_detach_type_t dt = pn_event_type(event) == PN_LINK_REMOTE_CLOSE ? QD_CLOSED : QD_DETACHED;
if (node)
node->ntype->link_detach_handler(node->context, qd_link, dt);
else if (qd_link->pn_link == pn_link) {
pn_link_close(pn_link);
}
if (qd_conn->policy_counted && qd_conn->policy_settings) {
if (pn_link_is_sender(pn_link)) {
qd_conn->n_receivers--;
qd_log(container->log_source, QD_LOG_TRACE,
"Closed receiver link %s. n_receivers: %d",
pn_link_name(pn_link), qd_conn->n_receivers);
assert (qd_conn->n_receivers >= 0);
} else {
qd_conn->n_senders--;
qd_log(container->log_source, QD_LOG_TRACE,
"Closed sender link %s. n_senders: %d",
pn_link_name(pn_link), qd_conn->n_senders);
assert (qd_conn->n_senders >= 0);
}
}
if (qd_link->close_sess_with_link && qd_link->pn_sess &&
pn_link_state(pn_link) == (PN_LOCAL_CLOSED | PN_REMOTE_CLOSED))
pn_session_close(qd_link->pn_sess);
}
}
break;
case PN_LINK_FLOW :
pn_link = pn_event_link(event);
qd_link = (qd_link_t*) pn_link_get_context(pn_link);
if (qd_link && qd_link->node && qd_link->node->ntype->link_flow_handler)
qd_link->node->ntype->link_flow_handler(qd_link->node->context, qd_link);
break;
case PN_DELIVERY :
delivery = pn_event_delivery(event);
if (pn_delivery_readable(delivery))
do_receive(delivery);
if (pn_delivery_updated(delivery)) {
do_updated(delivery);
pn_delivery_clear(delivery);
}
break;
case PN_EVENT_NONE :
case PN_REACTOR_INIT :
case PN_REACTOR_QUIESCED :
case PN_REACTOR_FINAL :
case PN_TIMER_TASK :
case PN_CONNECTION_INIT :
case PN_CONNECTION_BOUND :
case PN_CONNECTION_UNBOUND :
case PN_CONNECTION_LOCAL_OPEN :
case PN_CONNECTION_LOCAL_CLOSE :
case PN_CONNECTION_FINAL :
case PN_SESSION_INIT :
case PN_SESSION_LOCAL_OPEN :
case PN_SESSION_LOCAL_CLOSE :
case PN_SESSION_FINAL :
case PN_LINK_INIT :
case PN_LINK_LOCAL_OPEN :
case PN_LINK_LOCAL_CLOSE :
case PN_LINK_LOCAL_DETACH :
case PN_LINK_FINAL :
case PN_TRANSPORT :
case PN_TRANSPORT_ERROR :
case PN_TRANSPORT_HEAD_CLOSED :
case PN_TRANSPORT_TAIL_CLOSED :
case PN_TRANSPORT_CLOSED :
case PN_TRANSPORT_AUTHENTICATED :
case PN_SELECTABLE_INIT :
case PN_SELECTABLE_UPDATED :
case PN_SELECTABLE_READABLE :
case PN_SELECTABLE_WRITABLE :
case PN_SELECTABLE_ERROR :
case PN_SELECTABLE_EXPIRED :
case PN_SELECTABLE_FINAL :
break;
}
return 1;
}
/* Process each event emitted by the protocol engine */
static void dispatcher(pn_handler_t *handler, pn_event_t *event, pn_event_type_t type)
{
protocolState_t *ps = PROTOCOL_STATE(handler);
const configSettings_t *cfg = ps->config;
//DBGPRINTF("omamqp1: Event received: %s\n", pn_event_type_name(type));
switch (type) {
case PN_LINK_REMOTE_OPEN:
DBGPRINTF("omamqp1: Message bus opened link.\n");
break;
case PN_DELIVERY:
// has the message been delivered to the message bus?
if (ps->delivery) {
assert(ps->delivery == pn_event_delivery(event));
if (pn_delivery_updated(ps->delivery)) {
rsRetVal result = RS_RET_IDLE;
uint64_t rs = pn_delivery_remote_state(ps->delivery);
switch (rs) {
case PN_ACCEPTED:
DBGPRINTF("omamqp1: Message ACCEPTED by message bus\n");
result = RS_RET_OK;
break;
case PN_REJECTED:
dbgprintf("omamqp1: message bus rejected log message: invalid message - dropping\n");
// message bus considers this a 'bad message'. Cannot be redelivered.
// Likely a configuration error. Drop the message by returning OK
result = RS_RET_OK;
break;
case PN_RELEASED:
case PN_MODIFIED:
// the message bus cannot accept the message. This may be temporary - retry
// up to maxRetries before dropping
if (++ps->retries >= cfg->maxRetries) {
dbgprintf("omamqp1: message bus failed to accept message - dropping\n");
result = RS_RET_OK;
} else {
dbgprintf("omamqp1: message bus cannot accept message, retrying\n");
result = RS_RET_SUSPENDED;
}
break;
case PN_RECEIVED:
// not finished yet, wait for next delivery update
break;
default:
// no other terminal states defined, so ignore anything else
dbgprintf("omamqp1: unknown delivery state=0x%lX, assuming message accepted\n",
(unsigned long) pn_delivery_remote_state(ps->delivery));
result = RS_RET_OK;
break;
}
if (result != RS_RET_IDLE) {
// the command is complete
threadIPC_t *ipc = ps->ipc;
pthread_mutex_lock(&ipc->lock);
assert(ipc->command == COMMAND_SEND);
ipc->result = result;
ipc->command = COMMAND_DONE;
pthread_cond_signal(&ipc->condition);
pthread_mutex_unlock(&ipc->lock);
pn_delivery_settle(ps->delivery);
ps->delivery = NULL;
if (result == RS_RET_OK) {
ps->retries = 0;
}
}
}
}
break;
case PN_CONNECTION_BOUND:
if (!cfg->bDisableSASL) {
// force use of SASL, even allowing PLAIN authentication
pn_sasl_t *sasl = pn_sasl(pn_event_transport(event));
#if PN_VERSION_MAJOR == 0 && PN_VERSION_MINOR >= 10
pn_sasl_set_allow_insecure_mechs(sasl, true);
#else
// proton version <= 0.9 only supports PLAIN authentication
const char *user = cfg->username
? (char *)cfg->username
: pn_url_get_username(cfg->url);
if (user) {
pn_sasl_plain(sasl, user, (cfg->password
? (char *) cfg->password
: pn_url_get_password(cfg->url)));
}
#endif
}
if (cfg->idleTimeout) {
// configured as seconds, set as milliseconds
pn_transport_set_idle_timeout(pn_event_transport(event),
cfg->idleTimeout * 1000);
}
break;
case PN_CONNECTION_UNBOUND:
DBGPRINTF("omamqp1: cleaning up connection resources\n");
pn_connection_release(pn_event_connection(event));
ps->conn = NULL;
ps->sender = NULL;
ps->delivery = NULL;
break;
case PN_TRANSPORT_ERROR:
{
// TODO: if auth failure, does it make sense to retry???
pn_transport_t *tport = pn_event_transport(event);
pn_condition_t *cond = pn_transport_condition(tport);
if (pn_condition_is_set(cond)) {
_log_error("transport failure", cond);
}
dbgprintf("omamqp1: network transport failed, reconnecting...\n");
// the protocol thread will attempt to reconnect if it is not
// being shut down
}
break;
default:
break;
}
}
/* 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;
}
}
