DDS::DataWriter_var Factory::writer(const DDS::Publisher_var& pub, const DDS::Topic_var& topic, const DDS::DataWriterListener_var& dwl) const { // Create the data writer DDS::DataWriterQos dw_qos; pub->get_default_datawriter_qos(dw_qos); dw_qos.durability.kind = opts_.durability_kind; dw_qos.liveliness.kind = opts_.liveliness_kind; dw_qos.liveliness.lease_duration = opts_.LEASE_DURATION; dw_qos.reliability.kind = opts_.reliability_kind; DDS::DataWriter_var dw = pub->create_datawriter(topic, dw_qos, dwl.in(), OpenDDS::DCPS::DEFAULT_STATUS_MASK); // Initialize the transport configuration for the appropriate entity if (opts_.configuration_str != "none" && opts_.entity_str == "rw") { OpenDDS::DCPS::TransportRegistry::instance()->bind_config(opts_.configuration_str, dw.in()); if (!opts_.entity_autoenable) { TEST_ASSERT(DDS::RETCODE_OK == dw->enable()); } } return dw; }
bool assert_publication_matched(const Options& opts, const DDS::DataWriterListener_var& dwl) { // Assert if pub/sub made a match ... DataWriterListenerImpl* dwl_servant = dynamic_cast<DataWriterListenerImpl*> (dwl.in()); // check to see if the publisher worked if (opts.compatible != dwl_servant->publication_matched() && opts.reliability_kind == DDS::RELIABLE_RELIABILITY_QOS) { ACE_ERROR_RETURN((LM_ERROR, ACE_TEXT("(%P|%t) Expected publication_matched to be %C, but it was %C [") ACE_TEXT(" durability_kind=%C, liveliness_kind=%C, liveliness_duration=%C, ") ACE_TEXT("reliability_kind=%C]\n"), (opts.compatible) ? "true" : "false", (dwl_servant->publication_matched()) ? "true" : "false", opts.durability_kind_str.c_str(), opts.liveliness_kind_str.c_str(), opts.LEASE_DURATION_STR.c_str(), opts.reliability_kind_str.c_str()), false); } return true; }
int Writer_Base::svc() { ACE_DEBUG((LM_DEBUG, ACE_TEXT("(%P|%t) %C svc() begins. %C\n"), name_, get_id())); try { DDS::InstanceHandleSeq handles; while (true) { writer_->get_matched_subscriptions(handles); if (handles.length() > 0) break; else ACE_OS::sleep(ACE_Time_Value(0, 200000)); } pre_loop(); for (int i = 0; i < num_messages; ++i) { if (!liveliness_lost_test || i == 0 || i == num_messages - 1) { in_loop(i); if (i == 0) { // Since an arbitrary amount of time was spent in the get_matched_subscriptions // loop above, any number of liveliness lost callbacks may have already occurred. // These are not the callbacks that the test is counting (liveliness_lost_test). DDS::DataWriterListener_var dwl = writer_->get_listener(); DataWriterListenerImpl* listener = dynamic_cast<DataWriterListenerImpl*>(dwl.in()); listener->reset_liveliness_lost_callbacks(); } } ACE_OS::sleep(assert_liveliness_period); } while (true) { writer_->get_matched_subscriptions(handles); if (handles.length() == 0) break; else ACE_OS::sleep(1); } } catch (const CORBA::Exception& e) { cerr << "Exception caught in svc:" << endl << e << endl; } ACE_DEBUG((LM_DEBUG, ACE_TEXT("(%P|%t) Writer_Base::svc finished %C.\n"), name_)); return 0; }
void OpenDDS::DCPS::OfferedDeadlineWatchdog::execute(OpenDDS::DCPS::PublicationInstance_rch instance, bool timer_called) { if (instance->deadline_timer_id_ != -1) { bool missed = false; if (instance->cur_sample_tv_ == ACE_Time_Value::zero) { // not write any sample. missed = true; } else if (timer_called) { // handle_timeout is called ACE_Time_Value diff = ACE_OS::gettimeofday() - instance->cur_sample_tv_; missed = diff >= this->interval_; } else if (instance->last_sample_tv_ != ACE_Time_Value::zero) { // upon writing sample. ACE_Time_Value diff = instance->cur_sample_tv_ - instance->last_sample_tv_; missed = diff > this->interval_; } if (missed) { ACE_GUARD(ACE_Recursive_Thread_Mutex, monitor, this->status_lock_); if (timer_called) { ++this->status_.total_count; this->status_.total_count_change = this->status_.total_count - this->last_total_count_; this->status_.last_instance_handle = instance->instance_handle_; this->writer_impl_->set_status_changed_flag( DDS::OFFERED_DEADLINE_MISSED_STATUS, true); DDS::DataWriterListener_var listener = this->writer_impl_->listener_for( DDS::OFFERED_DEADLINE_MISSED_STATUS); if (! CORBA::is_nil(listener.in())) { // Copy before releasing the lock. DDS::OfferedDeadlineMissedStatus const status = this->status_; // Release the lock during the upcall. ACE_GUARD(reverse_lock_type, reverse_monitor, this->reverse_status_lock_); // @todo Will this operation ever throw? If so we may want to // catch all exceptions, and act accordingly. listener->on_offered_deadline_missed(this->writer_.in(), status); } this->writer_impl_->notify_status_condition(); } } // This next part is without status_lock_ held to avoid reactor deadlock. if (!timer_called) { this->cancel_timer(instance); this->schedule_timer(instance); } } else { // not an error - timer is scheduled asynchronously so we can get here // via WriteDataContainer::enqueue() before schedule_timer() is done } }
int ACE_TMAIN (int argc, ACE_TCHAR *argv[]){ try { DDS::DomainParticipantFactory_var dpf = TheParticipantFactoryWithArgs(argc, argv); DDS::DomainParticipant_var participant = dpf->create_participant(11, PARTICIPANT_QOS_DEFAULT, DDS::DomainParticipantListener::_nil(), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (participant.in ())) { cerr << "create_participant failed." << endl; return 1; } MessageTypeSupportImpl* servant = new MessageTypeSupportImpl(); if (DDS::RETCODE_OK != servant->register_type(participant.in (), "")) { cerr << "register_type failed." << endl; exit(1); } CORBA::String_var type_name = servant->get_type_name (); DDS::TopicQos topic_qos; participant->get_default_topic_qos(topic_qos); DDS::Topic_var topic = participant->create_topic ("Movie Discussion List", type_name.in (), topic_qos, DDS::TopicListener::_nil(), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (topic.in ())) { cerr << "create_topic failed." << endl; exit(1); } DDS::Publisher_var pub = participant->create_publisher(PUBLISHER_QOS_DEFAULT, DDS::PublisherListener::_nil(), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (pub.in ())) { cerr << "create_publisher failed." << endl; exit(1); } // ---------------------------------------------- // Create the listener. DDS::DataWriterListener_var listener (new DataWriterListenerImpl); if (CORBA::is_nil (listener.in ())) { cerr << "ERROR: listener is nil." << endl; exit(1); } DDS::DataWriterQos dw_qos; // Good QoS. pub->get_default_datawriter_qos (dw_qos); assert (DEADLINE_PERIOD.sec > 1); // Requirement for the test. // First data writer will have a listener to test listener // callback on deadline expiration. DDS::DataWriter_var dw = pub->create_datawriter (topic.in (), dw_qos, listener.in (), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (dw.in ())) { cerr << "ERROR: create_datawriter failed." << endl; exit(1); } dw_qos.deadline.period.sec = DEADLINE_PERIOD.sec; dw_qos.deadline.period.nanosec = DEADLINE_PERIOD.nanosec; // Set qos with deadline. The watch dog starts now. if (dw->set_qos (dw_qos) != ::DDS::RETCODE_OK) { cerr << "ERROR: set deadline qos failed." << endl; exit(1); } { // Two threads use same datawriter to write different instances. std::auto_ptr<Writer> writer1 (new Writer (dw.in (), 99, SLEEP_DURATION)); std::auto_ptr<Writer> writer2 (new Writer (dw.in (), 100, SLEEP_DURATION)); writer1->start (); writer2->start (); // ---------------------------------------------- // Wait for fully associate with DataReaders. if (writer1->wait_for_start () == false || writer2->wait_for_start () == false) { cerr << "ERROR: took too long to associate. " << endl; exit (1); } ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) Publisher: sleep for %d milliseconds\n"), SLEEP_DURATION.msec ())); // Wait for a set of deadline periods to expire. ACE_OS::sleep (SLEEP_DURATION); ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) Publisher: now verify missed ") ACE_TEXT ("deadline status \n"))); ::DDS::InstanceHandle_t handle1 = writer1->get_instance_handle (); ::DDS::InstanceHandle_t handle2 = writer2->get_instance_handle (); DDS::OfferedDeadlineMissedStatus deadline_status; if (dw->get_offered_deadline_missed_status(deadline_status) != ::DDS::RETCODE_OK) { cerr << "ERROR: Failed to get offered deadline missed status" << endl; exit (1); } ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) Publisher: got missed") ACE_TEXT ("deadline status \n"))); if (deadline_status.total_count != NUM_EXPIRATIONS * NUM_WRITE_THREADS) { cerr << "ERROR: Unexpected number of missed offered " << "deadlines (" << deadline_status.total_count << " instead of " << NUM_EXPIRATIONS * NUM_WRITE_THREADS << ") " << endl; exit (1); } if (deadline_status.total_count_change != NUM_EXPIRATIONS * NUM_WRITE_THREADS) { cerr << "ERROR: Incorrect missed offered " << "deadline count change (" << deadline_status.total_count_change << ") instead of " << NUM_EXPIRATIONS * NUM_WRITE_THREADS << endl; exit (1); } if (deadline_status.last_instance_handle != handle1 && deadline_status.last_instance_handle != handle2) { cerr << "ERROR: Unexpected last instance handle " << deadline_status.last_instance_handle << " instead of " << handle1 << " or " << handle2 << endl; exit (1); } writer1->wait (); writer2->wait (); ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) Publisher: sleep for %d milliseconds\n"), SLEEP_DURATION.msec())); // Wait for another set of deadline periods to expire. ACE_OS::sleep (SLEEP_DURATION); ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) Publisher: now verify missed ") ACE_TEXT ("deadline status \n"))); if (dw->get_offered_deadline_missed_status(deadline_status) != ::DDS::RETCODE_OK) { cerr << "ERROR: Failed to get offered deadline missed status" << endl; exit (1); } ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) Publisher: got missed") ACE_TEXT ("deadline status \n"))); if (deadline_status.total_count != (NUM_EXPIRATIONS + 2) * NUM_WRITE_THREADS) { cerr << "ERROR: Unexpected number of missed offered " << "deadlines (" << deadline_status.total_count << " instead of " << (NUM_EXPIRATIONS + 2) * NUM_WRITE_THREADS << ") " << endl; exit (1); } if (deadline_status.total_count_change != NUM_WRITE_THREADS * 2) { cerr << "ERROR: Incorrect missed offered " << "deadline count change (" << deadline_status.total_count_change << ") instead of " << NUM_WRITE_THREADS * 2 << endl; exit (1); } if (deadline_status.last_instance_handle != handle1 && deadline_status.last_instance_handle != handle2) { cerr << "ERROR: Unexpected last instance handle " << deadline_status.last_instance_handle << " instead of " << handle1 << " or " << handle2 << endl; exit (1); } // Wait for datareader finish. while (1) { ::DDS::InstanceHandleSeq handles; dw->get_matched_subscriptions (handles); if (handles.length () == 0) break; else ACE_OS::sleep(1); } } participant->delete_contained_entities(); dpf->delete_participant(participant.in ()); TheServiceParticipant->shutdown (); } catch (CORBA::Exception& e) { cerr << "PUB: Exception caught in main.cpp:" << endl << e << endl; exit(1); } return 0; }
int ACE_TMAIN(int argc, ACE_TCHAR* argv[]) { try { DDS::DomainParticipantFactory_var dpf = TheParticipantFactoryWithArgs(argc, argv); DDS::DomainParticipant_var participant = dpf->create_participant(411, PARTICIPANT_QOS_DEFAULT, DDS::DomainParticipantListener::_nil(), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (participant.in ())) { cerr << "create_participant failed." << endl; return 1; } Test::DataTypeSupportImpl* servant = new Test::DataTypeSupportImpl(); if (DDS::RETCODE_OK != servant->register_type(participant.in (), "")) { cerr << "register_type failed." << endl; exit(1); } CORBA::String_var type_name = servant->get_type_name (); DDS::TopicQos topic_qos; participant->get_default_topic_qos (topic_qos); DDS::Topic_var topic = participant->create_topic ("Data", type_name.in (), topic_qos, DDS::TopicListener::_nil(), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (topic.in ())) { cerr << "create_topic failed." << endl; exit(1); } size_t const num_partitions = sizeof (Test::Offered::PartitionConfigs) / sizeof (Test::Offered::PartitionConfigs[0]); Test::PartitionConfig const * const begin = Test::Offered::PartitionConfigs; Test::PartitionConfig const * const end = begin + num_partitions; // Keep the writers around long enough for the publications and // subscriptions to match. typedef std::vector<DDS::DataWriter_var> writers_type; writers_type writers (num_partitions); for (Test::PartitionConfig const * i = begin; i != end; ++i) { DDS::PublisherQos pub_qos; participant->get_default_publisher_qos (pub_qos); // Specify partitions we're offering. CORBA::ULong n = 0; DDS::StringSeq & names = pub_qos.partition.name; for (char const * const * s = (*i).partitions; s != 0 && *s != 0; ++s, ++n) { CORBA::ULong const new_len = names.length () + 1; names.length (new_len); names[n] = *s; } DDS::Publisher_var pub = participant->create_publisher (pub_qos, DDS::PublisherListener::_nil (), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (pub.in ())) { cerr << "create_publisher failed." << endl; exit(1); } DDS::DataWriterListener_var listener ( new Test::DataWriterListener ((*i).expected_matches)); // Create the datawriter DDS::DataWriterQos dw_qos; pub->get_default_datawriter_qos (dw_qos); DDS::DataWriter_var dw = pub->create_datawriter(topic.in (), dw_qos, listener.in (), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (dw.in ())) { cerr << "create_datawriter failed." << endl; exit(1); } writers.push_back (dw); Test::DataDataWriter_var writer = Test::DataDataWriter::_narrow (dw.in()); if (CORBA::is_nil (writer.in ())) { cerr << "Data Writer could not be narrowed"<< endl; exit(1); } Test::Data the_data; the_data.key = 2; the_data.the_data = CORBA::string_dup ("Data Wuz Here!"); ::DDS::InstanceHandle_t const handle = writer->register_instance(the_data); ACE_DEBUG((LM_DEBUG, ACE_TEXT("(%P|%t) %T PUB starting to write.\n"))); ::DDS::ReturnCode_t const ret = writer->write (the_data, handle);; if (ret != ::DDS::RETCODE_OK) { ACE_ERROR ((LM_ERROR, ACE_TEXT("(%P|%t) ERROR: PUB ") ACE_TEXT ("write() returned %d.\n"), ret)); } } // // Wait for DataReaders to finish. // writers_type::const_iterator zend (writers.end ()); // for (writers_type::const_iterator z (writers.begin ()); z != zend; ++z) // { // ::DDS::InstanceHandleSeq handles; // while (1) // { // (*z)->get_matched_subscriptions (handles); // if (handles.length () == 0) // break; // else // ACE_OS::sleep (1); // } // } ACE_OS::sleep (20); { // Force contents of writers vector to be destroyed now. writers_type tmp; tmp.swap (writers); } participant->delete_contained_entities(); dpf->delete_participant(participant.in ()); TheServiceParticipant->shutdown (); } catch (CORBA::Exception& e) { cerr << "PUB: Exception caught in main.cpp:" << endl << e << endl; exit(1); } return 0; }
int main (int argc, char *argv[]) { try { DDS::DomainParticipantFactory_var dpf = TheParticipantFactoryWithArgs(argc, argv); if( parse_args(argc, argv) != 0) return 1; DDS::DomainParticipant_var participant = dpf->create_participant(411, PARTICIPANT_QOS_DEFAULT, DDS::DomainParticipantListener::_nil()); if (CORBA::is_nil (participant.in ())) { cerr << "create_participant failed." << endl; return 1; } Messenger::MessageTypeSupportImpl* servant = new Messenger::MessageTypeSupportImpl(); OpenDDS::DCPS::LocalObject_var safe_servant = servant; if (DDS::RETCODE_OK != servant->register_type(participant.in (), "")) { cerr << "register_type failed." << endl; exit(1); } CORBA::String_var type_name = servant->get_type_name (); DDS::TopicQos topic_qos; participant->get_default_topic_qos(topic_qos); DDS::Topic_var topic = participant->create_topic ("Movie Discussion List", type_name.in (), topic_qos, DDS::TopicListener::_nil()); if (CORBA::is_nil (topic.in ())) { cerr << "create_topic failed." << endl; exit(1); } // Initialize the transport OpenDDS::DCPS::TransportImpl_rch tcp_impl = TheTransportFactory->create_transport_impl (TCP_IMPL_ID, "SimpleTcp", OpenDDS::DCPS::DONT_AUTO_CONFIG); OpenDDS::DCPS::TransportConfiguration_rch writer_config = TheTransportFactory->create_configuration (TCP_IMPL_ID, "SimpleTcp"); OpenDDS::DCPS::SimpleTcpConfiguration* writer_tcp_config = static_cast <OpenDDS::DCPS::SimpleTcpConfiguration*> (writer_config.in ()); writer_tcp_config->local_address_ = ACE_INET_Addr (local_address.c_str()); writer_tcp_config->local_address_str_ = local_address; // This is needed for bp_timeout test. writer_tcp_config->max_output_pause_period_ = 2000; // This is needed to get the connection deletion callback. writer_tcp_config->datalink_release_delay_ = 0; if (tcp_impl->configure(writer_config.in()) != 0) { cerr << "Failed to configure the transport." << endl; exit(1); } DDS::Publisher_var pub = participant->create_publisher(PUBLISHER_QOS_DEFAULT, DDS::PublisherListener::_nil()); if (CORBA::is_nil (pub.in ())) { cerr << "create_publisher failed." << endl; exit(1); } // Attach the publisher to the transport. OpenDDS::DCPS::PublisherImpl* pub_impl = dynamic_cast<OpenDDS::DCPS::PublisherImpl*> (pub.in ()); if (0 == pub_impl) { cerr << "Failed to obtain publisher servant" << endl; exit(1); } OpenDDS::DCPS::AttachStatus status = pub_impl->attach_transport(tcp_impl.in()); if (status != OpenDDS::DCPS::ATTACH_OK) { std::string status_str; switch (status) { case OpenDDS::DCPS::ATTACH_BAD_TRANSPORT: status_str = "ATTACH_BAD_TRANSPORT"; break; case OpenDDS::DCPS::ATTACH_ERROR: status_str = "ATTACH_ERROR"; break; case OpenDDS::DCPS::ATTACH_INCOMPATIBLE_QOS: status_str = "ATTACH_INCOMPATIBLE_QOS"; break; default: status_str = "Unknown Status"; break; } cerr << "Failed to attach to the transport. Status == " << status_str.c_str() << endl; exit(1); } // activate the listener DDS::DataWriterListener_var listener (new DataWriterListenerImpl); if (CORBA::is_nil (listener.in ())) { cerr << "listener is nil." << endl; exit(1); } // Create the datawriter DDS::DataWriterQos dw_qos; pub->get_default_datawriter_qos (dw_qos); // Make it KEEP_ALL history so we can verify the received // data without dropping. dw_qos.history.kind = ::DDS::KEEP_ALL_HISTORY_QOS; dw_qos.reliability.kind = ::DDS::RELIABLE_RELIABILITY_QOS; dw_qos.resource_limits.max_samples_per_instance = num_writes; DDS::DataWriter_var dw = pub->create_datawriter(topic.in (), dw_qos, listener.in ()); if (CORBA::is_nil (dw.in ())) { cerr << "create_datawriter failed." << endl; exit(1); } Writer* writer = new Writer(dw.in()); // Indicate that the publisher is ready FILE* writers_ready = ACE_OS::fopen (pub_ready_filename, "w"); if (writers_ready == 0) { cerr << "ERROR Unable to create publisher ready file" << endl; exit(1); } ACE_OS::fclose(writers_ready); // Wait for the subscriber to be ready. FILE* readers_ready = 0; do { ACE_Time_Value small(0,250000); ACE_OS::sleep (small); readers_ready = ACE_OS::fopen (sub_ready_filename, "r"); } while (0 == readers_ready); ACE_OS::fclose(readers_ready); // ensure the associations are fully established before writing. ACE_OS::sleep(3); writer->start (); while ( !writer->is_finished()) { ACE_Time_Value small(0,250000); ACE_OS::sleep (small); } // Indicate that the publisher is done FILE* writers_completed = ACE_OS::fopen (pub_finished_filename, "w"); if (writers_completed == 0) { cerr << "ERROR Unable to i publisher completed file" << endl; } else { ACE_OS::fprintf (writers_completed, "%d\n", writer->get_timeout_writes()); } ACE_OS::fclose (writers_completed); // Wait for the subscriber to finish. FILE* readers_completed = 0; do { ACE_Time_Value small(0,250000); ACE_OS::sleep (small); readers_completed = ACE_OS::fopen (sub_finished_filename, "r"); } while (0 == readers_completed); ACE_OS::fclose(readers_completed); writer->end (); delete writer; // Sleep a while before shutdown to avoid the problem of repository // crashes when it handles both remove_association from subscriber // and publisher at the same time. // Cleanup //ACE_OS::sleep (2); participant->delete_contained_entities(); dpf->delete_participant(participant.in ()); TheTransportFactory->release(); TheServiceParticipant->shutdown (); } catch (CORBA::Exception& e) { cerr << "Exception caught in main.cpp:" << endl << e << endl; exit(1); } if (actual_lost_pub_notification != expected_lost_pub_notification) { ACE_ERROR ((LM_ERROR, "(%P|%t)ERROR: on_publication_lost called %d times " "and expected %d times\n", actual_lost_pub_notification, expected_lost_pub_notification)); return 1; } if (num_deleted_connections != expected_deleted_connections) { ACE_ERROR ((LM_ERROR, "(%P|%t)ERROR: on_connection_deleted called %d times " "and expected %d times\n", num_deleted_connections, expected_deleted_connections)); return 1; } return 0; }
int ACE_TMAIN (int argc, ACE_TCHAR *argv[]) { try { DDS::DomainParticipantFactory_var dpf = TheParticipantFactoryWithArgs (argc, argv); DDS::DomainParticipant_var participant = dpf->create_participant (411, PARTICIPANT_QOS_DEFAULT, DDS::DomainParticipantListener::_nil(), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (participant.in ())) { cerr << "create_participant failed." << endl; return 1; } if (parse_args (argc, argv) != 0) return -1; if (delete_data) { using OpenDDS::FileSystemStorage::Directory; Directory::create (ACE_TEXT_ALWAYS_CHAR (dir))->remove (); dpf->delete_participant (participant); TheServiceParticipant->shutdown (); return 0; } MessageTypeSupport_var servant = new MessageTypeSupportImpl (); if (DDS::RETCODE_OK != servant->register_type(participant.in (), "")) { cerr << "register_type failed." << endl; exit (1); } CORBA::String_var type_name = servant->get_type_name (); DDS::TopicQos topic_qos; participant->get_default_topic_qos (topic_qos); DDS::Topic_var topic = participant->create_topic ("Movie Discussion List", type_name.in (), topic_qos, DDS::TopicListener::_nil(), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (topic.in ())) { cerr << "create_topic failed." << endl; exit (1); } DDS::Publisher_var pub = participant->create_publisher (PUBLISHER_QOS_DEFAULT, DDS::PublisherListener::_nil(), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (pub.in ())) { cerr << "create_publisher failed." << endl; exit (1); } // Configure DataWriter QoS policies. DDS::DataWriterQos dw_qos; pub->get_default_datawriter_qos (dw_qos); dw_qos.durability.kind = DDS::PERSISTENT_DURABILITY_QOS; dw_qos.durability_service.history_kind = ::DDS::KEEP_ALL_HISTORY_QOS; dw_qos.reliability.kind = ::DDS::RELIABLE_RELIABILITY_QOS; dw_qos.resource_limits.max_samples_per_instance = 1000; dw_qos.history.kind = ::DDS::KEEP_ALL_HISTORY_QOS; // ------------------------------------------------------- { DataWriterListenerImpl* listener = new DataWriterListenerImpl; DDS::DataWriterListener_var dwl = listener; // Create a DataWriter. // Upon exiting this scope, all unsent data should be // transferred to OpenDDS's data durability cache since the // run_test.pl script should not have started the subscriber // until it detects the "Done writing" log text. DDS::DataWriter_var dw = pub->create_datawriter (topic.in (), dw_qos, dwl.in (), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (dw.in ())) { cerr << "create_datawriter failed." << endl; exit (1); } // Only write samples if configured to do so. The expectation // is to otherwise retrieve the data from the PERSISTENT data // durability cache. if (do_write) { // Write samples. std::auto_ptr<Writer> writer (new Writer (dw.in ())); if (!writer->start () || !writer->end ()) { // Error logging performed in above method call. exit (1); } // Explicitly destroy the DataWriter. if (pub->delete_datawriter (dw.in ()) == ::DDS::RETCODE_PRECONDITION_NOT_MET) { cerr << "Unable to delete DataWriter" << endl; exit (1); } } else { int const max_attempts = 50; int attempts; for (attempts = 1; attempts != max_attempts && listener->publication_matched_.value () == false; ++attempts) { ACE_OS::sleep (5); } if (attempts == max_attempts) { cerr << "ERROR: subscriptions failed to match." << endl; exit (1); } // Wait for DataReader to finish. ::DDS::InstanceHandleSeq handles; for (attempts = 1; attempts != max_attempts; ++attempts) { dw->get_matched_subscriptions (handles); if (handles.length () == 0) break; else ACE_OS::sleep(1); } // The data durability cache should no longer contain samples // for this domain/topic/type. } } // ------------------------------------------------------- { // Write samples that will not be sent. Exercise // service_cleanup_delay. We can either do this through the // durability member or durability_service member in either of // TopicQos or DataWriterQos. This test arbitrarily uses the // DataWriterQos::durability_service member. // Cleanup data after this number of seconds. CORBA::Long const delay_seconds = 5; ::DDS::Duration_t & cleanup_delay = dw_qos.durability_service.service_cleanup_delay; cleanup_delay.sec = delay_seconds; cleanup_delay.nanosec = 0; // Create a dummy topic which will have no subscriptions. DDS::Topic_var dummy_topic = participant->create_topic ("Dummy Topic", type_name.in (), topic_qos, DDS::TopicListener::_nil(), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); DDS::DataWriter_var dummy_dw = pub->create_datawriter (dummy_topic.in (), dw_qos, ::DDS::DataWriterListener::_nil (), ::OpenDDS::DCPS::DEFAULT_STATUS_MASK); if (CORBA::is_nil (dummy_dw.in ())) { cerr << "create_datawriter for dummy topic failed." << endl; exit (1); } // Write samples using multiple threads. std::auto_ptr<Writer> writer (new Writer (dummy_dw.in ())); // Explicitly destroy the DataWriter. if (pub->delete_datawriter (dummy_dw.in ()) == ::DDS::RETCODE_PRECONDITION_NOT_MET) { cerr << "Unable to delete DataWriter" << endl; exit (1); } // Allow durability cleanup to occur ACE_OS::sleep (delay_seconds + 3); } participant->delete_contained_entities(); dpf->delete_participant(participant.in ()); TheServiceParticipant->shutdown (); } catch (CORBA::Exception& e) { cerr << "PUB: Exception caught in main.cpp:" << endl << e << endl; exit (1); } catch (const std::runtime_error& err) { ACE_ERROR_RETURN((LM_ERROR, ACE_TEXT("ERROR: main() - %s\n"), err.what()), -1); } return 0; }