#include "orbsvcs/Log_Macros.h" #include "orbsvcs/Notify/CosNotify_Service.h" #include "orbsvcs/Notify/Properties.h" #include "orbsvcs/Notify/Default_Factory.h" #include "orbsvcs/Notify/Builder.h" #include "orbsvcs/Notify/EventChannel.h" #include "ace/Sched_Params.h" #include "ace/Arg_Shifter.h" #include "ace/Dynamic_Service.h" #include "tao/ORB_Core.h" #include "orbsvcs/NotifyExtC.h" #include "tao/debug.h" TAO_BEGIN_VERSIONED_NAMESPACE_DECL TAO_CosNotify_Service::TAO_CosNotify_Service () { } TAO_CosNotify_Service::~TAO_CosNotify_Service () { } int TAO_CosNotify_Service::init (int argc, ACE_TCHAR *argv[]) { ACE_Arg_Shifter arg_shifter (argc, argv); const ACE_TCHAR *current_arg = 0; // Default to an all reactive system. int ec_threads = 0; int consumer_threads = 0; int supplier_threads = 0; bool task_per_proxy = false; TAO_Notify_Properties *properties = TAO_Notify_PROPERTIES::instance(); while (arg_shifter.is_anything_left ()) { if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-MTDispatching")) == 0) { arg_shifter.consume_arg (); ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) The -MTDispatching option has been deprecated, use -DispatchingThreads\n"))); } else if (0 != (current_arg = arg_shifter.get_the_parameter (ACE_TEXT("-DispatchingThreads")))) { consumer_threads += ACE_OS::atoi (current_arg); arg_shifter.consume_arg (); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-MTSourceEval")) == 0) { arg_shifter.consume_arg (); ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) The -MTSourceEval option has been deprecated, use -SourceThreads\n"))); } else if (0 != (current_arg = arg_shifter.get_the_parameter (ACE_TEXT("-SourceThreads")))) { supplier_threads += ACE_OS::atoi (current_arg); arg_shifter.consume_arg (); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-MTLookup")) == 0) { arg_shifter.consume_arg (); ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) The -MTLookup option has been deprecated, use -SourceThreads\n"))); } else if (0 != (current_arg = arg_shifter.get_the_parameter (ACE_TEXT("-LookupThreads")))) { supplier_threads += ACE_OS::atoi (current_arg); arg_shifter.consume_arg (); ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) The -LookupThreads option has been deprecated, use -SourceThreads\n"))); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-MTListenerEval")) == 0) { arg_shifter.consume_arg (); ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) The -MTListenerEval option has been deprecated, use -DispatchingThreads\n"))); } else if (0 != (current_arg = arg_shifter.get_the_parameter (ACE_TEXT("-ListenerThreads")))) { // Since this option is always added to consumer_threads, we'll // deprecate it in favor of that option. ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) The -ListenerThreads option has been deprecated, use -DispatchingThreads\n"))); consumer_threads += ACE_OS::atoi (current_arg); arg_shifter.consume_arg (); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-AsynchUpdates")) == 0) { arg_shifter.consume_arg (); properties->asynch_updates (1); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-NoUpdates")) == 0) { arg_shifter.consume_arg (); properties->updates (0); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-AllocateTaskperProxy")) == 0) { task_per_proxy = true; arg_shifter.consume_arg (); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-UseSeparateDispatchingORB")) == 0) { current_arg = arg_shifter.get_the_parameter (ACE_TEXT("-UseSeparateDispatchingORB")); if (current_arg != 0 && (ACE_OS::strcmp(ACE_TEXT ("0"), current_arg) == 0 || ACE_OS::strcmp(ACE_TEXT ("1"), current_arg) == 0)) { properties->separate_dispatching_orb ( static_cast (ACE_OS::atoi(current_arg))); ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("Using separate Dispatching ORB\n"))); } else { ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) WARNING: Unrecognized ") ACE_TEXT ("argument (%s). Ignoring invalid ") ACE_TEXT ("-UseSeparateDispatchingORB usage.\n"), (current_arg == 0 ? ACE_TEXT ("''") : current_arg))); } if (current_arg != 0) arg_shifter.consume_arg (); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-AllowReconnect")) == 0) { arg_shifter.consume_arg (); TAO_Notify_PROPERTIES::instance()->allow_reconnect (true); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-DefaultConsumerAdminFilterOp")) == 0) { current_arg = arg_shifter.get_the_parameter (ACE_TEXT("-DefaultConsumerAdminFilterOp")); CosNotifyChannelAdmin::InterFilterGroupOperator op = CosNotifyChannelAdmin::OR_OP; if (current_arg != 0 && (ACE_OS::strcmp(ACE_TEXT ("AND"), current_arg) == 0)) op = CosNotifyChannelAdmin::AND_OP; else if (current_arg != 0 && (ACE_OS::strcmp(ACE_TEXT ("OR"), current_arg) == 0)) op = CosNotifyChannelAdmin::OR_OP; else { ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) WARNING: Unrecognized ") ACE_TEXT ("argument (%s). Ignoring invalid ") ACE_TEXT ("-DefaultConsumerAdminFilterOp usage.\n"), (current_arg == 0 ? ACE_TEXT ("''") : current_arg))); } properties->defaultConsumerAdminFilterOp (op); arg_shifter.consume_arg (); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-DefaultSupplierAdminFilterOp")) == 0) { current_arg = arg_shifter.get_the_parameter (ACE_TEXT("-DefaultSupplierAdminFilterOp")); CosNotifyChannelAdmin::InterFilterGroupOperator op = CosNotifyChannelAdmin::OR_OP; if (current_arg != 0 && (ACE_OS::strcmp(ACE_TEXT ("AND"), current_arg) == 0)) op = CosNotifyChannelAdmin::AND_OP; else if (current_arg != 0 && (ACE_OS::strcmp(ACE_TEXT ("OR"), current_arg) == 0)) op = CosNotifyChannelAdmin::OR_OP; else { ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) WARNING: Unrecognized ") ACE_TEXT ("argument (%s). Ignoring invalid ") ACE_TEXT ("-DefaultSupplierAdminFilterOp usage.\n"), (current_arg == 0 ? ACE_TEXT ("''") : current_arg))); } properties->defaultSupplierAdminFilterOp (op); arg_shifter.consume_arg (); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-ValidateClient")) == 0) { arg_shifter.consume_arg (); TAO_Notify_PROPERTIES::instance()->validate_client (true); ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("Using reactive client control.\n"))); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-ValidateClientDelay")) == 0) { current_arg = arg_shifter.get_the_parameter (ACE_TEXT("-ValidateClientDelay")); if (current_arg != 0) { ACE_Time_Value tv (ACE_OS::atoi (current_arg)); TAO_Notify_PROPERTIES::instance()->validate_client_delay (tv); } else { ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) WARNING: Unrecognized ") ACE_TEXT ("argument (%s). Ignoring invalid ") ACE_TEXT ("-ValidateClientDelay usage.\n"), (current_arg == 0 ? ACE_TEXT ("''") : current_arg))); } if (current_arg != 0) arg_shifter.consume_arg (); } else if (arg_shifter.cur_arg_strncasecmp (ACE_TEXT("-ValidateClientInterval")) == 0) { current_arg = arg_shifter.get_the_parameter (ACE_TEXT("-ValidateClientInterval")); if (current_arg != 0) { ACE_Time_Value tv (ACE_OS::atoi (current_arg)); TAO_Notify_PROPERTIES::instance()->validate_client_interval (tv); } else { ORBSVCS_DEBUG ((LM_DEBUG, ACE_TEXT ("(%P|%t) WARNING: Unrecognized ") ACE_TEXT ("argument (%s). Ignoring invalid ") ACE_TEXT ("-ValidateClientDelay usage.\n"), (current_arg == 0 ? ACE_TEXT ("''") : current_arg))); } if (current_arg != 0) arg_shifter.consume_arg (); } else { ORBSVCS_ERROR ((LM_ERROR, ACE_TEXT ("(%P|%t) Ignoring unknown option for Notify Factory: %s\n"), arg_shifter.get_current() )); arg_shifter.consume_arg (); } } // Init the EC QoS { CosNotification::QoSProperties qos; this->set_threads (qos, ec_threads); properties->default_event_channel_qos_properties (qos); } if (!task_per_proxy) { // Set the per ConsumerAdmin QoS { if (consumer_threads > 0) ORBSVCS_DEBUG((LM_DEBUG, "Using %d threads for each ConsumerAdmin.\n", consumer_threads)); CosNotification::QoSProperties qos; this->set_threads (qos, consumer_threads); properties->default_consumer_admin_qos_properties (qos); } // Set the per SupplierAdmin QoS { if (supplier_threads > 0) ORBSVCS_DEBUG((LM_DEBUG, "Using %d threads for each SupplierAdmin.\n", supplier_threads)); CosNotification::QoSProperties qos; this->set_threads (qos, supplier_threads); properties->default_supplier_admin_qos_properties (qos); } } else { // Set the per ProxyConsumer QoS { if (supplier_threads > 0) ORBSVCS_DEBUG((LM_DEBUG, "Using %d threads for each Supplier.\n", supplier_threads)); CosNotification::QoSProperties qos; this->set_threads (qos, supplier_threads); // lookup thread per proxy doesn't make sense. properties->default_proxy_consumer_qos_properties (qos); } // Set the per ProxySupplier QoS { if (consumer_threads > 0) ORBSVCS_DEBUG((LM_DEBUG, "Using %d threads for each Consumer.\n", consumer_threads)); CosNotification::QoSProperties qos; this->set_threads (qos, consumer_threads); properties->default_proxy_supplier_qos_properties (qos); } } return 0; } void TAO_CosNotify_Service::set_threads (CosNotification::QoSProperties &qos, int threads) { NotifyExt::ThreadPoolParams tp_params = {NotifyExt::CLIENT_PROPAGATED, 0, 0, (unsigned)threads, 0, 0, 0, 0, 0 }; qos.length (1); qos[0].name = CORBA::string_dup (NotifyExt::ThreadPool); qos[0].value <<= tp_params; } int TAO_CosNotify_Service::fini () { if (TAO_Notify_PROPERTIES::instance()->separate_dispatching_orb()) { if (!CORBA::is_nil (TAO_Notify_PROPERTIES::instance()->dispatching_orb())) { CORBA::ORB_var dispatcher = TAO_Notify_PROPERTIES::instance()->dispatching_orb(); dispatcher->shutdown (); dispatcher->destroy (); } } TAO_Notify_Properties::instance()->close (); return 0; } void TAO_CosNotify_Service::init_service (CORBA::ORB_ptr orb) { ORBSVCS_DEBUG ((LM_DEBUG, "Loading the Cos Notification Service...\n")); if (TAO_Notify_PROPERTIES::instance()->separate_dispatching_orb()) { // got here by way of svc.conf. no second orb supplied so create one if (CORBA::is_nil (TAO_Notify_PROPERTIES::instance()->dispatching_orb())) { ORBSVCS_DEBUG ((LM_DEBUG, "No dispatching orb supplied. Creating default one.\n")); int argc = 0; ACE_TCHAR *argv0 = 0; ACE_TCHAR **argv = &argv0; // ansi requires argv be null terminated. CORBA::ORB_var dispatcher = CORBA::ORB_init (argc, argv, "default_dispatcher"); TAO_Notify_PROPERTIES::instance()->dispatching_orb(dispatcher.in()); } this->init_i2 (orb, TAO_Notify_PROPERTIES::instance()->dispatching_orb()); } else { this->init_i (orb); } } void TAO_CosNotify_Service::init_service2 (CORBA::ORB_ptr orb, CORBA::ORB_ptr dispatching_orb) { this->init_i2 (orb, dispatching_orb); } void TAO_CosNotify_Service::finalize_service ( CosNotifyChannelAdmin::EventChannelFactory_ptr factory) { // Get out early if we can if (CORBA::is_nil (factory)) return; // Make sure the factory doesn't go away while we're in here CosNotifyChannelAdmin::EventChannelFactory_var ecf = CosNotifyChannelAdmin::EventChannelFactory::_duplicate (factory); // Find all the consumer admin objects and shutdown the worker tasks CosNotifyChannelAdmin::ChannelIDSeq_var channels = ecf->get_all_channels (); CORBA::ULong length = channels->length (); for(CORBA::ULong i = 0; i < length; i++) { try { CosNotifyChannelAdmin::EventChannel_var ec = ecf->get_event_channel (channels[i]); if (!CORBA::is_nil (ec.in ())) { TAO_Notify_EventChannel* nec = dynamic_cast (ec->_servant ()); if (nec != 0) nec->destroy (); } } catch (const CORBA::Exception&) { // We're shutting things down, so ignore exceptions } } TAO_Notify_EventChannelFactory* necf = dynamic_cast (ecf->_servant ()); if (necf != 0) necf->stop_validator(); } void TAO_CosNotify_Service::init_i (CORBA::ORB_ptr orb) { // Obtain the Root POA CORBA::Object_var object = orb->resolve_initial_references("RootPOA"); if (CORBA::is_nil (object.in ())) ORBSVCS_ERROR ((LM_ERROR, " (%P|%t) Unable to resolve the RootPOA.\n")); PortableServer::POA_var default_poa = PortableServer::POA::_narrow (object.in ()); // Set the properties TAO_Notify_Properties* properties = TAO_Notify_PROPERTIES::instance(); properties->orb (orb); properties->default_poa (default_poa.in ()); // Init the factory this->factory_.reset (this->create_factory ()); ACE_ASSERT( this->factory_.get() != 0 ); TAO_Notify_PROPERTIES::instance()->factory (this->factory_.get()); this->builder_.reset (this->create_builder ()); ACE_ASSERT( this->builder_.get() != 0 ); TAO_Notify_PROPERTIES::instance()->builder (this->builder_.get()); } void TAO_CosNotify_Service::init_i2 (CORBA::ORB_ptr orb, CORBA::ORB_ptr dispatching_orb) { // Obtain the Root POA CORBA::Object_var object = orb->resolve_initial_references("RootPOA"); if (CORBA::is_nil (object.in ())) ORBSVCS_ERROR ((LM_ERROR, " (%P|%t) Unable to resolve the RootPOA.\n")); PortableServer::POA_var default_poa = PortableServer::POA::_narrow (object.in ()); // Set the properties TAO_Notify_Properties* properties = TAO_Notify_PROPERTIES::instance(); properties->orb (orb); properties->dispatching_orb (dispatching_orb); properties->separate_dispatching_orb (true); properties->default_poa (default_poa.in ()); // Init the factory and builder this->factory_.reset (this->create_factory ()); ACE_ASSERT( this->factory_.get() != 0 ); TAO_Notify_PROPERTIES::instance()->factory (this->factory_.get()); this->builder_.reset (this->create_builder ()); ACE_ASSERT( this->builder_.get() != 0 ); TAO_Notify_PROPERTIES::instance()->builder (this->builder_.get()); } TAO_Notify_Factory* TAO_CosNotify_Service::create_factory () { TAO_Notify_Factory* factory = ACE_Dynamic_Service::instance ("TAO_Notify_Factory"); if (factory == 0) { ACE_NEW_THROW_EX (factory, TAO_Notify_Default_Factory (), CORBA::NO_MEMORY ()); } return factory; } TAO_Notify_Builder* TAO_CosNotify_Service::create_builder () { TAO_Notify_Builder* builder = 0; ACE_NEW_THROW_EX (builder, TAO_Notify_Builder (), CORBA::NO_MEMORY ()); return builder; } CosNotifyChannelAdmin::EventChannelFactory_ptr TAO_CosNotify_Service::create (PortableServer::POA_ptr poa, const char* factory_name) { return this->builder().build_event_channel_factory (poa, factory_name); } void TAO_CosNotify_Service::remove (TAO_Notify_EventChannelFactory* /*ecf*/) { // NOP. } TAO_Notify_Factory& TAO_CosNotify_Service::factory () { ACE_ASSERT( this->factory_.get() != 0 ); return *this->factory_; } TAO_Notify_Builder& TAO_CosNotify_Service::builder () { ACE_ASSERT( this->builder_.get() != 0 ); return *this->builder_; } TAO_END_VERSIONED_NAMESPACE_DECL /*********************************************************************************************************************/ ACE_STATIC_SVC_DEFINE (TAO_Notify_Default_EMO_Factory_OLD, ACE_TEXT (TAO_NOTIFY_DEF_EMO_FACTORY_NAME), ACE_SVC_OBJ_T, &ACE_SVC_NAME (TAO_CosNotify_Service), ACE_Service_Type::DELETE_THIS | ACE_Service_Type::DELETE_OBJ, 0) /*********************************************************************************************************************/ ACE_STATIC_SVC_DEFINE (TAO_CosNotify_Service, ACE_TEXT (TAO_COS_NOTIFICATION_SERVICE_NAME), ACE_SVC_OBJ_T, &ACE_SVC_NAME (TAO_CosNotify_Service), ACE_Service_Type::DELETE_THIS | ACE_Service_Type::DELETE_OBJ, 0) ACE_FACTORY_DEFINE (TAO_Notify_Serv, TAO_CosNotify_Service) /*********************************************************************************************************************/