void Connection_Manager::add_to_receivers (CosNaming::BindingList &binding_list) { for (CORBA::ULong i = 0; i < binding_list.length (); i++) { // Get the receiver name from the binding list. ACE_CString receiver_name = binding_list [i].binding_name [0].id.in (); CosNaming::Name name (1); name.length (1); name [0].id = CORBA::string_dup (receiver_name.c_str ()); // Resolve the reference of the receiver from the receiver // context. CORBA::Object_var obj = this->receiver_context_->resolve (name); AVStreams::MMDevice_var receiver_device = AVStreams::MMDevice::_narrow (obj.in ()); // Add this receiver to the receiver map. ACE_CString flowname = this->sender_name_ + "_" + receiver_name; this->receivers_.bind (flowname, receiver_device); } }
std::vector< std::string > CorbaNameService::getRegisteredTasks() { if(CORBA::is_nil(orb)) { throw std::runtime_error("CorbaNameService::Error, called getRegisteredTasks() without connection " ); } CosNaming::Name server_name; server_name.length(1); server_name[0].id = CORBA::string_dup("TaskContexts"); std::vector<std::string> task_names; CosNaming::BindingList_var binding_list; CosNaming::BindingIterator_var binding_it; // get all available task names from the name server CORBA::Object_var control_tasks_var = rootContext->resolve(server_name); CosNaming::NamingContext_var control_tasks = CosNaming::NamingContext::_narrow (control_tasks_var); if (CORBA::is_nil(control_tasks)) return task_names; control_tasks->list(0, binding_list, binding_it); if (CORBA::is_nil(binding_it)) return task_names; // iterate over all task names while(binding_it->next_n(10, binding_list)) { CosNaming::BindingList list = binding_list.in(); for (unsigned int i = 0; i < list.length(); ++i) { std::string name = list[i].binding_name[0].id.in(); CosNaming::Name serverName; serverName.length(2); serverName[0].id = CORBA::string_dup("TaskContexts"); serverName[1].id = CORBA::string_dup( name.c_str() ); try { //verify that the object really exists, and is not just some leftover from a crash // Get object reference CORBA::Object_var task_object = rootContext->resolve(serverName); RTT::corba::CTaskContext_var mtask = RTT::corba::CTaskContext::_narrow (task_object.in ()); std::cout << "Connection test to " << name << std::endl; // force connect to object. CORBA::String_var nm = mtask->getName(); task_names.push_back(name); } catch (...) { } } } return task_names; }
void CorbaService::addSubjectManagers(const CosNaming::BindingList& bindingList, std::list<tweek::SubjectManager_var>& mgrList) { CosNaming::Binding binding; for ( CORBA::ULong i = 0; i < bindingList.length(); ++i ) { binding = bindingList[i]; // We do not care about anything that is a naming context. if ( CosNaming::ncontext != binding.binding_type ) { const std::string subj_mgr_name("SubjectManager"); bool substr_match(false); #if defined(__GNUC__) && __GNUC__ == 2 // XXX: This is a hack to deal with GCC 2.96 (and earlier?) having // a std::string::compare() method that does not match the actual // STL prototype. substr_match = (subj_mgr_name.compare(binding.binding_name[0].id, 0, subj_mgr_name.size()) == 0); #else substr_match = (subj_mgr_name.compare(0, subj_mgr_name.size(), binding.binding_name[0].id)); #endif // Furthermore, we only care about SubjectManager* instances. if ( substr_match ) { CosNaming::Name name_comp = binding.binding_name; try { CORBA::Object_var ref = mLocalContext->resolve(name_comp); tweek::SubjectManager_var mgr = tweek::SubjectManager::_narrow(ref); try { // Filter out any references that we know are not usable. if ( ! mgr->_non_existent() ) { mgrList.push_back(mgr); } } // In the Java equivalent of this method, CORBA::TRANSIENT // exceptions are sometimes thrown by the call to // tweek::SubjectManager::_non_existent() above. I don't know // if they are also thrown here, but we might as well be safe. catch (CORBA::TRANSIENT ex) { boost::ignore_unused_variable_warning(ex); vprDEBUG(tweekDBG_CORBA, vprDBG_WARNING_LVL) << "addSubjectManagers(): Caught CORBA::TRANSIENT " << "exception thrown by _non_existent\n" << vprDEBUG_FLUSH; } // XXX: Figure out what exception(s) can be thrown by // CORBA::Object::_non_existent()! catch (...) { vprDEBUG(tweekDBG_CORBA, vprDBG_CRITICAL_LVL) << "addSubjectManagers(): Caught unknown exception " << "thrown by _non_existent\n" << vprDEBUG_FLUSH; } } catch (CosNaming::NamingContext::InvalidName& nameEx) { boost::ignore_unused_variable_warning(nameEx); vprDEBUG(tweekDBG_CORBA, vprDBG_CRITICAL_LVL) << "addSubjectManagers(): Tried to resolve invalid name\n" << vprDEBUG_FLUSH; } catch (CosNaming::NamingContext::CannotProceed& proceedEx) { vprDEBUG(tweekDBG_CORBA, vprDBG_CRITICAL_LVL) << "addSubjectManagers(): Cannot proceed with resolution of '" << proceedEx.rest_of_name[0].id << "'\n" << vprDEBUG_FLUSH; } catch (CosNaming::NamingContext::NotFound& notFoundEx) { vprDEBUG(tweekDBG_CORBA, vprDBG_CRITICAL_LVL) << "addSubjectManagers(): No binding for name '" << notFoundEx.rest_of_name[0].id << "' " << vprDEBUG_FLUSH; switch ( notFoundEx.why ) { case CosNaming::NamingContext::missing_node: vprDEBUG_CONT(tweekDBG_CORBA, vprDBG_CRITICAL_LVL) << "(missing node)" << std::endl << vprDEBUG_FLUSH; break; case CosNaming::NamingContext::not_context: vprDEBUG_CONT(tweekDBG_CORBA, vprDBG_CRITICAL_LVL) << "(not a context)" << std::endl << vprDEBUG_FLUSH; break; case CosNaming::NamingContext::not_object: vprDEBUG_CONT(tweekDBG_CORBA, vprDBG_CRITICAL_LVL) << "(not an object)" << std::endl << vprDEBUG_FLUSH; break; } } } else { vprDEBUG(tweekDBG_CORBA, vprDBG_CRITICAL_LVL) << "addSubjectManagers(): Skipping binding with name '" << binding.binding_name[0].id << "'\n" << vprDEBUG_FLUSH; } } } }