// Registrar.cpp #include "Debug.h" #include #include #include #include #include #include "ClipboardHandler.h" #include "EventQueue.h" #include "MessageEvent.h" #include "MessageRunnerManager.h" #include "MIMEManager.h" #include "Registrar.h" #include "TRoster.h" /*! \class Registrar \brief The application class of the registrar. Glues the registrar services together and dispatches the roster messages. */ //! Name of the event queue. static const char *kEventQueueName = "timer_thread"; //! Time interval between two roster sanity checks (1 s). static const bigtime_t kRosterSanityEventInterval = 1000000LL; // constructor /*! \brief Creates the registrar application class. */ Registrar::Registrar() : BApplication(kRegistrarSignature), fRoster(NULL), fClipboardHandler(NULL), fMIMEManager(NULL), fEventQueue(NULL), fMessageRunnerManager(NULL), fSanityEvent(NULL) { FUNCTION_START(); } // destructor /*! \brief Frees all resources associated with the registrar. All registrar services, that haven't been shut down earlier, are terminated. */ Registrar::~Registrar() { FUNCTION_START(); Lock(); fEventQueue->Die(); delete fMessageRunnerManager; delete fEventQueue; delete fSanityEvent; fMIMEManager->Lock(); fMIMEManager->Quit(); RemoveHandler(fClipboardHandler); delete fClipboardHandler; delete fRoster; // Invalidate the global be_roster, so that the BApplication destructor // won't dead-lock when sending a message to itself. BRoster::Private().SetTo(BMessenger(), BMessenger()); FUNCTION_END(); } // MessageReceived /*! \brief Overrides the super class version to dispatch roster specific messages. \param message The message to be handled */ void Registrar::MessageReceived(BMessage *message) { // FUNCTION_START(); switch (message->what) { // general requests case B_REG_GET_MIME_MESSENGER: { PRINT(("B_REG_GET_MIME_MESSENGER\n")); BMessenger messenger(NULL, fMIMEManager); BMessage reply(B_REG_SUCCESS); reply.AddMessenger("messenger", messenger); message->SendReply(&reply); break; } case B_REG_GET_CLIPBOARD_MESSENGER: { PRINT(("B_REG_GET_CLIPBOARD_MESSENGER\n")); BMessenger messenger(fClipboardHandler); BMessage reply(B_REG_SUCCESS); reply.AddMessenger("messenger", messenger); message->SendReply(&reply); break; } // roster requests case B_REG_ADD_APP: fRoster->HandleAddApplication(message); break; case B_REG_COMPLETE_REGISTRATION: fRoster->HandleCompleteRegistration(message); break; case B_REG_IS_APP_PRE_REGISTERED: fRoster->HandleIsAppPreRegistered(message); break; case B_REG_REMOVE_PRE_REGISTERED_APP: fRoster->HandleRemovePreRegApp(message); break; case B_REG_REMOVE_APP: fRoster->HandleRemoveApp(message); break; case B_REG_SET_THREAD_AND_TEAM: fRoster->HandleSetThreadAndTeam(message); break; case B_REG_SET_SIGNATURE: fRoster->HandleSetSignature(message); break; case B_REG_GET_APP_INFO: fRoster->HandleGetAppInfo(message); break; case B_REG_GET_APP_LIST: fRoster->HandleGetAppList(message); break; case B_REG_ACTIVATE_APP: fRoster->HandleActivateApp(message); break; case B_REG_BROADCAST: fRoster->HandleBroadcast(message); break; case B_REG_START_WATCHING: fRoster->HandleStartWatching(message); break; case B_REG_STOP_WATCHING: fRoster->HandleStopWatching(message); break; case B_REG_GET_RECENT_DOCUMENTS: fRoster->HandleGetRecentDocuments(message); break; case B_REG_GET_RECENT_FOLDERS: fRoster->HandleGetRecentFolders(message); break; case B_REG_GET_RECENT_APPS: fRoster->HandleGetRecentApps(message); break; case B_REG_ADD_TO_RECENT_DOCUMENTS: fRoster->HandleAddToRecentDocuments(message); break; case B_REG_ADD_TO_RECENT_FOLDERS: fRoster->HandleAddToRecentFolders(message); break; case B_REG_ADD_TO_RECENT_APPS: fRoster->HandleAddToRecentApps(message); break; case B_REG_CLEAR_RECENT_DOCUMENTS: fRoster->ClearRecentDocuments(); break; case B_REG_CLEAR_RECENT_FOLDERS: fRoster->ClearRecentFolders(); break; case B_REG_CLEAR_RECENT_APPS: fRoster->ClearRecentApps(); break; case B_REG_LOAD_RECENT_LISTS: fRoster->HandleLoadRecentLists(message); break; case B_REG_SAVE_RECENT_LISTS: fRoster->HandleSaveRecentLists(message); break; // message runner requests case B_REG_REGISTER_MESSAGE_RUNNER: fMessageRunnerManager->HandleRegisterRunner(message); break; case B_REG_UNREGISTER_MESSAGE_RUNNER: fMessageRunnerManager->HandleUnregisterRunner(message); break; case B_REG_SET_MESSAGE_RUNNER_PARAMS: fMessageRunnerManager->HandleSetRunnerParams(message); break; case B_REG_GET_MESSAGE_RUNNER_INFO: fMessageRunnerManager->HandleGetRunnerInfo(message); break; // internal messages case B_REG_ROSTER_SANITY_EVENT: fRoster->CheckSanity(); fSanityEvent->SetTime(system_time() + kRosterSanityEventInterval); fEventQueue->AddEvent(fSanityEvent); break; default: BApplication::MessageReceived(message); break; } // FUNCTION_END(); } // ReadyToRun /*! \brief Overrides the super class version to initialize the registrar services. */ void Registrar::ReadyToRun() { FUNCTION_START(); // create event queue fEventQueue = new EventQueue(kEventQueueName); // create roster fRoster = new TRoster; fRoster->Init(); // create clipboard handler fClipboardHandler = new ClipboardHandler; AddHandler(fClipboardHandler); // create MIME manager fMIMEManager = new MIMEManager; fMIMEManager->Run(); // create message runner manager fMessageRunnerManager = new MessageRunnerManager(fEventQueue); // init the global be_roster BRoster::Private().SetTo(be_app_messenger, BMessenger(NULL, fMIMEManager)); // create and schedule the sanity message event fSanityEvent = new MessageEvent(system_time() + kRosterSanityEventInterval, this, B_REG_ROSTER_SANITY_EVENT); fSanityEvent->SetAutoDelete(false); fEventQueue->AddEvent(fSanityEvent); FUNCTION_END(); } // QuitRequested /*! \brief Overrides the super class version to avoid termination of the registrar until the system shutdown. */ bool Registrar::QuitRequested() { FUNCTION_START(); // The final registrar must not quit. At least not that easily. ;-) return BApplication::QuitRequested(); } // GetEventQueue /*! \brief Returns the registrar's event queue. \return The registrar's event queue. */ EventQueue* Registrar::GetEventQueue() const { return fEventQueue; } // App /*! \brief Returns the Registrar application object. \return The Registrar application object. */ Registrar* Registrar::App() { return dynamic_cast(be_app); } // main /*! \brief Creates and runs the registrar application. The main thread is renamed. \return 0. */ int main() { FUNCTION_START(); // rename the main thread rename_thread(find_thread(NULL), kRosterThreadName); // create and run the registrar application Registrar *app = new Registrar(); PRINT(("app->Run()...\n")); app->Run(); PRINT(("delete app...\n")); delete app; FUNCTION_END(); return 0; }