/* * Copyright (c) 2001-2005, Haiku, Inc. * Distributed under the terms of the MIT license. * * Authors: * DarkWyrm * Axel Dörfler, axeld@pinc-software.de */ #include #include #include #include #include #include #include #include #include #include #include #include #include "BitmapManager.h" #include "ColorSet.h" #include "CursorManager.h" #include "DecorManager.h" #include "DefaultDecorator.h" #include "Desktop.h" #include "FontServer.h" #include "HWInterface.h" #include "RegistrarDefs.h" #include "RGBColor.h" #include "Layer.h" #include "WinBorder.h" #include "RootLayer.h" #include "ScreenManager.h" #include "ServerApp.h" #include "ServerConfig.h" #include "ServerCursor.h" #include "ServerProtocol.h" #include "ServerWindow.h" #include "SystemPalette.h" #include "Utils.h" #include "AppServer.h" //#define DEBUG_KEYHANDLING //#define DEBUG_SERVER #ifdef DEBUG_KEYHANDLING # include # define KBTRACE(x) printf x #else # define KBTRACE(x) ; #endif #ifdef DEBUG_SERVER # include # define STRACE(x) printf x #else # define STRACE(x) ; #endif // Globals Desktop *gDesktop; port_id gAppServerPort; static AppServer *sAppServer; //! System-wide GUI color object ColorSet gGUIColorSet; /*! \brief Constructor This loads the default fonts, allocates all the major global variables, spawns the main housekeeping threads, loads user preferences for the UI and decorator, and allocates various locks. */ AppServer::AppServer() : MessageLooper("app_server"), fCursorSem(-1), fCursorArea(-1) { fMessagePort = create_port(DEFAULT_MONITOR_PORT_SIZE, SERVER_PORT_NAME); if (fMessagePort < B_OK) debugger("app_server could not create message port"); fLink.SetReceiverPort(fMessagePort); gAppServerPort = fMessagePort; // Create the input port. The input_server will send it's messages here. // TODO: If we want multiple user support we would need an individual // port for each user and do the following for each RootLayer. fServerInputPort = create_port(200, SERVER_INPUT_PORT); if (fServerInputPort < B_OK) debugger("app_server could not create input port"); sAppServer = this; // Create the font server and scan the proper directories. gFontServer = new FontServer; gFontServer->Lock(); gFontServer->ScanSystemFolders(); gFontServer->SaveList(); if (!gFontServer->SetSystemPlain(DEFAULT_PLAIN_FONT_FAMILY, DEFAULT_PLAIN_FONT_STYLE, DEFAULT_PLAIN_FONT_SIZE) && !gFontServer->SetSystemPlain(FALLBACK_PLAIN_FONT_FAMILY, DEFAULT_PLAIN_FONT_STYLE, DEFAULT_PLAIN_FONT_SIZE)) { printf("Couldn't set plain to %s (fallback: %s), %s %d pt\n", DEFAULT_PLAIN_FONT_FAMILY, FALLBACK_PLAIN_FONT_FAMILY, DEFAULT_PLAIN_FONT_STYLE, DEFAULT_PLAIN_FONT_SIZE); } if (!gFontServer->SetSystemBold(DEFAULT_BOLD_FONT_FAMILY, DEFAULT_BOLD_FONT_STYLE, DEFAULT_BOLD_FONT_SIZE) && !gFontServer->SetSystemBold(FALLBACK_BOLD_FONT_FAMILY, DEFAULT_BOLD_FONT_STYLE, DEFAULT_BOLD_FONT_SIZE)) { printf("Couldn't set bold to %s (fallback: %s), %s %d pt\n", DEFAULT_BOLD_FONT_FAMILY, FALLBACK_BOLD_FONT_FAMILY, DEFAULT_BOLD_FONT_STYLE, DEFAULT_BOLD_FONT_SIZE); } if (!gFontServer->SetSystemFixed(DEFAULT_FIXED_FONT_FAMILY, DEFAULT_FIXED_FONT_STYLE, DEFAULT_FIXED_FONT_SIZE) && !gFontServer->SetSystemFixed(FALLBACK_FIXED_FONT_FAMILY, DEFAULT_FIXED_FONT_STYLE, DEFAULT_FIXED_FONT_SIZE)) { printf("Couldn't set fixed to %s (fallback: %s), %s %d pt\n", DEFAULT_FIXED_FONT_FAMILY, FALLBACK_FIXED_FONT_FAMILY, DEFAULT_FIXED_FONT_STYLE, DEFAULT_FIXED_FONT_SIZE); } gFontServer->Unlock(); // Load the GUI colors here and set the global set to the values contained therein. If this // is not possible, set colors to the defaults if (LoadColorSet(SERVER_SETTINGS_DIR COLOR_SETTINGS_NAME, &gGUIColorSet) != B_OK) gGUIColorSet.SetToDefaults(); gScreenManager = new ScreenManager(); gScreenManager->Run(); // the system palette needs to be initialized before the desktop, // since it is used there already InitializeColorMap(); // Create the bitmap allocator. Object declared in BitmapManager.cpp gBitmapManager = new BitmapManager(); // Set up the Desktop gDesktop = new Desktop(); gDesktop->Init(); gDesktop->Run(); #if 0 LaunchCursorThread(); #endif } /*! \brief Destructor Reached only when the server is asked to shut down in Test mode. */ AppServer::~AppServer() { delete gBitmapManager; gScreenManager->Lock(); gScreenManager->Quit(); delete gFontServer; } /*! \brief Starts Input Server */ void AppServer::LaunchInputServer() { // We are supposed to start the input_server, but it's a BApplication // that depends on the registrar running, which is started after app_server // so we wait on roster thread to launch the input server fISThreadID = B_ERROR; while (!BRoster::Private().IsMessengerValid(false) && !fQuitting) { snooze(250000); BRoster::Private::DeleteBeRoster(); BRoster::Private::InitBeRoster(); } if (fQuitting) return; // we use an area for cursor data communication with input_server // area id and sem id are sent to the input_server if (fCursorArea < B_OK) fCursorArea = create_area("isCursor", (void**) &fCursorAddr, B_ANY_ADDRESS, B_PAGE_SIZE, B_FULL_LOCK, B_READ_AREA | B_WRITE_AREA); if (fCursorSem < B_OK) fCursorSem = create_sem(0, "isSem"); int32 arg_c = 1; char **arg_v = (char **)malloc(sizeof(char *) * (arg_c + 1)); #if TEST_MODE arg_v[0] = strdup("/boot/home/svnhaiku/trunk/distro/x86.R1/beos/system/servers/input_server"); #else arg_v[0] = strdup("/system/servers/input_server"); #endif arg_v[1] = NULL; fISThreadID = load_image(arg_c, (const char**)arg_v, (const char **)environ); free(arg_v[0]); int32 tmpbuf[2] = {fCursorSem, fCursorArea}; int32 code = 0; send_data(fISThreadID, code, (void *)tmpbuf, sizeof(tmpbuf)); resume_thread(fISThreadID); setpgid(fISThreadID, 0); // we receive thread_id sender; code = receive_data(&sender, (void *)tmpbuf, sizeof(tmpbuf)); fISASPort = tmpbuf[0]; fISPort = tmpbuf[1]; // if at any time, one of these ports is error prone, it might mean input_server is gone // then relaunch input_server } /*! \brief Starts the Cursor Thread */ void AppServer::LaunchCursorThread() { // Spawn our cursor thread fCursorThreadID = spawn_thread(CursorThread, "CursorThreadOfTheDeath", B_REAL_TIME_DISPLAY_PRIORITY - 1, this); if (fCursorThreadID >= 0) resume_thread(fCursorThreadID); } /*! \brief The Cursor Thread task */ int32 AppServer::CursorThread(void* data) { AppServer *server = (AppServer *)data; server->LaunchInputServer(); do { while (acquire_sem(server->fCursorSem) == B_OK) { BPoint p; p.y = *server->fCursorAddr & 0x7fff; p.x = *server->fCursorAddr >> 15 & 0x7fff; gDesktop->GetHWInterface()->MoveCursorTo(p.x, p.y); STRACE(("CursorThread : %f, %f\n", p.x, p.y)); } snooze(100000); } while (!server->IsQuitting()); return B_OK; } /*! \brief The call that starts it all... */ void AppServer::RunLooper() { rename_thread(find_thread(NULL), "picasso"); _message_thread((void *)this); } /*! \brief Message handling function for all messages sent to the app_server \param code ID of the message sent \param buffer Attachment buffer for the message. */ void AppServer::_DispatchMessage(int32 code, BPrivate::LinkReceiver& msg) { switch (code) { case AS_GET_DESKTOP: { port_id replyPort; if (msg.Read(&replyPort) < B_OK) break; int32 userID; msg.Read(&userID); BPrivate::LinkSender reply(replyPort); reply.StartMessage(B_OK); reply.Attach(gDesktop->MessagePort()); reply.Flush(); break; } case AS_QUERY_FONTS_CHANGED: { // Client application is asking if the font list has changed since // the last client-side refresh // Attached data: // 1) port_id reply port gFontServer->Lock(); bool needsUpdate = gFontServer->FontsNeedUpdated(); gFontServer->Unlock(); // Seeing how the client merely wants an answer, we'll skip the BPortLink // and all its overhead and just write the code to port. port_id replyPort; if (msg.Read(&replyPort) < B_OK) break; BPrivate::PortLink reply(replyPort); reply.StartMessage(needsUpdate ? SERVER_TRUE : SERVER_FALSE); reply.Flush(); break; } #if TEST_MODE case B_QUIT_REQUESTED: { thread_id thread = gDesktop->Thread(); // We've been asked to quit, so (for now) broadcast to all // test apps to quit. This situation will occur only when the server // is compiled as a regular Be application. gDesktop->PostMessage(B_QUIT_REQUESTED); fQuitting = true; // we just wait for the desktop to kill itself status_t status; wait_for_thread(thread, &status); kill_thread(fCursorThreadID); delete this; // we are now clear to exit exit(0); break; } #endif case AS_SET_SYSCURSOR_DEFAULTS: { gDesktop->GetCursorManager().SetDefaults(); break; } case AS_ACTIVATE_APP: { // Someone is requesting to activation of a certain app. // Attached data: // 1) port_id reply port // 2) team_id team status_t error = B_OK; // get the parameters port_id replyPort; team_id team; if (msg.Read(&replyPort) < B_OK || msg.Read(&team) < B_OK) { error = B_ERROR; } // activate one of the app's windows. if (error == B_OK) { error = B_BAD_TEAM_ID; if (gDesktop->Lock()) { // search for an unhidden window to give focus to int32 windowCount = gDesktop->WindowList().CountItems(); Layer *layer; for (int32 i = 0; i < windowCount; ++i) // is this layer in fact a WinBorder? if ((layer = static_cast(gDesktop->WindowList().ItemAtFast(i)))) { WinBorder *winBorder = dynamic_cast(layer); // if winBorder is valid and not hidden, then we've found our target if (winBorder && !winBorder->IsHidden() && winBorder->App()->ClientTeam() == team) { if (gDesktop->ActiveRootLayer() && gDesktop->ActiveRootLayer()->Lock()) { gDesktop->ActiveRootLayer()->SetActive(winBorder); gDesktop->ActiveRootLayer()->Unlock(); if (gDesktop->ActiveRootLayer()->Active() == winBorder) error = B_OK; else error = B_ERROR; } } } gDesktop->Unlock(); } } // send the reply BPrivate::PortLink replyLink(replyPort); replyLink.StartMessage(error); replyLink.Flush(); break; } default: STRACE(("Server::MainLoop received unexpected code %ld (offset %ld)\n", code, code - SERVER_TRUE)); break; } } // #pragma mark - /*! \brief Entry function to run the entire server \param argc Number of command-line arguments present \param argv String array of the command-line arguments \return -1 if the app_server is already running, 0 if everything's OK. */ int main(int argc, char** argv) { // There can be only one.... if (find_port(SERVER_PORT_NAME) >= B_OK) return -1; srand(real_time_clock_usecs()); AppServer* server = new AppServer; server->RunLooper(); return 0; }