//=========================================================================== // // This file is part of the TDE project // // Copyright (c) 1999 Martin R. Jones // Copyright (c) 2003 Oswald Buddenhagen // Copyright (c) 2010 - 2015 Timothy Pearson // //kdesktop keeps running and checks user inactivity //when it should show screensaver (and maybe lock the session), //it starts kdesktop_lock, who does all the locking and who //actually starts the screensaver //It's done this way to prevent screen unlocking when kdesktop //crashes (e.g. because it's set to multiple wallpapers and //some image will be corrupted). #include #include "lockprocess.h" #include "lockdlg.h" #include "infodlg.h" #include "querydlg.h" #include "sakdlg.h" #include "securedlg.h" #include "autologout.h" #include "kdesktopsettings.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_SETPRIORITY #include #include #endif #include #include #include #include #include #include #include #include #ifdef __linux__ #include #endif #include #include #include #include #include #include #ifdef HAVE_DPMS extern "C" { #include #ifndef Bool #define Bool BOOL #endif #include #ifndef HAVE_DPMSINFO_PROTO Status DPMSInfo ( Display *, CARD16 *, BOOL * ); #endif } #endif #ifdef HAVE_XF86MISC #include #endif #ifdef HAVE_GLXCHOOSEVISUAL #include #endif #define KDESKTOP_DEBUG_ID 1204 #define LOCK_GRACE_DEFAULT 5000 #define AUTOLOGOUT_DEFAULT 600 #define DESKTOP_WALLPAPER_OBTAIN_TIMEOUT_MS 3000 // Setting this define is INSECURE // Use it for debugging purposes ONLY // #define KEEP_MOUSE_UNGRABBED 1 // These lines are taken on 10/2009 from X.org (X11/XF86keysym.h), defining some special multimedia keys #define XF86XK_AudioMute 0x1008FF12 #define XF86XK_AudioRaiseVolume 0x1008FF13 #define XF86XK_AudioLowerVolume 0x1008FF11 #define XF86XK_Display 0x1008FF59 // These lines are taken on 08/2013 from X.org (X11/XF86keysym.h), defining some special ACPI power keys #define XF86XK_PowerOff 0x1008FF2A #define XF86XK_Sleep 0x1008FF2F #define XF86XK_Suspend 0x1008FFA7 #define XF86XK_Hibernate 0x1008FFA8 #define DPMS_MONITOR_BLANKED(x) ((x == DPMSModeStandby) || (x == DPMSModeSuspend) || (x == DPMSModeOff)) static Window gVRoot = 0; static Window gVRootData = 0; static Atom gXA_VROOT; static Atom gXA_SCREENSAVER_VERSION; Atom kde_wm_system_modal_notification = 0; Atom kde_wm_transparent_to_desktop = 0; Atom kde_wm_transparent_to_black = 0; static void segv_handler(int) { kdError(KDESKTOP_DEBUG_ID) << "A fatal exception was encountered." << " Trapping and ignoring it so as not to compromise desktop security..." << kdBacktrace() << endl; sleep(1); } extern Atom tqt_wm_state; extern bool trinity_desktop_lock_use_system_modal_dialogs; extern bool trinity_desktop_lock_delay_screensaver_start; extern bool trinity_desktop_lock_use_sak; extern bool trinity_desktop_lock_hide_active_windows; extern bool trinity_desktop_lock_hide_cancel_button; extern bool trinity_desktop_lock_forced; extern LockProcess* trinity_desktop_lock_process; extern bool argb_visual; extern pid_t kdesktop_pid; extern TQXLibWindowList trinity_desktop_lock_hidden_window_list; bool trinity_desktop_lock_autohide_lockdlg = TRUE; #define ENABLE_CONTINUOUS_LOCKDLG_DISPLAY \ if (!mForceContinualLockDisplayTimer->isActive()) mForceContinualLockDisplayTimer->start(100, FALSE); \ trinity_desktop_lock_autohide_lockdlg = FALSE; \ mHackDelayStartupTimer->stop(); #define DISABLE_CONTINUOUS_LOCKDLG_DISPLAY \ mForceContinualLockDisplayTimer->stop(); \ trinity_desktop_lock_autohide_lockdlg = TRUE; \ mHackDelayStartupTimer->stop(); //=========================================================================== // // Screen saver handling process. Handles screensaver window, // starting screensaver hacks, and password entry. // LockProcess::LockProcess() : TQWidget(0L, "saver window", ((WFlags)(WStyle_StaysOnTop|WStyle_Customize|WStyle_NoBorder))), mOpenGLVisual(0), mParent(0), mShowLockDateTime(false), mSuspended(false), mVisibility(false), mRestoreXF86Lock(false), mForbidden(false), mAutoLogout(false), resizeTimer(NULL), hackResumeTimer(NULL), mVkbdProcess(NULL), mKWinModule(NULL), mPipeOpen(false), mPipeOpen_out(false), mInfoMessageDisplayed(false), mDialogControlLock(false), mForceReject(false), currentDialog(NULL), mEnsureScreenHiddenTimer(NULL), mForceContinualLockDisplayTimer(NULL), mEnsureVRootWindowSecurityTimer(NULL), mHackDelayStartupTimer(NULL), mHackDelayStartupTimeout(0), mHackStartupEnabled(true), mOverrideHackStartupEnabled(false), mResizingDesktopLock(false), mFullyOnlineSent(false), mClosingWindows(false), mInSecureDialog(false), mHackActive(false), m_rootPixmap(NULL), mBackingStartupDelayTimer(0), m_startupStatusDialog(NULL), m_mouseDown(0), m_mousePrevX(0), m_mousePrevY(0), m_dialogPrevX(0), m_dialogPrevY(0), m_notifyReadyRequested(false), m_loginCardDevice(NULL), m_maskWidget(NULL), m_saverRootWindow(0) { #ifdef KEEP_MOUSE_UNGRABBED setNFlags(WX11DisableMove|WX11DisableClose|WX11DisableShade|WX11DisableMinimize|WX11DisableMaximize); #endif setupSignals(); // Set up atoms kde_wm_system_modal_notification = XInternAtom(tqt_xdisplay(), "_TDE_WM_MODAL_SYS_NOTIFICATION", False); kde_wm_transparent_to_desktop = XInternAtom(tqt_xdisplay(), "_TDE_TRANSPARENT_TO_DESKTOP", False); kde_wm_transparent_to_black = XInternAtom(tqt_xdisplay(), "_TDE_TRANSPARENT_TO_BLACK", False); kapp->installX11EventFilter(this); mForceContinualLockDisplayTimer = new TQTimer( this ); mHackDelayStartupTimer = new TQTimer( this ); mEnsureVRootWindowSecurityTimer = new TQTimer( this ); if (!argb_visual) { // Try to get the root pixmap if (!m_rootPixmap) m_rootPixmap = new KRootPixmap(this); connect(m_rootPixmap, TQT_SIGNAL(backgroundUpdated(const TQPixmap &)), this, TQT_SLOT(slotPaintBackground(const TQPixmap &))); m_rootPixmap->setCustomPainting(true); m_rootPixmap->start(); } // Get root window attributes XWindowAttributes rootAttr; XGetWindowAttributes(tqt_xdisplay(), RootWindow(tqt_xdisplay(), tqt_xscreen()), &rootAttr); { // trigger creation of QToolTipManager, it does XSelectInput() on the root window TQWidget w; TQToolTip::add( &w, "foo" ); } XSelectInput( tqt_xdisplay(), tqt_xrootwin(), SubstructureNotifyMask | rootAttr.your_event_mask ); // Add non-TDE path TDEGlobal::dirs()->addResourceType("scrsav", TDEGlobal::dirs()->kde_default("apps") + "System/ScreenSavers/"); // Add KDE specific screensaver path TQString relPath="System/ScreenSavers/"; KServiceGroup::Ptr servGroup = KServiceGroup::baseGroup( "screensavers"); if (servGroup) { relPath=servGroup->relPath(); kdDebug(KDESKTOP_DEBUG_ID) << "relPath=" << relPath << endl; } TDEGlobal::dirs()->addResourceType("scrsav", TDEGlobal::dirs()->kde_default("apps") + relPath); // virtual root property gXA_VROOT = XInternAtom (tqt_xdisplay(), "__SWM_VROOT", False); gXA_SCREENSAVER_VERSION = XInternAtom (tqt_xdisplay(), "_SCREENSAVER_VERSION", False); TQStringList dmopt = TQStringList::split(TQChar(','), TQString::fromLatin1( ::getenv( "XDM_MANAGED" ))); for (TQStringList::ConstIterator it = dmopt.begin(); it != dmopt.end(); ++it) { if ((*it).startsWith("method=")) { mMethod = (*it).mid(7); } } // Initialize SmartCard readers TDEGenericDevice *hwdevice; TDEHardwareDevices *hwdevices = TDEGlobal::hardwareDevices(); TDEGenericHardwareList cardReaderList = hwdevices->listByDeviceClass(TDEGenericDeviceType::CryptographicCard); for (hwdevice = cardReaderList.first(); hwdevice; hwdevice = cardReaderList.next()) { TDECryptographicCardDevice* cdevice = static_cast(hwdevice); // connect(cdevice, SIGNAL(pinRequested(TQString,TDECryptographicCardDevice*)), this, SLOT(cryptographicCardPinRequested(TQString,TDECryptographicCardDevice*))); connect(cdevice, TQT_SIGNAL(certificateListAvailable(TDECryptographicCardDevice*)), this, TQT_SLOT(cryptographicCardInserted(TDECryptographicCardDevice*))); connect(cdevice, TQT_SIGNAL(cardRemoved(TDECryptographicCardDevice*)), this, TQT_SLOT(cryptographicCardRemoved(TDECryptographicCardDevice*))); cdevice->enableCardMonitoring(true); // cdevice->enablePINEntryCallbacks(true); } #ifdef KEEP_MOUSE_UNGRABBED setEnabled(false); #endif greetPlugin.library = 0; TDECrash::setCrashHandler(segv_handler); } //--------------------------------------------------------------------------- // // Destructor - usual cleanups. // LockProcess::~LockProcess() { mControlPipeHandler->terminateThread(); mControlPipeHandlerThread->wait(); delete mControlPipeHandler; // delete mControlPipeHandlerThread; if (resizeTimer != NULL) { resizeTimer->stop(); delete resizeTimer; } if (hackResumeTimer != NULL) { hackResumeTimer->stop(); delete hackResumeTimer; } if (mEnsureScreenHiddenTimer != NULL) { mEnsureScreenHiddenTimer->stop(); delete mEnsureScreenHiddenTimer; } if (mForceContinualLockDisplayTimer != NULL) { mForceContinualLockDisplayTimer->stop(); delete mForceContinualLockDisplayTimer; } if (mHackDelayStartupTimer != NULL) { mHackDelayStartupTimer->stop(); delete mHackDelayStartupTimer; } if (mEnsureVRootWindowSecurityTimer != NULL) { mEnsureVRootWindowSecurityTimer->stop(); delete mEnsureVRootWindowSecurityTimer; } if (greetPlugin.library) { if (greetPlugin.info->done) greetPlugin.info->done(); greetPlugin.library->unload(); } if (m_rootPixmap) { m_rootPixmap->stop(); delete m_rootPixmap; } mPipeOpen = false; mPipeOpen_out = false; } //--------------------------------------------------------------------------- // // Initialization for startup // This is where instance settings should be set--all objects should have already been created in the constructor above // void LockProcess::init(bool child, bool useBlankOnly) { // Get root window size XWindowAttributes rootAttr; XGetWindowAttributes(tqt_xdisplay(), RootWindow(tqt_xdisplay(), tqt_xscreen()), &rootAttr); mRootWidth = rootAttr.width; mRootHeight = rootAttr.height; generateBackingImages(); // Connect all signals connect( mForceContinualLockDisplayTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(displayLockDialogIfNeeded()) ); connect( mHackDelayStartupTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(closeDialogAndStartHack()) ); connect( mEnsureVRootWindowSecurityTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(repaintRootWindowIfNeeded()) ); connect(tqApp, TQT_SIGNAL(mouseInteraction(XEvent *)), TQT_SLOT(slotMouseActivity(XEvent *))); connect(&mHackProc, TQT_SIGNAL(processExited(TDEProcess *)), TQT_SLOT(hackExited(TDEProcess *))); connect(&mSuspendTimer, TQT_SIGNAL(timeout()), TQT_SLOT(suspend())); #ifdef HAVE_DPMS //if the user decided that the screensaver should run independent from //dpms, we shouldn't check for it, aleXXX if (KDesktopSettings::dpmsDependent()) { BOOL on; CARD16 state; if (DPMSInfo(tqt_xdisplay(), &state, &on)) { if (on) { connect(&mCheckDPMS, TQT_SIGNAL(timeout()), TQT_SLOT(checkDPMSActive())); // we can save CPU if we stop it as quickly as possible // but we waste CPU if we check too often -> so take 10s mCheckDPMS.start(10000); } } } #endif #if (TQT_VERSION-0 >= 0x030200) // XRANDR support connect( kapp->desktop(), TQT_SIGNAL( resized( int )), TQT_SLOT( desktopResized())); #endif if (!trinity_desktop_lock_use_system_modal_dialogs) { setWFlags((WFlags)WX11BypassWM); } child_saver = child; mUseBlankOnly = useBlankOnly; mShowLockDateTime = KDesktopSettings::showLockDateTime(); mlockDateTime = TQDateTime::currentDateTime(); mHackDelayStartupTimeout = trinity_desktop_lock_delay_screensaver_start?KDesktopSettings::timeout()*1000:10*1000; mHackStartupEnabled = trinity_desktop_lock_use_system_modal_dialogs?KDesktopSettings::screenSaverEnabled():true; configure(); mControlPipeHandlerThread = new TQEventLoopThread(); mControlPipeHandler = new ControlPipeHandlerObject(); mControlPipeHandler->mParent = this; mControlPipeHandler->moveToThread(mControlPipeHandlerThread); TQObject::connect(mControlPipeHandler, SIGNAL(processCommand(TQString)), this, SLOT(processInputPipeCommand(TQString))); TQTimer::singleShot(0, mControlPipeHandler, SLOT(run())); mControlPipeHandlerThread->start(); } static int signal_pipe[2]; static void sigterm_handler(int) { if ((!trinity_desktop_lock_process) || (!trinity_desktop_lock_process->inSecureDialog())) { // Exit uncleanly char tmp = 'U'; if (::write( signal_pipe[1], &tmp, 1) == -1) { // Error handler to shut up gcc warnings } } } static void sighup_handler(int) { char tmp = 'H'; if (::write( signal_pipe[1], &tmp, 1) == -1) { // Error handler to shut up gcc warnings } } bool LockProcess::closeCurrentWindow() { mClosingWindows = TRUE; if (currentDialog != NULL) { mForceReject = true; if (dynamic_cast(currentDialog)) { dynamic_cast(currentDialog)->closeDialogForced(); } else if (dynamic_cast(currentDialog)) { dynamic_cast(currentDialog)->closeDialogForced(); } else { currentDialog->close(); } } if( mDialogs.isEmpty() ) { mClosingWindows = FALSE; mForceReject = false; return false; } else { mClosingWindows = TRUE; return true; } } void LockProcess::timerEvent(TQTimerEvent *ev) { if (mAutoLogout && ev->timerId() == mAutoLogoutTimerId) { killTimer(mAutoLogoutTimerId); AutoLogout autologout(this); execDialog(&autologout); } } void LockProcess::resizeEvent(TQResizeEvent *) { // } void LockProcess::setupSignals() { struct sigaction act; // ignore SIGINT act.sa_handler=SIG_IGN; sigemptyset(&(act.sa_mask)); sigaddset(&(act.sa_mask), SIGINT); act.sa_flags = 0; sigaction(SIGINT, &act, 0L); // ignore SIGQUIT act.sa_handler=SIG_IGN; sigemptyset(&(act.sa_mask)); sigaddset(&(act.sa_mask), SIGQUIT); act.sa_flags = 0; sigaction(SIGQUIT, &act, 0L); // exit uncleanly on SIGTERM act.sa_handler= sigterm_handler; sigemptyset(&(act.sa_mask)); sigaddset(&(act.sa_mask), SIGTERM); act.sa_flags = 0; sigaction(SIGTERM, &act, 0L); // SIGHUP forces lock act.sa_handler= sighup_handler; sigemptyset(&(act.sa_mask)); sigaddset(&(act.sa_mask), SIGHUP); act.sa_flags = 0; sigaction(SIGHUP, &act, 0L); if (pipe(signal_pipe) == -1) { // Error handler to shut up gcc warnings } TQSocketNotifier* notif = new TQSocketNotifier(signal_pipe[0], TQSocketNotifier::Read, TQT_TQOBJECT(this) ); connect( notif, TQT_SIGNAL(activated(int)), TQT_SLOT(signalPipeSignal())); } void LockProcess::signalPipeSignal() { char tmp; if (::read( signal_pipe[0], &tmp, 1) == -1) { // Error handler to shut up gcc warnings } if( tmp == 'T' ) { quitSaver(); } else if( tmp == 'H' ) { if( !mLocked ) startLock(); } else if( tmp == 'U' ) { // Exit uncleanly quitSaver(); exit(1); } } //--------------------------------------------------------------------------- bool LockProcess::lock() { #ifdef USE_SECURING_DESKTOP_NOTIFICATION m_startupStatusDialog = new KSMModalDialog(this); m_startupStatusDialog->setStatusMessage(i18n("Securing desktop session").append("...")); m_startupStatusDialog->show(); m_startupStatusDialog->setActiveWindow(); tqApp->processEvents(); #endif if (startSaver(true)) { // In case of a forced lock we don't react to events during // the dead-time to give the screensaver some time to activate. // That way we don't accidentally show the password dialog before // the screensaver kicks in because the user moved the mouse after // selecting "lock screen", that looks really untidy. mBusy = true; if (startLock()) { TQTimer::singleShot(1000, this, TQT_SLOT(slotDeadTimePassed())); return true; } stopSaver(); mBusy = false; } return false; } //--------------------------------------------------------------------------- void LockProcess::slotDeadTimePassed() { mBusy = false; } //--------------------------------------------------------------------------- bool LockProcess::defaultSave() { mLocked = false; mOverrideHackStartupEnabled = true; if (startSaver()) { if (mLockGrace >= 0) { TQTimer::singleShot(mLockGrace, this, TQT_SLOT(startLock())); } return true; } return false; } //--------------------------------------------------------------------------- bool LockProcess::dontLock() { mLocked = false; return startSaver(); } //--------------------------------------------------------------------------- void LockProcess::quitSaver() { DISABLE_CONTINUOUS_LOCKDLG_DISPLAY if (closeCurrentWindow()) { TQTimer::singleShot( 0, this, SLOT(quitSaver()) ); return; } stopSaver(); kapp->quit(); } //--------------------------------------------------------------------------- void LockProcess::startSecureDialog() { if ((backingPixmap.isNull()) && (mBackingStartupDelayTimer < 100)) { TQTimer::singleShot(10, this, TQT_SLOT(startSecureDialog())); mBackingStartupDelayTimer++; return; } setGeometry(0, 0, mRootWidth, mRootHeight); saverReadyIfNeeded(); int ret; SecureDlg inDlg( this ); inDlg.setRetInt(&ret); mBusy = true; execDialog( &inDlg ); mBusy = false; bool forcecontdisp = mForceContinualLockDisplayTimer->isActive(); if (forcecontdisp) { DISABLE_CONTINUOUS_LOCKDLG_DISPLAY } mInSecureDialog = false; if (ret == 0) { mClosingWindows = 1; kapp->quit(); } if (ret == 1) { // In case of a forced lock we don't react to events during // the dead-time to give the screensaver some time to activate. // That way we don't accidentally show the password dialog before // the screensaver kicks in because the user moved the mouse after // selecting "lock screen", that looks really untidy. mBusy = true; trinity_desktop_lock_forced = true; // Make sure the cursor is not showing busy status setCursor( tqarrowCursor ); if (startLock()) { if (trinity_desktop_lock_delay_screensaver_start) { mBusy = false; } else { TQTimer::singleShot(1000, this, TQT_SLOT(slotDeadTimePassed())); } if (trinity_desktop_lock_delay_screensaver_start && trinity_desktop_lock_forced && trinity_desktop_lock_use_system_modal_dialogs) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } else { if (mHackStartupEnabled == true) { startHack(); } else { if (trinity_desktop_lock_use_system_modal_dialogs == true) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } else { startHack(); } } } return; } stopSaver(); mBusy = false; return; } if (ret == 2) { mClosingWindows = 1; if (system("ksysguard &") == -1) { // Error handler to shut up gcc warnings } kapp->quit(); } if (ret == 3) { mClosingWindows = 1; DCOPRef("ksmserver","ksmserver").send("logout", (int)TDEApplication::ShutdownConfirmYes, (int)TDEApplication::ShutdownTypeNone, (int)TDEApplication::ShutdownModeInteractive); kapp->quit(); } // FIXME // Handle remaining case (switch user) if (forcecontdisp) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } stopSaver(); } bool LockProcess::runSecureDialog() { #ifdef USE_SECURING_DESKTOP_NOTIFICATION m_startupStatusDialog = new KSMModalDialog(this); m_startupStatusDialog->setStatusMessage(i18n("Securing desktop session").append("...")); m_startupStatusDialog->show(); m_startupStatusDialog->setActiveWindow(); tqApp->processEvents(); #endif mInSecureDialog = true; if (startSaver()) { mBackingStartupDelayTimer = 0; TQTimer::singleShot(0, this, TQT_SLOT(startSecureDialog())); return true; } else { return false; } } bool LockProcess::inSecureDialog() { return mInSecureDialog; } //--------------------------------------------------------------------------- // // Read and apply configuration. // void LockProcess::configure() { // the configuration is stored in kdesktop's config file if( KDesktopSettings::lock() ) { mLockGrace = KDesktopSettings::lockGrace(); if (mLockGrace < 0) mLockGrace = 0; else if (mLockGrace > 300000) mLockGrace = 300000; // 5 minutes, keep the value sane } else mLockGrace = -1; if ( KDesktopSettings::autoLogout() ) { mAutoLogout = true; mAutoLogoutTimeout = KDesktopSettings::autoLogoutTimeout(); mAutoLogoutTimerId = startTimer(mAutoLogoutTimeout * 1000); // in milliseconds } mPriority = KDesktopSettings::priority(); if (mPriority < 0) mPriority = 0; if (mPriority > 19) mPriority = 19; mSaver = KDesktopSettings::saver(); if (mSaver.isEmpty() || mUseBlankOnly) { mSaver = "KBlankscreen.desktop"; } if (!trinity_desktop_lock_use_system_modal_dialogs) { if (KDesktopSettings::screenSaverEnabled() == false) { mSaver = ""; mSaverExec = ""; } } readSaver(); mPlugins = KDesktopSettings::pluginsUnlock(); if (mPlugins.isEmpty()) { mPlugins = TQStringList("classic"); } mPluginOptions = KDesktopSettings::pluginOptions(); } //--------------------------------------------------------------------------- // // Read the command line needed to run the screensaver given a .desktop file. // void LockProcess::readSaver() { if (!mSaver.isEmpty()) { TQString file = locate("scrsav", mSaver); bool opengl = kapp->authorize("opengl_screensavers"); bool manipulatescreen = kapp->authorize("manipulatescreen_screensavers"); KDesktopFile config(file, true); if (config.readEntry("X-TDE-Type").utf8() != 0) { TQString saverType = config.readEntry("X-TDE-Type").utf8(); TQStringList saverTypes = TQStringList::split(";", saverType); for (uint i = 0; i < saverTypes.count(); i++) { if ((saverTypes[i] == "ManipulateScreen") && !manipulatescreen) { kdDebug(KDESKTOP_DEBUG_ID) << "Screensaver is type ManipulateScreen and ManipulateScreen is forbidden" << endl; mForbidden = true; } if ((saverTypes[i] == "OpenGL") && !opengl) { kdDebug(KDESKTOP_DEBUG_ID) << "Screensaver is type OpenGL and OpenGL is forbidden" << endl; mForbidden = true; } if (saverTypes[i] == "OpenGL") { mOpenGLVisual = true; } } } kdDebug(KDESKTOP_DEBUG_ID) << "mForbidden: " << (mForbidden ? "true" : "false") << endl; if (trinity_desktop_lock_use_system_modal_dialogs) { if (config.hasActionGroup("InWindow")) { config.setActionGroup("InWindow"); mSaverExec = config.readPathEntry("Exec"); } } else { if (config.hasActionGroup("Root")) { config.setActionGroup("Root"); mSaverExec = config.readPathEntry("Exec"); } } } } //--------------------------------------------------------------------------- // // Create a window to draw our screen saver on. // void LockProcess::createSaverWindow() { Visual* visual = CopyFromParent; XSetWindowAttributes attrs; XVisualInfo* info = NULL; int flags = trinity_desktop_lock_use_system_modal_dialogs?0:CWOverrideRedirect; #ifdef HAVE_GLXCHOOSEVISUAL if( mOpenGLVisual ) { static int attribs[][ 15 ] = { #define R GLX_RED_SIZE #define G GLX_GREEN_SIZE #define B GLX_BLUE_SIZE { GLX_RGBA, R, 8, G, 8, B, 8, GLX_DEPTH_SIZE, 8, GLX_DOUBLEBUFFER, GLX_STENCIL_SIZE, 1, None }, { GLX_RGBA, R, 4, G, 4, B, 4, GLX_DEPTH_SIZE, 4, GLX_DOUBLEBUFFER, GLX_STENCIL_SIZE, 1, None }, { GLX_RGBA, R, 8, G, 8, B, 8, GLX_DEPTH_SIZE, 8, GLX_DOUBLEBUFFER, None }, { GLX_RGBA, R, 4, G, 4, B, 4, GLX_DEPTH_SIZE, 4, GLX_DOUBLEBUFFER, None }, { GLX_RGBA, R, 8, G, 8, B, 8, GLX_DEPTH_SIZE, 8, GLX_STENCIL_SIZE, 1, None }, { GLX_RGBA, R, 4, G, 4, B, 4, GLX_DEPTH_SIZE, 4, GLX_STENCIL_SIZE, 1, None }, { GLX_RGBA, R, 8, G, 8, B, 8, GLX_DEPTH_SIZE, 8, None }, { GLX_RGBA, R, 4, G, 4, B, 4, GLX_DEPTH_SIZE, 4, None }, { GLX_RGBA, GLX_DEPTH_SIZE, 8, GLX_DOUBLEBUFFER, GLX_STENCIL_SIZE, 1, None }, { GLX_RGBA, GLX_DEPTH_SIZE, 8, GLX_DOUBLEBUFFER, None }, { GLX_RGBA, GLX_DEPTH_SIZE, 8, GLX_STENCIL_SIZE, 1, None }, { GLX_RGBA, GLX_DEPTH_SIZE, 8, None } #undef R #undef G #undef B }; for( unsigned int i = 0; i < sizeof( attribs ) / sizeof( attribs[ 0 ] ); ++i ) { int n_glxfb_configs; GLXFBConfig *fbc = glXChooseFBConfig( x11Display(), x11Screen(), attribs[ i ], &n_glxfb_configs); if (!fbc) { n_glxfb_configs = 0; } for( int j = 0; j < n_glxfb_configs; j++ ) { info = glXGetVisualFromFBConfig(x11Display(), fbc[j]); if( info ) { if (argb_visual) { if (info->depth < 32) { XFree( info ); info = NULL; continue; } } visual = info->visual; static Colormap colormap = 0; if( colormap != 0 ) { XFreeColormap( x11Display(), colormap ); } colormap = XCreateColormap( x11Display(), RootWindow( x11Display(), x11Screen()), visual, AllocNone ); attrs.colormap = colormap; flags |= CWColormap; break; } } if (flags & CWColormap) { break; } } if ( !info ) { printf("[WARNING] Unable to locate matching X11 GLX Visual; this OpenGL application may not function correctly!\n"); } } #endif attrs.override_redirect = 1; hide(); if (argb_visual) { // The GL visual selection can return a visual with invalid depth // Check for this and use a fallback visual if needed if (info && (info->depth < 32)) { printf("[WARNING] Unable to locate matching X11 GLX Visual; this OpenGL application may not function correctly!\n"); XFree( info ); info = NULL; flags &= ~CWColormap; } attrs.background_pixel = 0; attrs.border_pixel = 0; flags |= CWBackPixel; flags |= CWBorderPixel; if (!(flags & CWColormap)) { if (!info) { info = new XVisualInfo; if (!XMatchVisualInfo( x11Display(), x11Screen(), 32, TrueColor, info )) { printf("[ERROR] Unable to locate matching X11 Visual; this application will not function correctly!\n"); free(info); info = NULL; } } if (info) { visual = info->visual; attrs.colormap = XCreateColormap( x11Display(), RootWindow( x11Display(), x11Screen()), visual, AllocNone ); flags |= CWColormap; } } } if (info) { XFree( info ); } m_saverRootWindow = XCreateWindow( x11Display(), RootWindow( x11Display(), x11Screen()), x(), y(), width(), height(), 0, x11Depth(), InputOutput, visual, flags, &attrs ); create( m_saverRootWindow ); // Some xscreensaver hacks check for this property const char *version = "KDE 2.0"; XChangeProperty (tqt_xdisplay(), winId(), gXA_SCREENSAVER_VERSION, XA_STRING, 8, PropModeReplace, (unsigned char *) version, strlen(version)); XSetWindowAttributes attr; attr.event_mask = KeyPressMask | ButtonPressMask | PointerMotionMask | VisibilityChangeMask | ExposureMask; XChangeWindowAttributes(tqt_xdisplay(), winId(), CWEventMask, &attr); // Signal that we want to be transparent to the desktop, not to windows behind us... XChangeProperty(tqt_xdisplay(), m_saverRootWindow, kde_wm_transparent_to_desktop, XA_INTEGER, 32, PropModeReplace, (unsigned char *) "TRUE", 1L); // erase(); // set NoBackground so that the saver can capture the current // screen state if necessary // this is a security risk and has been deactivated--welcome to the 21st century folks! // setBackgroundMode(TQWidget::NoBackground); setGeometry(0, 0, mRootWidth, mRootHeight); saverReadyIfNeeded(); // HACK // Hide all tooltips and notification windows { Window rootWindow = RootWindow(x11Display(), x11Screen()); Window parent; Window* children = NULL; unsigned int noOfChildren = 0; XWindowAttributes childAttr; Window childTransient; if (XQueryTree(x11Display(), rootWindow, &rootWindow, &parent, &children, &noOfChildren) && noOfChildren>0 ) { for (unsigned int i=0; istop(); stopHack(); DISABLE_CONTINUOUS_LOCKDLG_DISPLAY mResizingDesktopLock = true; backingPixmap = TQPixmap(); if (trinity_desktop_lock_use_system_modal_dialogs) { // Temporarily hide the entire screen with a new override redirect window if (m_maskWidget) { m_maskWidget->setGeometry(0, 0, mRootWidth, mRootHeight); } else { m_maskWidget = new TQWidget(0, 0, TQt::WStyle_StaysOnTop | TQt::WX11BypassWM); m_maskWidget->setGeometry(0, 0, mRootWidth, mRootHeight); m_maskWidget->setBackgroundColor(TQt::black); m_maskWidget->erase(); m_maskWidget->show(); } XSync(tqt_xdisplay(), False); saverReadyIfNeeded(); if (mEnsureScreenHiddenTimer) { mEnsureScreenHiddenTimer->stop(); } else { mEnsureScreenHiddenTimer = new TQTimer( this ); connect( mEnsureScreenHiddenTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(slotForcePaintBackground()) ); } mEnsureScreenHiddenTimer->start(DESKTOP_WALLPAPER_OBTAIN_TIMEOUT_MS, true); } // Resize the background widget setGeometry(0, 0, mRootWidth, mRootHeight); XSync(tqt_xdisplay(), False); saverReadyIfNeeded(); // Black out the background widget to hide ugly resize tiling artifacts if (argb_visual) { setTransparentBackgroundARGB(); } else { setBackgroundColor(black); } erase(); // This slot needs to be able to execute very rapidly so as to prevent the user's desktop from ever // being displayed, so we finish the hack restarting/display prettying operations in a separate timed slot if (resizeTimer == NULL) { resizeTimer = new TQTimer( this ); connect( resizeTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(doDesktopResizeFinish()) ); } resizeTimer->start( 100, TRUE ); // 100 millisecond single shot timer; should allow display switching operations to finish before hack is started } void LockProcess::doDesktopResizeFinish() { while (mDialogControlLock == true) { usleep(100000); } mDialogControlLock = true; if (closeCurrentWindow()) { TQTimer::singleShot( 0, this, SLOT(doDesktopResizeFinish()) ); mDialogControlLock = false; return; } mDialogControlLock = false; // Restart the hack as the window size is now different if (trinity_desktop_lock_delay_screensaver_start && trinity_desktop_lock_use_system_modal_dialogs) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } else { if (mHackStartupEnabled == true) { startHack(); } else { if (trinity_desktop_lock_use_system_modal_dialogs == true) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } else { startHack(); } } } mResizingDesktopLock = false; mBusy = false; } //--------------------------------------------------------------------------- // // Hide the screensaver window // void LockProcess::hideSaverWindow() { hide(); lower(); removeVRoot(winId()); XDeleteProperty(tqt_xdisplay(), winId(), gXA_SCREENSAVER_VERSION); if ( gVRoot ) { unsigned long vroot_data[1] = { gVRootData }; XChangeProperty(tqt_xdisplay(), gVRoot, gXA_VROOT, XA_WINDOW, 32, PropModeReplace, (unsigned char *)vroot_data, 1); gVRoot = 0; } XSync(tqt_xdisplay(), False); } //--------------------------------------------------------------------------- static int ignoreXError(Display *, XErrorEvent *) { return 0; } //--------------------------------------------------------------------------- // // Save the current virtual root window // void LockProcess::saveVRoot() { Window rootReturn, parentReturn, *children; unsigned int numChildren; Window root = RootWindowOfScreen(ScreenOfDisplay(tqt_xdisplay(), tqt_xscreen())); gVRoot = 0; gVRootData = 0; int (*oldHandler)(Display *, XErrorEvent *); oldHandler = XSetErrorHandler(ignoreXError); if (XQueryTree(tqt_xdisplay(), root, &rootReturn, &parentReturn, &children, &numChildren)) { for (unsigned int i = 0; i < numChildren; i++) { Atom actual_type; int actual_format; unsigned long nitems, bytesafter; unsigned char *newRoot = 0; if ((XGetWindowProperty(tqt_xdisplay(), children[i], gXA_VROOT, 0, 1, False, XA_WINDOW, &actual_type, &actual_format, &nitems, &bytesafter, &newRoot) == Success) && newRoot) { gVRoot = children[i]; Window *dummy = (Window*)newRoot; gVRootData = *dummy; XFree ((char*) newRoot); break; } } if (children) { XFree((char *)children); } } XSetErrorHandler(oldHandler); } //--------------------------------------------------------------------------- // // Set the virtual root property // void LockProcess::setVRoot(Window win, Window vr) { if (gVRoot) { removeVRoot(gVRoot); } unsigned long rw = RootWindowOfScreen(ScreenOfDisplay(tqt_xdisplay(), tqt_xscreen())); unsigned long vroot_data[1] = { vr }; Window rootReturn; Window parentReturn; Window *children = NULL; unsigned int numChildren; Window top = win; while (1) { if (XQueryTree(tqt_xdisplay(), top, &rootReturn, &parentReturn, &children, &numChildren) == 0) { printf("[WARNING] XQueryTree() failed!\n"); fflush(stdout); break; } if (children) { XFree((char *)children); } if (parentReturn == rw) { break; } else { top = parentReturn; } } XChangeProperty(tqt_xdisplay(), top, gXA_VROOT, XA_WINDOW, 32, PropModeReplace, (unsigned char *)vroot_data, 1); } //--------------------------------------------------------------------------- // // Remove the virtual root property // void LockProcess::removeVRoot(Window win) { XDeleteProperty (tqt_xdisplay(), win, gXA_VROOT); } //--------------------------------------------------------------------------- // // Grab the keyboard. Returns true on success // bool LockProcess::grabKeyboard() { int rv = XGrabKeyboard( tqt_xdisplay(), TQApplication::desktop()->winId(), True, GrabModeAsync, GrabModeAsync, CurrentTime ); return (rv == GrabSuccess); } #define GRABEVENTS ButtonPressMask | ButtonReleaseMask | PointerMotionMask | \ EnterWindowMask | LeaveWindowMask //--------------------------------------------------------------------------- // // Grab the mouse. Returns true on success // bool LockProcess::grabMouse() { HANDLE cursorHandle; if (mHackActive) { cursorHandle = TQCursor(tqblankCursor).handle(); } else { cursorHandle = TQCursor(tqbusyCursor).handle(); } int rv = XGrabPointer( tqt_xdisplay(), TQApplication::desktop()->winId(), True, GRABEVENTS, GrabModeAsync, GrabModeAsync, None, cursorHandle, CurrentTime ); return (rv == GrabSuccess); } //--------------------------------------------------------------------------- // // Grab keyboard and mouse. Returns true on success. // bool LockProcess::grabInput() { XSync(tqt_xdisplay(), False); if (!grabKeyboard()) { usleep(100000); if (!grabKeyboard()) { return false; } } #ifndef KEEP_MOUSE_UNGRABBED if (!grabMouse()) { usleep(100000); if (!grabMouse()) { XUngrabKeyboard(tqt_xdisplay(), CurrentTime); return false; } } #endif lockXF86(); return true; } //--------------------------------------------------------------------------- // // Release mouse an keyboard grab. // void LockProcess::ungrabInput() { XUngrabKeyboard(tqt_xdisplay(), CurrentTime); XUngrabPointer(tqt_xdisplay(), CurrentTime); unlockXF86(); } //--------------------------------------------------------------------------- // // Generate requisite backing images for ARGB mode // void LockProcess::generateBackingImages() { if (argb_visual) { mArgbTransparentBackgroundPixmap.resize(mRootWidth, mRootHeight); TQPainter p; p.begin( &mArgbTransparentBackgroundPixmap ); p.fillRect( 0, 0, mArgbTransparentBackgroundPixmap.width(), mArgbTransparentBackgroundPixmap.height(), TQBrush(tqRgba(0, 0, 0, 0)) ); p.end(); } } //--------------------------------------------------------------------------- // // Set a fully transparent ARGB background image. // void LockProcess::setTransparentBackgroundARGB() { // eliminate nasty flicker on first show setBackgroundPixmap( mArgbTransparentBackgroundPixmap ); } void LockProcess::saverReadyIfNeeded() { if (m_notifyReadyRequested) { // Make sure the desktop is hidden before notifying the desktop that the saver is running m_notifyReadyRequested = false; saverReady(); fullyOnline(); } } //--------------------------------------------------------------------------- // // Start the screen saver. // bool LockProcess::startSaver(bool notify_ready) { if (!child_saver && !grabInput()) { kdWarning(KDESKTOP_DEBUG_ID) << "LockProcess::startSaver() grabInput() failed!!!!" << endl; return false; } mBusy = false; // eliminate nasty flicker on first show setTransparentBackgroundARGB(); saveVRoot(); if (mParent) { TQSocketNotifier *notifier = new TQSocketNotifier(mParent, TQSocketNotifier::Read, TQT_TQOBJECT(this), "notifier"); connect(notifier, TQT_SIGNAL( activated (int)), TQT_SLOT( quitSaver())); } createSaverWindow(); move(0, 0); show(); raise(); XSync(tqt_xdisplay(), False); setVRoot( winId(), winId() ); if (!trinity_desktop_lock_hide_active_windows) { if (m_rootPixmap) m_rootPixmap->stop(); TQPixmap rootWinSnapShot = TQPixmap::grabWindow(TQApplication::desktop()->winId()); slotPaintBackground(rootWinSnapShot); } if (((!(trinity_desktop_lock_delay_screensaver_start && trinity_desktop_lock_forced)) && (!mInSecureDialog)) && (mHackStartupEnabled || mOverrideHackStartupEnabled)) { if (argb_visual) { setTransparentBackgroundARGB(); } else { if (backingPixmap.isNull()) { setBackgroundColor(black); } else { setBackgroundPixmap(backingPixmap); } } setGeometry(0, 0, mRootWidth, mRootHeight); erase(); if (notify_ready) { m_notifyReadyRequested = false; saverReady(); fullyOnline(); } } else { if (notify_ready) { m_notifyReadyRequested = true; } } if (mInSecureDialog == FALSE) { if (trinity_desktop_lock_delay_screensaver_start && trinity_desktop_lock_forced && trinity_desktop_lock_use_system_modal_dialogs) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } else { if (mHackStartupEnabled || mOverrideHackStartupEnabled) { mOverrideHackStartupEnabled = false; startHack(); } else { if (trinity_desktop_lock_use_system_modal_dialogs == true) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } else { startHack(); } } } } return true; } //--------------------------------------------------------------------------- // // Stop the screen saver. // void LockProcess::stopSaver() { kdDebug(KDESKTOP_DEBUG_ID) << "LockProcess: stopping saver" << endl; mHackProc.kill(SIGCONT); stopHack(); mSuspended = false; hideSaverWindow(); mVisibility = false; if (!child_saver) { if (mLocked) { DM().setLock( false ); } ungrabInput(); const char *out = "GOAWAY!"; for (TQValueList::ConstIterator it = child_sockets.begin(); it != child_sockets.end(); ++it) { if (write(*it, out, sizeof(out)) == -1) { // Error handler to shut up gcc warnings } } } } // private static TQVariant LockProcess::getConf(void *ctx, const char *key, const TQVariant &dflt) { LockProcess *that = (LockProcess *)ctx; TQString fkey = TQString::fromLatin1( key ) + '='; for (TQStringList::ConstIterator it = that->mPluginOptions.begin(); it != that->mPluginOptions.end(); ++it) { if ((*it).startsWith( fkey )) { return (*it).mid( fkey.length() ); } } return dflt; } void LockProcess::cantLock( const TQString &txt) { msgBox( TQMessageBox::Critical, i18n("Will not lock the session, as unlocking would be impossible:\n") + txt ); } #if 0 // placeholders for later i18n("Cannot start kcheckpass."); i18n("kcheckpass is unable to operate. Possibly it is not SetUID root."); #endif //--------------------------------------------------------------------------- // // Make the screen saver password protected. // bool LockProcess::startLock() { for (TQStringList::ConstIterator it = mPlugins.begin(); it != mPlugins.end(); ++it) { GreeterPluginHandle plugin; TQString path = KLibLoader::self()->findLibrary( ((*it)[0] == '/' ? *it : "kgreet_" + *it ).latin1() ); if (path.isEmpty()) { kdWarning(KDESKTOP_DEBUG_ID) << "GreeterPlugin " << *it << " does not exist" << endl; continue; } if (!(plugin.library = KLibLoader::self()->library( path.latin1() ))) { kdWarning(KDESKTOP_DEBUG_ID) << "Cannot load GreeterPlugin " << *it << " (" << path << ")" << endl; continue; } if (!plugin.library->hasSymbol( "kgreeterplugin_info" )) { kdWarning(KDESKTOP_DEBUG_ID) << "GreeterPlugin " << *it << " (" << path << ") is no valid greet widget plugin" << endl; plugin.library->unload(); continue; } plugin.info = (kgreeterplugin_info*)plugin.library->symbol( "kgreeterplugin_info" ); if (plugin.info->method && !mMethod.isEmpty() && mMethod != plugin.info->method) { kdDebug(KDESKTOP_DEBUG_ID) << "GreeterPlugin " << *it << " (" << path << ") serves " << plugin.info->method << ", not " << mMethod << endl; plugin.library->unload(); continue; } if (!plugin.info->init( mMethod, getConf, this )) { kdDebug(KDESKTOP_DEBUG_ID) << "GreeterPlugin " << *it << " (" << path << ") refuses to serve " << mMethod << endl; plugin.library->unload(); continue; } kdDebug(KDESKTOP_DEBUG_ID) << "GreeterPlugin " << *it << " (" << plugin.info->method << ", " << plugin.info->name << ") loaded" << endl; greetPlugin = plugin; mLocked = true; DM().setLock( true ); return true; } cantLock( i18n("No appropriate greeter plugin configured.") ); return false; } //--------------------------------------------------------------------------- // void LockProcess::closeDialogAndStartHack() { #ifdef HAVE_DPMS if (KDesktopSettings::dpmsDependent()) { BOOL on; CARD16 state; if (DPMSInfo(tqt_xdisplay(), &state, &on)) { //kdDebug() << "checkDPMSActive " << on << " " << state << endl; if (DPMS_MONITOR_BLANKED(state)) { // Make sure saver will attempt to start again after DPMS wakeup // This is related to Bug 1475 ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); // Should not start saver here, because the DPMS check method below would turn it right back off! // This is related to Bug 1475 return; } } } #endif // Close any active dialogs DISABLE_CONTINUOUS_LOCKDLG_DISPLAY mSuspended = true; if (closeCurrentWindow()) { TQTimer::singleShot( 0, this, SLOT(closeDialogAndStartHack()) ); } else { resume(true); } } void LockProcess::repaintRootWindowIfNeeded() { if (trinity_desktop_lock_use_system_modal_dialogs) { if (!mHackProc.isRunning()) { if (argb_visual) { setTransparentBackgroundARGB(); erase(); } else { if (backingPixmap.isNull()) { setBackgroundColor(black); setGeometry(0, 0, mRootWidth, mRootHeight); erase(); } else { bitBlt(this, 0, 0, &backingPixmap); } } } if (currentDialog == NULL) { raise(); } saverReadyIfNeeded(); } } bool LockProcess::startHack() { mHackActive = TRUE; if ((mEnsureVRootWindowSecurityTimer) && (!mEnsureVRootWindowSecurityTimer->isActive())) { mEnsureVRootWindowSecurityTimer->start(250, FALSE); } if (currentDialog || (!mDialogs.isEmpty())) { // no resuming with dialog visible or when not visible if (argb_visual) { setTransparentBackgroundARGB(); } else { if (backingPixmap.isNull()) { setBackgroundColor(black); } else { setBackgroundPixmap(backingPixmap); } } setGeometry(0, 0, mRootWidth, mRootHeight); erase(); saverReadyIfNeeded(); return false; } setCursor( tqblankCursor ); XChangeActivePointerGrab( tqt_xdisplay(), GRABEVENTS, TQCursor(tqblankCursor).handle(), CurrentTime); if (mSaverExec.isEmpty()) { return false; } if (mHackProc.isRunning()) { stopHack(); } mHackProc.clearArguments(); TQTextStream ts(&mSaverExec, IO_ReadOnly); TQString word; ts >> word; TQString path = TDEStandardDirs::findExe(word); if (!path.isEmpty()) { mHackProc << path; kdDebug(KDESKTOP_DEBUG_ID) << "Starting hack: " << path << endl; while (!ts.atEnd()) { ts >> word; if (word == "%w") { word = word.setNum(winId()); } mHackProc << word; } if (!mForbidden) { if (trinity_desktop_lock_use_system_modal_dialogs) { // Make sure we have a nice clean display to start with! if (argb_visual) { // Signal that we want to be transparent to a black background... if (m_saverRootWindow) { XChangeProperty(tqt_xdisplay(), m_saverRootWindow, kde_wm_transparent_to_black, XA_INTEGER, 32, PropModeReplace, (unsigned char *) "TRUE", 1L); XClearArea(tqt_xdisplay(), m_saverRootWindow, 0, 0, 0, 0, True); } setTransparentBackgroundARGB(); } else { if (backingPixmap.isNull()) { setBackgroundColor(black); } else { setBackgroundPixmap(backingPixmap); } } setGeometry(0, 0, mRootWidth, mRootHeight); erase(); saverReadyIfNeeded(); mSuspended = false; } XChangeActivePointerGrab( tqt_xdisplay(), GRABEVENTS, TQCursor(tqblankCursor).handle(), CurrentTime); if (mHackProc.start() == true) { #ifdef HAVE_SETPRIORITY setpriority(PRIO_PROCESS, mHackProc.pid(), mPriority); #endif //bitBlt(this, 0, 0, &mOriginal); DISABLE_CONTINUOUS_LOCKDLG_DISPLAY if (trinity_desktop_lock_delay_screensaver_start && trinity_desktop_lock_forced) { // Close any active dialogs if (closeCurrentWindow()) { TQTimer::singleShot( 0, this, SLOT(closeCurrentWindow()) ); } } if (m_startupStatusDialog) { m_startupStatusDialog->closeSMDialog(); m_startupStatusDialog=NULL; } return true; } } else { // we aren't allowed to start the specified screensaver either because it didn't run for some reason // according to the kiosk restrictions forbid it usleep(100); TQApplication::syncX(); if (!trinity_desktop_lock_use_system_modal_dialogs) { if (argb_visual) { setTransparentBackgroundARGB(); } else { if (backingPixmap.isNull()) { setBackgroundColor(black); } else { setBackgroundPixmap(backingPixmap); } } } if (argb_visual) { setTransparentBackgroundARGB(); erase(); } else { if (backingPixmap.isNull()) { setGeometry(0, 0, mRootWidth, mRootHeight); erase(); } else { bitBlt(this, 0, 0, &backingPixmap); } } if (trinity_desktop_lock_use_system_modal_dialogs) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } saverReadyIfNeeded(); } } if (m_startupStatusDialog) { m_startupStatusDialog->closeSMDialog(); m_startupStatusDialog=NULL; } return false; } //--------------------------------------------------------------------------- // void LockProcess::stopHack() { if (mHackProc.isRunning()) { mHackProc.kill(); if (!mHackProc.wait(10)) { mHackProc.kill(SIGKILL); } } setCursor( tqarrowCursor ); mHackActive = FALSE; } //--------------------------------------------------------------------------- // void LockProcess::hackExited(TDEProcess *) { // Hack exited while we're supposed to be saving the screen. // Make sure the saver window is black. mHackActive = FALSE; usleep(100); TQApplication::syncX(); if (!trinity_desktop_lock_use_system_modal_dialogs) { if (argb_visual) { setTransparentBackgroundARGB(); } else { if (backingPixmap.isNull()) { setBackgroundColor(black); } else { setBackgroundPixmap(backingPixmap); } } } if (argb_visual) { if (m_saverRootWindow) { XDeleteProperty(tqt_xdisplay(), m_saverRootWindow, kde_wm_transparent_to_black); XClearArea(tqt_xdisplay(), m_saverRootWindow, 0, 0, 0, 0, True); } setTransparentBackgroundARGB(); } else { if (backingPixmap.isNull()) { setGeometry(0, 0, mRootWidth, mRootHeight); erase(); } else { bitBlt(this, 0, 0, &backingPixmap); } } if (!mSuspended) { if (trinity_desktop_lock_use_system_modal_dialogs) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } } saverReadyIfNeeded(); } void LockProcess::displayLockDialogIfNeeded() { if (m_startupStatusDialog) { m_startupStatusDialog->closeSMDialog(); m_startupStatusDialog = NULL; } if (!mInSecureDialog) { if (trinity_desktop_lock_use_system_modal_dialogs) { if (!mBusy) { mBusy = true; if (mLocked) { if (checkPass()) { mClosingWindows = true; stopSaver(); kapp->quit(); } } mBusy = false; } } } } void LockProcess::suspend() { if (!mSuspended) { if (trinity_desktop_lock_use_system_modal_dialogs) { mSuspended = true; stopHack(); ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) { mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } } else { TQString hackStatus; mHackProc.kill(SIGSTOP); mSuspended = true; #if 0 // wait for the stop signal to take effect while (hackStatus != "T") { char hackstat[8192]; FILE *fp = fopen(TQString("/proc/%1/stat").arg(mHackProc.pid()).ascii(),"r"); if (fp != NULL) { fgets (hackstat, 8192, fp); fclose (fp); } hackstat[8191] = 0; hackStatus = hackstat; hackStatus = hackStatus.remove(TQRegExp("(*) ", TRUE, TRUE)); TQStringList hackStatusList = TQStringList::split(" ", hackStatus); hackStatus = (*(hackStatusList.at(1))); } #endif TQApplication::syncX(); usleep(100000); // Allow certain bad graphics drivers (*cough* fglrx *cough*) time to actually sync up the display } TQApplication::syncX(); mSavedScreen = TQPixmap::grabWindow( winId()); } } void LockProcess::resume( bool force ) { if (trinity_desktop_lock_use_sak && (mHackDelayStartupTimer->isActive() || !mHackStartupEnabled)) { return; } if( !force && (!mDialogs.isEmpty() || !mVisibility )) { // no resuming with dialog visible or when not visible if (trinity_desktop_lock_use_system_modal_dialogs) { if (argb_visual) { setTransparentBackgroundARGB(); } else { if (backingPixmap.isNull()) { setBackgroundColor(black); } else { setBackgroundPixmap(backingPixmap); } } setGeometry(0, 0, mRootWidth, mRootHeight); erase(); } else { setGeometry(0, 0, mRootWidth, mRootHeight); } saverReadyIfNeeded(); return; } if ((mSuspended) && (mHackProc.isRunning())) { XForceScreenSaver(tqt_xdisplay(), ScreenSaverReset ); bitBlt( this, 0, 0, &mSavedScreen ); TQApplication::syncX(); mHackProc.kill(SIGCONT); mSuspended = false; } else if (mSuspended && trinity_desktop_lock_use_system_modal_dialogs) { startHack(); } } //--------------------------------------------------------------------------- // // Show the password dialog // This is called only in the master process // bool LockProcess::checkPass() { if (!mDialogs.isEmpty()) { // Another dialog is already shown // Abort! return 0; } if (mInfoMessageDisplayed == false) { if (mAutoLogout) { killTimer(mAutoLogoutTimerId); } // Make sure we never launch the SAK or login dialog if windows are being closed down // Otherwise we can get stuck in an irrecoverable state where any attempt to show the login screen is instantly aborted if (mClosingWindows) { return 0; } if (trinity_desktop_lock_use_sak) { // Verify SAK operational status TDEProcess* checkSAKProcess = new TDEProcess; *checkSAKProcess << "tdmtsak" << "check"; checkSAKProcess->start(TDEProcess::Block, TDEProcess::NoCommunication); int retcode = checkSAKProcess->exitStatus(); delete checkSAKProcess; if (retcode != 0) { trinity_desktop_lock_use_sak = false; } } if (trinity_desktop_lock_use_sak) { // Wait for SAK press before continuing... SAKDlg inDlg( this ); execDialog( &inDlg ); if (mClosingWindows) { return 0; } } showVkbd(); PasswordDlg passDlg( this, &greetPlugin, (mShowLockDateTime)?mlockDateTime:TQDateTime()); int ret = execDialog( &passDlg ); hideVkbd(); if (mForceReject == true) { ret = TQDialog::Rejected; } mForceReject = false; XWindowAttributes rootAttr; XGetWindowAttributes(tqt_xdisplay(), RootWindow(tqt_xdisplay(), tqt_xscreen()), &rootAttr); if(( rootAttr.your_event_mask & SubstructureNotifyMask ) == 0 ) { kdWarning() << "ERROR: Something removed SubstructureNotifyMask from the root window!!!" << endl; XSelectInput( tqt_xdisplay(), tqt_xrootwin(), SubstructureNotifyMask | rootAttr.your_event_mask ); } return ret == TQDialog::Accepted; } else { return 0; } } static void fakeFocusIn( WId window ) { // We have keyboard grab, so this application will // get keyboard events even without having focus. // Fake FocusIn to make Qt realize it has the active // window, so that it will correctly show cursor in the dialog. XEvent ev; memset(&ev, 0, sizeof(ev)); ev.xfocus.display = tqt_xdisplay(); ev.xfocus.type = FocusIn; ev.xfocus.window = window; ev.xfocus.mode = NotifyNormal; ev.xfocus.detail = NotifyAncestor; XSendEvent( tqt_xdisplay(), window, False, NoEventMask, &ev ); } void LockProcess::resumeUnforced() { resume( false ); } int LockProcess::execDialog( TQDialog *dlg ) { currentDialog=dlg; dlg->adjustSize(); TQRect rect = dlg->geometry(); rect.moveCenter(TDEGlobalSettings::desktopGeometry(TQCursor::pos()).center()); dlg->move( rect.topLeft() ); if (mDialogs.isEmpty()) { suspend(); XChangeActivePointerGrab( tqt_xdisplay(), GRABEVENTS, TQCursor(tqarrowCursor).handle(), CurrentTime); } mDialogs.prepend( dlg ); fakeFocusIn( dlg->winId()); if (trinity_desktop_lock_use_system_modal_dialogs) { if (backingPixmap.isNull()) { setGeometry(0, 0, mRootWidth, mRootHeight); erase(); } else { bitBlt(this, 0, 0, &backingPixmap); } saverReadyIfNeeded(); } // dlg->exec may generate BadMatch errors, so make sure they are silently ignored int (*oldHandler)(Display *, XErrorEvent *); oldHandler = XSetErrorHandler(ignoreXError); int rt = dlg->exec(); XSetErrorHandler(oldHandler); while (mDialogControlLock == true) { usleep(100000); } currentDialog = NULL; mDialogs.remove( dlg ); if( mDialogs.isEmpty() ) { HANDLE cursorHandle; if (mHackActive) { cursorHandle = TQCursor(tqblankCursor).handle(); } else { cursorHandle = TQCursor(tqbusyCursor).handle(); } XChangeActivePointerGrab( tqt_xdisplay(), GRABEVENTS, cursorHandle, CurrentTime); if (trinity_desktop_lock_use_system_modal_dialogs) { // Slight delay before screensaver resume to allow the dialog window to fully disappear if (hackResumeTimer == NULL) { hackResumeTimer = new TQTimer( this ); connect( hackResumeTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(resumeUnforced()) ); } if (mResizingDesktopLock == false) { hackResumeTimer->start( 10, TRUE ); } } else { resume( false ); } } else { fakeFocusIn( mDialogs.first()->winId()); currentDialog = dynamic_cast(mDialogs.first()); } return rt; } void LockProcess::slotForcePaintBackground() { TQPixmap blankPixmap(mRootWidth, mRootHeight); blankPixmap.fill(Qt::black); slotPaintBackground(blankPixmap); printf("[WARNING] Unable to obtain desktop wallpaper in a timely manner. High system load or possibly a TDE bug!\n"); fflush(stdout); } void LockProcess::slotPaintBackground(const TQPixmap &rpm) { if (argb_visual) { if (mEnsureScreenHiddenTimer) { mEnsureScreenHiddenTimer->stop(); } return; } if (mEnsureScreenHiddenTimer) { mEnsureScreenHiddenTimer->stop(); } else { mEnsureScreenHiddenTimer = new TQTimer( this ); connect( mEnsureScreenHiddenTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(slotForcePaintBackground()) ); } // Only remove the mask widget once the resize is 100% complete! if (m_maskWidget) { delete m_maskWidget; m_maskWidget = NULL; XSync(tqt_xdisplay(), False); } TQPixmap pm = rpm; if (TQPaintDevice::x11AppDepth() == 32) { // Remove the alpha components from the image TQImage correctedImage = pm.convertToImage(); correctedImage = correctedImage.convertDepth(32); correctedImage.setAlphaBuffer(true); int w = correctedImage.width(); int h = correctedImage.height(); for (int y = 0; y < h; ++y) { TQRgb *ls = (TQRgb *)correctedImage.scanLine( y ); for (int x = 0; x < w; ++x) { TQRgb l = ls[x]; int r = int( tqRed( l ) ); int g = int( tqGreen( l ) ); int b = int( tqBlue( l ) ); int a = int( 255 ); ls[x] = tqRgba( r, g, b, a ); } } pm.convertFromImage(correctedImage); } backingPixmap = pm; if ((trinity_desktop_lock_delay_screensaver_start && trinity_desktop_lock_forced) || (!mHackStartupEnabled)) { setBackgroundPixmap(backingPixmap); setGeometry(0, 0, mRootWidth, mRootHeight); erase(); } } void LockProcess::preparePopup() { TQWidget *dlg = (TQWidget *)sender(); mDialogs.prepend( dlg ); fakeFocusIn( dlg->winId() ); } void LockProcess::cleanupPopup() { TQWidget *dlg = (TQWidget *)sender(); mDialogs.remove( dlg ); if ( mDialogs.isEmpty() ) { fakeFocusIn( mDialogs.first()->winId() ); } } void LockProcess::doFunctionKeyBroadcast() { // Provide a clean, pretty display switch by hiding the password dialog here // This does NOT work with the SAK or system modal dialogs! if ((!trinity_desktop_lock_use_system_modal_dialogs) && (!trinity_desktop_lock_use_sak)) { mBusy=true; TQTimer::singleShot(1000, this, TQT_SLOT(slotDeadTimePassed())); if (mkeyCode == XKeysymToKeycode(tqt_xdisplay(), XF86XK_Display)) { while (mDialogControlLock == true) { usleep(100000); } mDialogControlLock = true; currentDialog->close(); // DO NOT use closeCurrentWindow() here! mDialogControlLock = false; } } DCOPRef ref( "*", "MainApplication-Interface"); ref.send("sendFakeKey", DCOPArg(mkeyCode , "unsigned int")); } //--------------------------------------------------------------------------- // // X11 Event. // bool LockProcess::x11Event(XEvent *event) { // Allow certain very specific keypresses through // Key: Reason: // XF86Display You need to be able to see the screen when unlocking your computer // XF86AudioMute Would be nice to be able to shut your computer up in an emergency while it is locked // XF86AudioRaiseVolume Ditto // XF86AudioLowerVolume Ditto // XF86XK_PowerOff If someone has access to the power button, they can hard power off the machine anyway // XF86XK_Sleep Ditto // XF86XK_Suspend Ditto // XF86XK_Hibernate Ditto //if ((event->type == KeyPress) || (event->type == KeyRelease)) { if (event->type == KeyPress) { // Multimedia keys if ((event->xkey.keycode == XKeysymToKeycode(event->xkey.display, XF86XK_Display)) || \ (event->xkey.keycode == XKeysymToKeycode(event->xkey.display, XF86XK_AudioMute)) || \ (event->xkey.keycode == XKeysymToKeycode(event->xkey.display, XF86XK_AudioRaiseVolume)) || \ (event->xkey.keycode == XKeysymToKeycode(event->xkey.display, XF86XK_AudioLowerVolume))) { mkeyCode = event->xkey.keycode; TQTimer::singleShot( 100, this, TQT_SLOT(doFunctionKeyBroadcast()) ); return true; } // ACPI power keys if ((event->xkey.keycode == XKeysymToKeycode(event->xkey.display, XF86XK_PowerOff)) || \ (event->xkey.keycode == XKeysymToKeycode(event->xkey.display, XF86XK_Sleep)) || \ (event->xkey.keycode == XKeysymToKeycode(event->xkey.display, XF86XK_Suspend)) || \ (event->xkey.keycode == XKeysymToKeycode(event->xkey.display, XF86XK_Hibernate))) { mkeyCode = event->xkey.keycode; TQTimer::singleShot( 100, this, TQT_SLOT(doFunctionKeyBroadcast()) ); return true; } } switch (event->type) { case ButtonPress: case MotionNotify: case ButtonRelease: if( forwardVkbdEvent( event )) { return true; // filter out } // fall through case KeyPress: if ((mHackDelayStartupTimer) && (mHackDelayStartupTimer->isActive())) { if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } if (mBusy || !mDialogs.isEmpty()) { break; } mBusy = true; if (trinity_desktop_lock_delay_screensaver_start) { if (mLocked) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) { mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } } if ((!mLocked) && (!mInSecureDialog)) { stopSaver(); kapp->quit(); } if (mAutoLogout) { // we need to restart the auto logout countdown killTimer(mAutoLogoutTimerId); mAutoLogoutTimerId = startTimer(mAutoLogoutTimeout); } } else { if (!mLocked || checkPass()) { mClosingWindows = true; stopSaver(); kapp->quit(); } else if (mAutoLogout) { // we need to restart the auto logout countdown killTimer(mAutoLogoutTimerId); mAutoLogoutTimerId = startTimer(mAutoLogoutTimeout); } } mBusy = false; return true; case VisibilityNotify: if( event->xvisibility.window == winId()) { // mVisibility == false means the screensaver is not visible at all // e.g. when switched to text console mVisibility = !(event->xvisibility.state == VisibilityFullyObscured); if(!mVisibility) { mSuspendTimer.start(2000, true); } else { mSuspendTimer.stop(); if (mResizingDesktopLock == false) { if (trinity_desktop_lock_delay_screensaver_start && trinity_desktop_lock_forced && trinity_desktop_lock_use_system_modal_dialogs) { // Do nothing } else { if (mHackStartupEnabled == true) { resume( false ); } else { if (trinity_desktop_lock_use_system_modal_dialogs == true) { ENABLE_CONTINUOUS_LOCKDLG_DISPLAY if (mHackStartupEnabled) mHackDelayStartupTimer->start(mHackDelayStartupTimeout, TRUE); } else { resume( false ); } } } } } if (event->xvisibility.state != VisibilityUnobscured) { stayOnTop(); } } break; case ConfigureNotify: // from SubstructureNotifyMask on the root window if(event->xconfigure.event == tqt_xrootwin()) { stayOnTop(); } for( TQValueList< VkbdWindow >::Iterator it = mVkbdWindows.begin(); it != mVkbdWindows.end(); ++it ) { if( (*it).id == event->xconfigure.window ) { (*it).rect = TQRect( event->xconfigure.x, event->xconfigure.y, event->xconfigure.width, event->xconfigure.height ); break; } } break; case MapNotify: // from SubstructureNotifyMask on the root window windowAdded( event->xmap.window, false ); if( event->xmap.event == tqt_xrootwin()) { stayOnTop(); } break; case DestroyNotify: for( TQValueList< VkbdWindow >::Iterator it = mVkbdWindows.begin(); it != mVkbdWindows.end(); ++it ) { if( (*it).id == event->xdestroywindow.window ) { mVkbdWindows.remove( it ); break; } } break; } // We have grab with the grab window being the root window. // This results in key events being sent to the root window, // but they should be sent to the dialog if it's visible. // It could be solved by setFocus() call, but that would mess // the focus after this process exits. // Qt seems to be quite hard to persuade to redirect the event, // so let's simply dupe it with correct destination window, // and ignore the original one. if(!mDialogs.isEmpty() && ( event->type == KeyPress || event->type == KeyRelease) && event->xkey.window != mDialogs.first()->winId()) { XEvent ev2 = *event; ev2.xkey.window = ev2.xkey.subwindow = mDialogs.first()->winId(); tqApp->x11ProcessEvent( &ev2 ); return true; } return false; } void LockProcess::stayOnTop() { if(!mDialogs.isEmpty() || !mVkbdWindows.isEmpty()) { // this restacking is written in a way so that // if the stacking positions actually don't change, // all restacking operations will be no-op, // and no ConfigureNotify will be generated, // thus avoiding possible infinite loops if( !mVkbdWindows.isEmpty()) { XRaiseWindow( tqt_xdisplay(), mVkbdWindows.first().id ); } else { XRaiseWindow( tqt_xdisplay(), mDialogs.first()->winId()); // raise topmost } // and stack others below it Window* stack = new Window[ mDialogs.count() + mVkbdWindows.count() + 1 ]; int count = 0; for( TQValueList< VkbdWindow >::ConstIterator it = mVkbdWindows.begin(); it != mVkbdWindows.end(); ++it ) { stack[ count++ ] = (*it).id; } for( TQValueList< TQWidget* >::ConstIterator it = mDialogs.begin(); it != mDialogs.end(); ++it ) { stack[ count++ ] = (*it)->winId(); } stack[ count++ ] = winId(); XRestackWindows( x11Display(), stack, count ); delete[] stack; } else { XRaiseWindow(tqt_xdisplay(), winId()); } } void LockProcess::checkDPMSActive() { #ifdef HAVE_DPMS if (KDesktopSettings::dpmsDependent()) { BOOL on; CARD16 state; if (DPMSInfo(tqt_xdisplay(), &state, &on)) { //kdDebug() << "checkDPMSActive " << on << " " << state << endl; if (DPMS_MONITOR_BLANKED(state)) { suspend(); } else if (mSuspended) { if (mResizingDesktopLock == false) { resume( true ); } } } } #endif } #if defined(HAVE_XF86MISC) && defined(HAVE_XF86MISCSETGRABKEYSSTATE) // see http://cvsweb.xfree86.org/cvsweb/xc/programs/Xserver/hw/xfree86/common/xf86Events.c#rev3.113 // This allows enabling the "Allow{Deactivate/Closedown}Grabs" options in XF86Config, // and kdesktop_lock will still lock the session. static enum { Unknown, Yes, No } can_do_xf86_lock = Unknown; void LockProcess::lockXF86() { if( can_do_xf86_lock == Unknown ) { int major, minor; if( XF86MiscQueryVersion( tqt_xdisplay(), &major, &minor ) && major >= 0 && minor >= 5 ) { can_do_xf86_lock = Yes; } else { can_do_xf86_lock = No; } } if( can_do_xf86_lock != Yes ) { return; } if( mRestoreXF86Lock ) { return; } if( XF86MiscSetGrabKeysState( tqt_xdisplay(), False ) != MiscExtGrabStateSuccess ) { return; } // success mRestoreXF86Lock = true; } void LockProcess::unlockXF86() { if( can_do_xf86_lock != Yes ) { return; } if( !mRestoreXF86Lock ) { return; } XF86MiscSetGrabKeysState( tqt_xdisplay(), True ); mRestoreXF86Lock = false; } #else void LockProcess::lockXF86() { // } void LockProcess::unlockXF86() { // } #endif void LockProcess::msgBox( TQMessageBox::Icon type, const TQString &txt ) { TQDialog box( 0, "messagebox", true, (trinity_desktop_lock_use_system_modal_dialogs?((WFlags)WStyle_StaysOnTop):((WFlags)WX11BypassWM)) ); if (trinity_desktop_lock_use_system_modal_dialogs) { // Signal that we do not want any window controls to be shown at all XChangeProperty(tqt_xdisplay(), box.winId(), kde_wm_system_modal_notification, XA_INTEGER, 32, PropModeReplace, (unsigned char *) "TRUE", 1L); } box.setCaption(i18n("Authentication Subsystem Notice")); TQFrame *winFrame = new TQFrame( &box ); if (trinity_desktop_lock_use_system_modal_dialogs) { winFrame->setFrameStyle( TQFrame::NoFrame ); } else { winFrame->setFrameStyle( TQFrame::WinPanel | TQFrame::Raised ); } winFrame->setLineWidth( 2 ); TQLabel *label1 = new TQLabel( winFrame ); label1->setPixmap( TQMessageBox::standardIcon( type ) ); TQLabel *label2 = new TQLabel( txt, winFrame ); KPushButton *button = new KPushButton( KStdGuiItem::ok(), winFrame ); button->setDefault( true ); button->setSizePolicy( TQSizePolicy( TQSizePolicy::Preferred, TQSizePolicy::Preferred ) ); connect( button, TQT_SIGNAL( clicked() ), &box, TQT_SLOT( accept() ) ); TQVBoxLayout *vbox = new TQVBoxLayout( &box ); vbox->addWidget( winFrame ); TQGridLayout *grid = new TQGridLayout( winFrame, 2, 2, 10 ); grid->addWidget( label1, 0, 0, Qt::AlignCenter ); grid->addWidget( label2, 0, 1, Qt::AlignCenter ); grid->addMultiCellWidget( button, 1,1, 0,1, Qt::AlignCenter ); execDialog( &box ); } static int run_vkbd = -1; void LockProcess::showVkbd() { if( run_vkbd == - 1 ) { #ifdef WITH_HAL int status = system( "hal-find-by-property --key system.formfactor.subtype --string tabletpc" ); // status = 0; // enable for testing run_vkbd = ( WIFEXITED( status ) && WEXITSTATUS( status ) == 0 && !TDEStandardDirs::findExe( "xvkbd" ).isEmpty()) ? 1 : 0; #else // WITH_HAL run_vkbd = (!TDEStandardDirs::findExe( "xvkbd" ).isEmpty()); #endif // WITH_HAL } if( run_vkbd ) { mVkbdWindows.clear(); mVkbdLastEventWindow = None; mKWinModule = new KWinModule( NULL, KWinModule::INFO_WINDOWS ); connect( mKWinModule, TQT_SIGNAL( windowAdded( WId )), TQT_SLOT( windowAdded( WId ))); mVkbdProcess = new TDEProcess; *mVkbdProcess << "xvkbd" << "-compact" << "-geometry" << "-0-0" << "-xdm"; mVkbdProcess->start(); } } void LockProcess::hideVkbd() { if( mVkbdProcess != NULL ) { mVkbdProcess->kill(); delete mVkbdProcess; mVkbdProcess = NULL; delete mKWinModule; mKWinModule = NULL; mVkbdWindows.clear(); } } void LockProcess::windowAdded( WId w ) { windowAdded( w, true ); } void LockProcess::windowAdded( WId w, bool managed ) { // KWin::windowInfo may generate BadWindow errors, so make sure they are silently ignored int (*oldHandler)(Display *, XErrorEvent *); oldHandler = XSetErrorHandler(ignoreXError); KWin::WindowInfo info = KWin::windowInfo( w, 0, NET::WM2WindowClass ); XSetErrorHandler(oldHandler); if( info.windowClassClass().lower() != "xvkbd" ) { return; } // Unmanaged windows (i.e. popups) don't currently work anyway, since they // don't have WM_CLASS set anyway. I could perhaps try tricks with X id // ranges if really needed. if( managed ) { // withdraw the window, wait for it to be withdrawn, reparent it directly // to root at the right position XWithdrawWindow( tqt_xdisplay(), w, tqt_xscreen()); for(;;) { Atom type; int format; unsigned long length, after; unsigned char *data; int r = XGetWindowProperty( tqt_xdisplay(), w, tqt_wm_state, 0, 2, false, AnyPropertyType, &type, &format, &length, &after, &data ); bool withdrawn = true; if ( r == Success && data && format == 32 ) { TQ_UINT32 *wstate = (TQ_UINT32*)data; withdrawn = (*wstate == WithdrawnState ); XFree( (char *)data ); } if( withdrawn ) { break; } } } XSelectInput( tqt_xdisplay(), w, StructureNotifyMask ); XWindowAttributes attr_geom; if( !XGetWindowAttributes( tqt_xdisplay(), w, &attr_geom )) { return; } int x = XDisplayWidth( tqt_xdisplay(), tqt_xscreen()) - attr_geom.width; int y = XDisplayHeight( tqt_xdisplay(), tqt_xscreen()) - attr_geom.height; if( managed ) { XSetWindowAttributes attr; if (!trinity_desktop_lock_use_system_modal_dialogs) { attr.override_redirect = True; XChangeWindowAttributes( tqt_xdisplay(), w, CWOverrideRedirect, &attr ); } XReparentWindow( tqt_xdisplay(), w, tqt_xrootwin(), x, y ); XMapWindow( tqt_xdisplay(), w ); } VkbdWindow data; data.id = w; data.rect = TQRect( x, y, attr_geom.width, attr_geom.height ); mVkbdWindows.prepend( data ); } bool LockProcess::forwardVkbdEvent( XEvent* event ) { if( mVkbdProcess == NULL ) { return false; } TQPoint pos; Time time; switch( event->type ) { case ButtonPress: case ButtonRelease: pos = TQPoint( event->xbutton.x, event->xbutton.y ); time = event->xbutton.time; break; case MotionNotify: pos = TQPoint( event->xmotion.x, event->xmotion.y ); time = event->xmotion.time; break; default: return false; } // vkbd windows are kept topmost, so just find the first one in the position for( TQValueList< VkbdWindow >::ConstIterator it = mVkbdWindows.begin(); it != mVkbdWindows.end(); ++it ) { if( TQT_TQRECT_OBJECT((*it).rect).contains( pos )) { // Find the subwindow where the event should actually go. // Not exactly cheap in the number of X roundtrips but oh well. Window window = (*it).id; Window root, child; int root_x, root_y, x, y; unsigned int mask; for(;;) { if( !XQueryPointer( tqt_xdisplay(), window, &root, &child, &root_x, &root_y, &x, &y, &mask )) { return false; } if( child == None ) { break; } window = child; } switch( event->type ) { case ButtonPress: case ButtonRelease: event->xbutton.x = x; event->xbutton.y = y; event->xbutton.subwindow = None; break; case MotionNotify: event->xmotion.x = x; event->xmotion.y = y; event->xmotion.subwindow = None; break; } event->xany.window = window; sendVkbdFocusInOut( window, time ); XSendEvent( tqt_xdisplay(), window, False, 0, event ); return true; } } sendVkbdFocusInOut( None, time ); return false; } // Fake EnterNotify/LeaveNotify events as the mouse moves. They're not sent by X // because of the grab and having them makes xvkbd highlight the buttons (but // not needed otherwise it seems). void LockProcess::sendVkbdFocusInOut( WId window, Time t ) { if( mVkbdLastEventWindow == window ) { return; } if( mVkbdLastEventWindow != None ) { XEvent e; e.xcrossing.type = LeaveNotify; e.xcrossing.display = tqt_xdisplay(); e.xcrossing.window = mVkbdLastEventWindow; e.xcrossing.root = tqt_xrootwin(); e.xcrossing.subwindow = None; e.xcrossing.time = t; e.xcrossing.x = 0; e.xcrossing.y = 0; e.xcrossing.x_root = -1; e.xcrossing.y_root = -1; e.xcrossing.mode = NotifyNormal; e.xcrossing.detail = NotifyAncestor; e.xcrossing.same_screen = True; e.xcrossing.focus = False; e.xcrossing.state = 0; XSendEvent( tqt_xdisplay(), mVkbdLastEventWindow, False, 0, &e ); } mVkbdLastEventWindow = window; if( mVkbdLastEventWindow != None ) { XEvent e; e.xcrossing.type = EnterNotify; e.xcrossing.display = tqt_xdisplay(); e.xcrossing.window = mVkbdLastEventWindow; e.xcrossing.root = tqt_xrootwin(); e.xcrossing.subwindow = None; e.xcrossing.time = t; e.xcrossing.x = 0; e.xcrossing.y = 0; e.xcrossing.x_root = 0; e.xcrossing.y_root = 0; e.xcrossing.mode = NotifyNormal; e.xcrossing.detail = NotifyAncestor; e.xcrossing.same_screen = True; e.xcrossing.focus = False; e.xcrossing.state = 0; XSendEvent( tqt_xdisplay(), mVkbdLastEventWindow, False, 0, &e ); } } void LockProcess::slotMouseActivity(XEvent *event) { bool inFrame = 0; bool inDialog = 0; XButtonEvent *be = (XButtonEvent *) event; XMotionEvent *me = (XMotionEvent *) event; if ((event->type == ButtonPress) && (!mDialogs.isEmpty())) { // Get geometry including window frame/titlebar TQRect fgeom = mDialogs.first()->frameGeometry(); TQRect wgeom = mDialogs.first()->geometry(); if (((be->x_root > fgeom.x()) && (be->y_root > fgeom.y())) && ((be->x_root < (fgeom.x()+fgeom.width())) && (be->y_root < (fgeom.y()+fgeom.height())))) { inFrame = 1; } if (((be->x_root > wgeom.x()) && (be->y_root > wgeom.y())) && ((be->x_root < (wgeom.x()+wgeom.width())) && (be->y_root < (wgeom.y()+wgeom.height())))) { inDialog = 1; } // Clicked inside dialog; set focus if (inFrame == TRUE) { WId window = mDialogs.first()->winId(); XSetInputFocus(tqt_xdisplay(), window, RevertToParent, CurrentTime); fakeFocusIn(window); // Why this needs to be repeated I have no idea... XSetInputFocus(tqt_xdisplay(), window, RevertToParent, CurrentTime); fakeFocusIn(window); } // Clicked inside window handle (or border); drag window if ((inFrame == TRUE) && (inDialog == FALSE)) { TQPoint oldPoint = mDialogs.first()->pos(); m_mouseDown = 1; m_dialogPrevX = oldPoint.x(); m_dialogPrevY = oldPoint.y(); m_mousePrevX = be->x_root; m_mousePrevY = be->y_root; XChangeActivePointerGrab( tqt_xdisplay(), GRABEVENTS, TQCursor(tqsizeAllCursor).handle(), CurrentTime); } } // Drag the window... if (event->type == MotionNotify) { if (m_mouseDown == TRUE) { int deltaX = me->x_root - m_mousePrevX; int deltaY = me->y_root - m_mousePrevY; m_dialogPrevX = m_dialogPrevX + deltaX; m_dialogPrevY = m_dialogPrevY + deltaY; if (!mDialogs.isEmpty()) mDialogs.first()->move(m_dialogPrevX, m_dialogPrevY); m_mousePrevX = me->x_root; m_mousePrevY = me->y_root; } } if (event->type == ButtonRelease) { m_mouseDown = 0; XChangeActivePointerGrab( tqt_xdisplay(), GRABEVENTS, TQCursor(tqarrowCursor).handle(), CurrentTime); } } void LockProcess::processInputPipeCommand(TQString inputcommand) { TQCString command(inputcommand.ascii()); TQString to_display; const char * pin_entry; if (command[0] == 'C') { while (mDialogControlLock == true) usleep(100000); mDialogControlLock = true; if (mInfoMessageDisplayed || !trinity_desktop_lock_use_system_modal_dialogs) { if (currentDialog != NULL) { mForceReject = true; closeCurrentWindow(); } } mClosingWindows = false; mInfoMessageDisplayed = false; mDialogControlLock = false; } if (command[0] == 'T') { to_display = command.data(); to_display = to_display.remove(0,1); // Lock out password dialogs and close any active dialog while (mDialogControlLock == true) usleep(100000); mDialogControlLock = true; if (mInfoMessageDisplayed || !trinity_desktop_lock_use_system_modal_dialogs) { if (currentDialog != NULL) { mForceReject = true; closeCurrentWindow(); } } mInfoMessageDisplayed = true; mDialogControlLock = false; // Display info message dialog InfoDlg inDlg( this ); inDlg.updateLabel(to_display); inDlg.setUnlockIcon(); execDialog( &inDlg ); mForceReject = false; mClosingWindows = false; return; } if ((command[0] == 'E') || (command[0] == 'W') || (command[0] == 'I') || (command[0] == 'K')) { to_display = command.data(); to_display = to_display.remove(0,1); // Lock out password dialogs and close any active dialog while (mDialogControlLock == true) usleep(100000); mDialogControlLock = true; if (mInfoMessageDisplayed || !trinity_desktop_lock_use_system_modal_dialogs) { if (currentDialog != NULL) { mForceReject = true; closeCurrentWindow(); } } mInfoMessageDisplayed = true; mDialogControlLock = false; // Display info message dialog InfoDlg inDlg( this ); inDlg.updateLabel(to_display); if (command[0] == 'K') inDlg.setKDEIcon(); if (command[0] == 'I') inDlg.setInfoIcon(); if (command[0] == 'W') inDlg.setWarningIcon(); if (command[0] == 'E') inDlg.setErrorIcon(); execDialog( &inDlg ); mForceReject = false; mClosingWindows = false; return; } if (command[0] == 'Q') { to_display = command.data(); to_display = to_display.remove(0,1); // Lock out password dialogs and close any active dialog while (mDialogControlLock == true) usleep(100000); mDialogControlLock = true; if (mInfoMessageDisplayed || !trinity_desktop_lock_use_system_modal_dialogs) { if (currentDialog != NULL) { mForceReject = true; closeCurrentWindow(); } } mInfoMessageDisplayed = true; mDialogControlLock = false; // Display query dialog QueryDlg qryDlg( this ); qryDlg.updateLabel(to_display); qryDlg.setUnlockIcon(); mForceReject = false; execDialog( &qryDlg ); if (mForceReject == false) { pin_entry = qryDlg.getEntry(); mInfoMessageDisplayed=false; if (mPipeOpen_out == true) { if (write(mPipe_fd_out, pin_entry, strlen(pin_entry)+1) == -1) { // Error handler to shut up gcc warnings } if (write(mPipe_fd_out, "\n\r", 3) == -1) { // Error handler to shut up gcc warnings } } } mForceReject = false; mClosingWindows = false; return; } } void LockProcess::cryptographicCardInserted(TDECryptographicCardDevice* cdevice) { TQString login_name = TQString::null; X509CertificatePtrList certList = cdevice->cardX509Certificates(); if (certList.count() > 0) { KSSLCertificate* card_cert = NULL; card_cert = KSSLCertificate::fromX509(certList[0]); TQStringList cert_subject_parts = TQStringList::split("/", card_cert->getSubject(), false); for (TQStringList::Iterator it = cert_subject_parts.begin(); it != cert_subject_parts.end(); ++it ) { TQString lcpart = (*it).lower(); if (lcpart.startsWith("cn=")) { login_name = lcpart.right(lcpart.length() - strlen("cn=")); } } delete card_cert; } if (login_name != "") { KUser user; if (login_name == user.loginName()) { // Activate appropriate VT DM dm; SessList sess; if (dm.localSessions(sess)) { TQString user, loc; for (SessList::ConstIterator it = sess.begin(); it != sess.end(); ++it) { DM::sess2Str2(*it, user, loc); if ((*it).self) { // Switch VTs DM().switchVT((*it).vt); break; } } } // Pass login to the PAM stack... m_loginCardDevice = cdevice; if (dynamic_cast(currentDialog)) { dynamic_cast(currentDialog)->closeDialogForced(); TQTimer::singleShot(0, this, SLOT(signalPassDlgToAttemptCardLogin())); } else if (dynamic_cast(currentDialog)) { dynamic_cast(currentDialog)->closeDialogForced(); TQTimer::singleShot(0, this, SLOT(signalPassDlgToAttemptCardLogin())); } else if (dynamic_cast(currentDialog)) { signalPassDlgToAttemptCardLogin(); } } } } void LockProcess::cryptographicCardRemoved(TDECryptographicCardDevice* cdevice) { PasswordDlg* passDlg = dynamic_cast(currentDialog); if (passDlg) { passDlg->resetCardLogin(); } else { m_loginCardDevice = NULL; TQTimer::singleShot(0, this, SLOT(signalPassDlgToAttemptCardAbort())); } } void LockProcess::signalPassDlgToAttemptCardLogin() { PasswordDlg* passDlg = dynamic_cast(currentDialog); if (passDlg && m_loginCardDevice) { passDlg->attemptCardLogin(); } else { if (currentDialog && m_loginCardDevice) { // Try again later TQTimer::singleShot(0, this, SLOT(signalPassDlgToAttemptCardLogin())); } } } void LockProcess::signalPassDlgToAttemptCardAbort() { PasswordDlg* passDlg = dynamic_cast(currentDialog); if (passDlg) { passDlg->resetCardLogin(); } else { if (currentDialog) { // Try again later TQTimer::singleShot(0, this, SLOT(signalPassDlgToAttemptCardAbort())); } } } void LockProcess::cryptographicCardPinRequested(TQString prompt, TDECryptographicCardDevice* cdevice) { TQCString password; const char * pin_entry; QueryDlg qryDlg(this); qryDlg.updateLabel(prompt); qryDlg.setUnlockIcon(); mForceReject = false; execDialog(&qryDlg); if (mForceReject == false) { pin_entry = qryDlg.getEntry(); cdevice->setProvidedPin(pin_entry); } else { cdevice->setProvidedPin(TQString::null); } } TDECryptographicCardDevice* LockProcess::cryptographicCardDevice() { return m_loginCardDevice; } void LockProcess::fullyOnline() { if (!mFullyOnlineSent) { if (kdesktop_pid > 0) { if (kill(kdesktop_pid, SIGUSR2) < 0) { // The controlling kdesktop process probably died. Commit suicide... // Exit uncleanly exit(1); } else { mFullyOnlineSent = true; } } } } void LockProcess::saverReady() { DCOPRef ref( "kdesktop", "KScreensaverIface"); ref.send( "saverLockReady" ); } //=========================================================================== // // Control pipe handler // ControlPipeHandlerObject::ControlPipeHandlerObject() : TQObject() { mParent = NULL; mRunning = false; mTerminate = false; mThreadID = 0L; } ControlPipeHandlerObject::~ControlPipeHandlerObject() { // } void ControlPipeHandlerObject::run(void) { mThreadID = pthread_self(); mRunning = true; sigset_t new_mask; sigemptyset(&new_mask); sigaddset(&new_mask, SIGUSR1); // Unblock SIGUSR1 pthread_sigmask(SIG_UNBLOCK, &new_mask, NULL); int display_number = atoi(TQString(XDisplayString(tqt_xdisplay())).replace(":","").ascii()); if (display_number < 0) { printf("[kdesktop_lock] Warning: unable to create control socket. Interactive logon modules may not function properly.\n"); mRunning = false; TQApplication::eventLoop()->exit(-1); return; } char fifo_file[PATH_MAX]; char fifo_file_out[PATH_MAX]; snprintf(fifo_file, PATH_MAX, FIFO_FILE, display_number); snprintf(fifo_file_out, PATH_MAX, FIFO_FILE_OUT, display_number); /* Create the FIFOs if they do not exist */ umask(0); mkdir(FIFO_DIR,0644); mknod(fifo_file, S_IFIFO|0644, 0); chmod(fifo_file, 0644); mParent->mPipe_fd = open(fifo_file, O_RDONLY | O_NONBLOCK); if (mParent->mPipe_fd > -1) { mParent->mPipeOpen = true; } mknod(fifo_file_out, S_IFIFO|0600, 0); chmod(fifo_file_out, 0600); mParent->mPipe_fd_out = open(fifo_file_out, O_RDWR | O_NONBLOCK); if (mParent->mPipe_fd_out > -1) { mParent->mPipeOpen_out = true; } if (!mParent->mPipeOpen) { printf("[kdesktop_lock] Warning: unable to create control socket '%s'. Interactive logon modules may not function properly.\n", fifo_file); mRunning = false; TQApplication::eventLoop()->exit(-1); return; } int numread; int retval; fd_set rfds; FD_ZERO(&rfds); FD_SET(mParent->mPipe_fd, &rfds); TQByteArray readbuf(128); while (mParent->mPipeOpen && !mTerminate) { TQString inputcommand = ""; // Wait for mParent->mPipe_fd to receive input retval = select(mParent->mPipe_fd + 1, &rfds, NULL, NULL, NULL); if (retval < 0) { // ERROR } else if (retval) { // New data is available readbuf[0]=' '; numread = read(mParent->mPipe_fd, readbuf.data(), 128); readbuf[numread] = 0; if (numread > 0) { inputcommand += readbuf; emit processCommand(inputcommand); } } } mRunning = false; TQApplication::eventLoop()->exit(0); return; } void ControlPipeHandlerObject::terminateThread() { if (mRunning) { mTerminate = true; pthread_kill(mThreadID, SIGUSR1); } } #include "lockprocess.moc"