//---------------------------------------------------------------------------- // // This file is part of the KDE project // // Copyright (c) 1999 Martin R. Jones // Copyright (c) 2003 Lubos Lunak // // KDE screensaver engine // #ifdef HAVE_CONFIG_H #include #endif #include "xautolock.h" #include "xautolock.moc" #include #include #include #include #include #include "xautolock_c.h" #ifdef HAVE_DPMS extern "C" { #include #ifndef Bool #define Bool BOOL #endif #include #ifndef HAVE_DPMSINFO_PROTO tqStatus DPMSInfo ( Display *, CARD16 *, BOOL * ); #endif } #endif int xautolock_useXidle = 0; int xautolock_useMit = 0; xautolock_corner_t xautolock_corners[ 4 ]; static XAutoLock* self = NULL; static int catchFalseAlarms(Display *, XErrorEvent *) { return 0; } //=========================================================================== // // Detect user inactivity. // Named XAutoLock after the program that it is based on. // XAutoLock::XAutoLock() { self = this; int dummy = 0; dummy = dummy; // shut up xautolock_useXidle = 0; xautolock_useMit = 0; #ifdef HAVE_XIDLE useXidle = XidleQueryExtension( qt_xdisplay(), &dummy, &dummy ); #endif #ifdef HAVE_XSCREENSAVER if( !xautolock_useXidle ) xautolock_useMit = XScreenSaverQueryExtension( qt_xdisplay(), &dummy, &dummy ); #endif if( !xautolock_useXidle && !xautolock_useMit ) { kapp->installX11EventFilter( this ); int (*oldHandler)(Display *, XErrorEvent *); oldHandler = XSetErrorHandler(catchFalseAlarms); XSync(qt_xdisplay(), False ); xautolock_initDiy( qt_xdisplay()); XSync(qt_xdisplay(), False ); XSetErrorHandler(oldHandler); } mTimeout = DEFAULT_TIMEOUT; mDPMS = true; resetTrigger(); time(&mLastTimeout); mActive = false; mTimerId = startTimer( CHECK_INTERVAL ); } //--------------------------------------------------------------------------- // // Destructor. // XAutoLock::~XAutoLock() { self = NULL; } //--------------------------------------------------------------------------- // // The time in seconds of continuous inactivity. // void XAutoLock::setTimeout(int t) { mTimeout = t; resetTrigger(); } void XAutoLock::setDPMS(bool s) { mDPMS = s; } //--------------------------------------------------------------------------- // // Start watching Activity // void XAutoLock::start() { resetTrigger(); time(&mLastTimeout); mActive = true; } //--------------------------------------------------------------------------- // // Stop watching Activity // void XAutoLock::stop() { mActive = false; } //--------------------------------------------------------------------------- // // Reset the trigger time. // void XAutoLock::resetTrigger() { mTrigger = time(0) + mTimeout; } //--------------------------------------------------------------------------- // // Move the trigger time in order to postpone (repeat) emitting of timeout(). // void XAutoLock::postpone() { mTrigger = time(0) + 60; // delay by 60sec } //--------------------------------------------------------------------------- // // Set the remaining time to 't', if it's shorter than already set. // void XAutoLock::setTrigger( time_t t ) { if( t < mTrigger ) mTrigger = t; } //--------------------------------------------------------------------------- // // Process new windows and check the mouse. // void XAutoLock::timerEvent(TQTimerEvent *ev) { if (ev->timerId() != mTimerId) { return; } int (*oldHandler)(Display *, XErrorEvent *) = NULL; if( !xautolock_useXidle && !xautolock_useMit ) { // only the diy way needs special X handler XSync( qt_xdisplay(), False ); oldHandler = XSetErrorHandler(catchFalseAlarms); } xautolock_processQueue(); time_t now = time(0); if ((now > mLastTimeout && now - mLastTimeout > TIME_CHANGE_LIMIT) || (mLastTimeout > now && mLastTimeout - now > TIME_CHANGE_LIMIT+1)) { /* the time has changed in one large jump. This could be because the date was changed, or the machine was suspended. We'll just reset the triger. */ resetTrigger(); } mLastTimeout = now; xautolock_queryIdleTime( qt_xdisplay()); xautolock_queryPointer( qt_xdisplay()); if( !xautolock_useXidle && !xautolock_useMit ) XSetErrorHandler(oldHandler); bool activate = false; //kdDebug() << now << " " << mTrigger << endl; if (now >= mTrigger) { resetTrigger(); activate = true; } #ifdef HAVE_DPMS BOOL on; CARD16 state; DPMSInfo( qt_xdisplay(), &state, &on ); //kdDebug() << "DPMSInfo " << state << " " << on << endl; // If DPMS is active, it makes XScreenSaverQueryInfo() report idle time // that is always smaller than DPMS timeout (X bug I guess). So if DPMS // saving is active, simply always activate our saving too, otherwise // this could prevent locking from working. if(state == DPMSModeStandby || state == DPMSModeSuspend || state == DPMSModeOff) activate = true; if(!on && mDPMS) { activate = false; resetTrigger(); } #endif #ifdef HAVE_XSCREENSAVER static XScreenSaverInfo* mitInfo = 0; if (!mitInfo) mitInfo = XScreenSaverAllocInfo (); if (XScreenSaverQueryInfo (qt_xdisplay(), DefaultRootWindow (qt_xdisplay()), mitInfo)) { //kdDebug() << "XScreenSaverQueryInfo " << mitInfo->state << " " << ScreenSaverDisabled << endl; if (mitInfo->state == ScreenSaverDisabled) activate = false; } #endif if(mActive && activate) emit timeout(); } bool XAutoLock::x11Event( XEvent* ev ) { xautolock_processEvent( ev ); // don't futher process key events that were received only because XAutoLock wants them if( ev->type == KeyPress && !ev->xkey.send_event && !xautolock_useXidle && !xautolock_useMit && !TQWidget::find( ev->xkey.window )) return true; return false; } bool XAutoLock::ignoreWindow( WId w ) { if( w != qt_xrootwin() && TQWidget::find( w )) return true; return false; } extern "C" void xautolock_resetTriggers() { self->resetTrigger(); } extern "C" void xautolock_setTrigger( time_t t ) { self->setTrigger( t ); } extern "C" int xautolock_ignoreWindow( Window w ) { return self->ignoreWindow( w ); }