You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
tdebase/kdesktop/lockeng.cc

418 lines
10 KiB

//===========================================================================
//
// This file is part of the KDE project
//
// Copyright (c) 1999 Martin R. Jones <mjones@kde.org>
//
#include <config.h>
#include <stdlib.h>
#include <kstandarddirs.h>
#include <kapplication.h>
#include <kservicegroup.h>
#include <kdebug.h>
#include <klocale.h>
#include <tqfile.h>
#include <tqtimer.h>
#include <dcopclient.h>
#include <assert.h>
#include "lockeng.h"
#include "lockeng.moc"
#include "kdesktopsettings.h"
#include "xautolock_c.h"
extern xautolock_corner_t xautolock_corners[ 4 ];
bool trinity_lockeng_sak_available = TRUE;
//===========================================================================
//
// Screen saver engine. Doesn't handle the actual screensaver window,
// starting screensaver hacks, or password entry. That's done by
// a newly started process.
//
SaverEngine::SaverEngine()
: KScreensaverIface(),
TQWidget(),
mBlankOnly(false),
mSAKProcess(NULL)
{
// Save X screensaver parameters
XGetScreenSaver(qt_xdisplay(), &mXTimeout, &mXInterval,
&mXBlanking, &mXExposures);
mState = Waiting;
mXAutoLock = 0;
mEnabled = false;
connect(&mLockProcess, TQT_SIGNAL(processExited(KProcess *)),
TQT_SLOT(lockProcessExited()));
mSAKProcess = new KProcess;
*mSAKProcess << "kdmtsak";
connect(mSAKProcess, TQT_SIGNAL(processExited(KProcess*)), this, TQT_SLOT(slotSAKProcessExited()));
TQTimer::singleShot( 0, this, TQT_SLOT(handleSecureDialog()) );
configure();
}
//---------------------------------------------------------------------------
//
// Destructor - usual cleanups.
//
SaverEngine::~SaverEngine()
{
mLockProcess.detach(); // don't kill it if we crash
delete mXAutoLock;
// Restore X screensaver parameters
XSetScreenSaver(qt_xdisplay(), mXTimeout, mXInterval, mXBlanking,
mXExposures);
}
//---------------------------------------------------------------------------
// This should be called only using DCOP.
void SaverEngine::lock()
{
bool ok = true;
if (mState == Waiting)
{
mSAKProcess->kill(SIGTERM);
ok = startLockProcess( ForceLock );
// It takes a while for kdesktop_lock to start and lock the screen.
// Therefore delay the DCOP call until it tells kdesktop that the locking is in effect.
// This is done only for --forcelock .
if( ok && mState != Saving )
{
DCOPClientTransaction* trans = kapp->dcopClient()->beginTransaction();
mLockTransactions.append( trans );
}
}
else
{
mLockProcess.kill( SIGHUP );
}
}
void SaverEngine::processLockTransactions()
{
for( TQValueVector< DCOPClientTransaction* >::ConstIterator it = mLockTransactions.begin();
it != mLockTransactions.end();
++it )
{
TQCString replyType = "void";
TQByteArray arr;
kapp->dcopClient()->endTransaction( *it, replyType, arr );
}
mLockTransactions.clear();
}
void SaverEngine::saverLockReady()
{
if( mState != Preparing )
{
kdDebug( 1204 ) << "Got unexpected saverReady()" << endl;
}
kdDebug( 1204 ) << "Saver Lock Ready" << endl;
processLockTransactions();
}
//---------------------------------------------------------------------------
void SaverEngine::save()
{
if (mState == Waiting)
{
mSAKProcess->kill(SIGTERM);
startLockProcess( DefaultLock );
}
}
//---------------------------------------------------------------------------
void SaverEngine::quit()
{
if (mState == Saving || mState == Preparing)
{
stopLockProcess();
}
}
//---------------------------------------------------------------------------
bool SaverEngine::isEnabled()
{
return mEnabled;
}
//---------------------------------------------------------------------------
bool SaverEngine::enable( bool e )
{
if ( e == mEnabled )
return true;
// If we aren't in a suitable state, we will not reconfigure.
if (mState != Waiting)
return false;
mEnabled = e;
if (mEnabled)
{
if ( !mXAutoLock ) {
mXAutoLock = new XAutoLock();
connect(mXAutoLock, TQT_SIGNAL(timeout()), TQT_SLOT(idleTimeout()));
}
mXAutoLock->setTimeout(mTimeout);
mXAutoLock->setDPMS(true);
//mXAutoLock->changeCornerLockStatus( mLockCornerTopLeft, mLockCornerTopRight, mLockCornerBottomLeft, mLockCornerBottomRight);
// We'll handle blanking
XSetScreenSaver(qt_xdisplay(), mTimeout + 10, mXInterval, PreferBlanking, mXExposures);
kdDebug() << "XSetScreenSaver " << mTimeout + 10 << endl;
mXAutoLock->start();
kdDebug(1204) << "Saver Engine started, timeout: " << mTimeout << endl;
}
else
{
if (mXAutoLock)
{
delete mXAutoLock;
mXAutoLock = 0;
}
XForceScreenSaver(qt_xdisplay(), ScreenSaverReset );
XSetScreenSaver(qt_xdisplay(), 0, mXInterval, PreferBlanking, DontAllowExposures);
kdDebug(1204) << "Saver Engine disabled" << endl;
}
return true;
}
//---------------------------------------------------------------------------
bool SaverEngine::isBlanked()
{
return (mState != Waiting);
}
//---------------------------------------------------------------------------
void SaverEngine::handleSecureDialog()
{
// Wait for SAK press
mSAKProcess->start();
}
void SaverEngine::slotSAKProcessExited()
{
int retcode = mSAKProcess->exitStatus();
if ((retcode != 0) && (mSAKProcess->normalExit())) trinity_lockeng_sak_available = FALSE;
if ((mSAKProcess->normalExit()) && (trinity_lockeng_sak_available == TRUE)) {
bool ok = true;
if (mState == Waiting)
{
ok = startLockProcess( SecureDialog );
if( ok && mState != Saving )
{
}
}
else
{
mLockProcess.kill( SIGHUP );
}
}
}
//---------------------------------------------------------------------------
//
// Read and apply configuration.
//
void SaverEngine::configure()
{
// If we aren't in a suitable state, we will not reconfigure.
if (mState != Waiting)
return;
// create a new config obj to ensure we read the latest options
KDesktopSettings::self()->readConfig();
bool e = KDesktopSettings::screenSaverEnabled();
mTimeout = KDesktopSettings::timeout();
mEnabled = !e; // force the enable()
int action;
action = KDesktopSettings::actionTopLeft();
xautolock_corners[0] = applyManualSettings(action);
action = KDesktopSettings::actionTopRight();
xautolock_corners[1] = applyManualSettings(action);
action = KDesktopSettings::actionBottomLeft();
xautolock_corners[2] = applyManualSettings(action);
action = KDesktopSettings::actionBottomRight();
xautolock_corners[3] = applyManualSettings(action);
enable( e );
}
//---------------------------------------------------------------------------
//
// Set a variable to indicate only using the blanker and not the saver.
//
void SaverEngine::setBlankOnly( bool blankOnly )
{
mBlankOnly = blankOnly;
// FIXME: if running, stop and restart? What about security
// implications of this?
}
//---------------------------------------------------------------------------
//
// Start the screen saver.
//
bool SaverEngine::startLockProcess( LockType lock_type )
{
if (mState != Waiting)
return true;
kdDebug(1204) << "SaverEngine: starting saver" << endl;
emitDCOPSignal("KDE_start_screensaver()", TQByteArray());
if (mLockProcess.isRunning())
{
stopLockProcess();
}
mLockProcess.clearArguments();
TQString path = KStandardDirs::findExe( "kdesktop_lock" );
if( path.isEmpty())
{
kdDebug( 1204 ) << "Can't find kdesktop_lock!" << endl;
return false;
}
mLockProcess << path;
switch( lock_type )
{
case ForceLock:
mLockProcess << TQString( "--forcelock" );
break;
case DontLock:
mLockProcess << TQString( "--dontlock" );
break;
case SecureDialog:
mLockProcess << TQString( "--securedialog" );
break;
default:
break;
}
if (mBlankOnly)
mLockProcess << TQString( "--blank" );
if (mLockProcess.start() == false )
{
kdDebug( 1204 ) << "Failed to start kdesktop_lock!" << endl;
return false;
}
XSetScreenSaver(qt_xdisplay(), 0, mXInterval, PreferBlanking, mXExposures);
mState = Preparing;
if (mXAutoLock)
{
mXAutoLock->stop();
}
return true;
}
//---------------------------------------------------------------------------
//
// Stop the screen saver.
//
void SaverEngine::stopLockProcess()
{
if (mState == Waiting)
{
kdWarning(1204) << "SaverEngine::stopSaver() saver not active" << endl;
return;
}
kdDebug(1204) << "SaverEngine: stopping lock" << endl;
emitDCOPSignal("KDE_stop_screensaver()", TQByteArray());
mLockProcess.kill();
if (mEnabled)
{
if (mXAutoLock)
{
mXAutoLock->start();
}
XForceScreenSaver(qt_xdisplay(), ScreenSaverReset );
XSetScreenSaver(qt_xdisplay(), mTimeout + 10, mXInterval, PreferBlanking, mXExposures);
}
processLockTransactions();
mState = Waiting;
}
void SaverEngine::lockProcessExited()
{
kdDebug(1204) << "SaverEngine: lock exited" << endl;
if( mState == Waiting )
return;
emitDCOPSignal("KDE_stop_screensaver()", TQByteArray());
if (mEnabled)
{
if (mXAutoLock)
{
mXAutoLock->start();
}
XForceScreenSaver(qt_xdisplay(), ScreenSaverReset );
XSetScreenSaver(qt_xdisplay(), mTimeout + 10, mXInterval, PreferBlanking, mXExposures);
}
processLockTransactions();
mState = Waiting;
if (trinity_lockeng_sak_available == TRUE) {
handleSecureDialog();
}
}
//---------------------------------------------------------------------------
//
// XAutoLock has detected the required idle time.
//
void SaverEngine::idleTimeout()
{
// disable X screensaver
XForceScreenSaver(qt_xdisplay(), ScreenSaverReset );
XSetScreenSaver(qt_xdisplay(), 0, mXInterval, PreferBlanking, DontAllowExposures);
mSAKProcess->kill(SIGTERM);
startLockProcess( DefaultLock );
}
xautolock_corner_t SaverEngine::applyManualSettings(int action)
{
if (action == 0)
{
kdDebug() << "no lock" << endl;
return ca_nothing;
}
else
if (action == 1)
{
kdDebug() << "lock screen" << endl;
return ca_forceLock;
}
else
if (action == 2)
{
kdDebug() << "prevent lock" << endl;
return ca_dontLock;
}
else
{
kdDebug() << "no lock nothing" << endl;
return ca_nothing;
}
}