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tdebase/kwin/sm.cpp

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/*****************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 1999, 2000 Matthias Ettrich <ettrich@kde.org>
Copyright (C) 2003 Lubos Lunak <l.lunak@kde.org>
You can Freely distribute this program under the GNU General Public
License. See the file "COPYING" for the exact licensing terms.
******************************************************************/
#include "sm.h"
#include <tqsocketnotifier.h>
#include <tqsessionmanager.h>
#include <kdebug.h>
#include <unistd.h>
#include <stdlib.h>
#include <pwd.h>
#include <fixx11h.h>
#include <kconfig.h>
#include <kglobal.h>
#include "workspace.h"
#include "client.h"
namespace KWinInternal
{
bool SessionManaged::saveState( TQSessionManager& sm )
{
// If the session manager is ksmserver, save stacking
// order, active window, active desktop etc. in phase 1,
// as ksmserver assures no interaction will be done
// before the WM finishes phase 1. Saving in phase 2 is
// too late, as possible user interaction may change some things.
// Phase2 is still needed though (ICCCM 5.2)
char* sm_vendor = SmcVendor( static_cast< SmcConn >( sm.handle()));
bool ksmserver = qstrcmp( sm_vendor, "KDE" ) == 0;
free( sm_vendor );
if ( !sm.isPhase2() )
{
Workspace::self()->sessionSaveStarted();
if( ksmserver ) // save stacking order etc. before "save file?" etc. dialogs change it
Workspace::self()->storeSession( kapp->sessionConfig(), SMSavePhase0 );
sm.release(); // Qt doesn't automatically release in this case (bug?)
sm.requestPhase2();
return true;
}
Workspace::self()->storeSession( kapp->sessionConfig(), ksmserver ? SMSavePhase2 : SMSavePhase2Full );
kapp->sessionConfig()->sync();
return true;
}
// I bet this is broken, just like everywhere else in KDE
bool SessionManaged::commitData( TQSessionManager& sm )
{
if ( !sm.isPhase2() )
Workspace::self()->sessionSaveStarted();
return true;
}
// Workspace
/*!
Stores the current session in the config file
\sa loadSessionInfo()
*/
void Workspace::storeSession( KConfig* config, SMSavePhase phase )
{
config->setGroup("Session" );
int count = 0;
int active_client = -1;
for (ClientList::Iterator it = clients.begin(); it != clients.end(); ++it)
{
Client* c = (*it);
TQCString sessionId = c->sessionId();
TQCString wmCommand = c->wmCommand();
if ( sessionId.isEmpty() )
// remember also applications that are not XSMP capable
// and use the obsolete WM_COMMAND / WM_SAVE_YOURSELF
if ( wmCommand.isEmpty() )
continue;
count++;
if( c->isActive())
active_client = count;
TQString n = TQString::number(count);
if( phase == SMSavePhase2 || phase == SMSavePhase2Full )
{
config->writeEntry( TQString("sessionId")+n, sessionId.data() );
config->writeEntry( TQString("windowRole")+n, c->windowRole().data() );
config->writeEntry( TQString("wmCommand")+n, wmCommand.data() );
config->writeEntry( TQString("wmClientMachine")+n, c->wmClientMachine( true ).data() );
config->writeEntry( TQString("resourceName")+n, c->resourceName().data() );
config->writeEntry( TQString("resourceClass")+n, c->resourceClass().data() );
config->writeEntry( TQString("geometry")+n, TQRect( c->calculateGravitation(TRUE), c->clientSize() ) ); // FRAME
config->writeEntry( TQString("restore")+n, c->geometryRestore() );
config->writeEntry( TQString("fsrestore")+n, c->geometryFSRestore() );
config->writeEntry( TQString("maximize")+n, (int) c->maximizeMode() );
config->writeEntry( TQString("fullscreen")+n, (int) c->fullScreenMode() );
config->writeEntry( TQString("desktop")+n, c->desktop() );
// the config entry is called "iconified" for back. comp. reasons
// (kconf_update script for updating session files would be too complicated)
config->writeEntry( TQString("iconified")+n, c->isMinimized() );
// the config entry is called "sticky" for back. comp. reasons
config->writeEntry( TQString("sticky")+n, c->isOnAllDesktops() );
config->writeEntry( TQString("shaded")+n, c->isShade() );
config->writeEntry( TQString("shadowed")+n, c->isShadowed() );
// the config entry is called "staysOnTop" for back. comp. reasons
config->writeEntry( TQString("staysOnTop")+n, c->keepAbove() );
config->writeEntry( TQString("keepBelow")+n, c->keepBelow() );
config->writeEntry( TQString("skipTaskbar")+n, c->skipTaskbar( true ) );
config->writeEntry( TQString("skipPager")+n, c->skipPager() );
config->writeEntry( TQString("userNoBorder")+n, c->isUserNoBorder() );
config->writeEntry( TQString("windowType")+n, windowTypeToTxt( c->windowType()));
config->writeEntry( TQString("shortcut")+n, c->shortcut().toStringInternal());
}
}
// TODO store also stacking order
if( phase == SMSavePhase0 )
{
// it would be much simpler to save these values to the config file,
// but both Qt and KDE treat phase1 and phase2 separately,
// which results in different sessionkey and different config file :(
session_active_client = active_client;
session_desktop = currentDesktop();
}
else if( phase == SMSavePhase2 )
{
config->writeEntry( "count", count );
config->writeEntry( "active", session_active_client );
config->writeEntry( "desktop", session_desktop );
}
else // SMSavePhase2Full
{
config->writeEntry( "count", count );
config->writeEntry( "active", session_active_client );
config->writeEntry( "desktop", currentDesktop());
}
}
/*!
Loads the session information from the config file.
\sa storeSession()
*/
void Workspace::loadSessionInfo()
{
session.clear();
KConfig* config = kapp->sessionConfig();
config->setGroup("Session" );
int count = config->readNumEntry( "count" );
int active_client = config->readNumEntry( "active" );
for ( int i = 1; i <= count; i++ )
{
TQString n = TQString::number(i);
SessionInfo* info = new SessionInfo;
session.append( info );
info->sessionId = config->readEntry( TQString("sessionId")+n ).latin1();
info->windowRole = config->readEntry( TQString("windowRole")+n ).latin1();
info->wmCommand = config->readEntry( TQString("wmCommand")+n ).latin1();
info->wmClientMachine = config->readEntry( TQString("wmClientMachine")+n ).latin1();
info->resourceName = config->readEntry( TQString("resourceName")+n ).latin1();
info->resourceClass = config->readEntry( TQString("resourceClass")+n ).lower().latin1();
info->geometry = config->readRectEntry( TQString("geometry")+n );
info->restore = config->readRectEntry( TQString("restore")+n );
info->fsrestore = config->readRectEntry( TQString("fsrestore")+n );
info->maximized = config->readNumEntry( TQString("maximize")+n, 0 );
info->fullscreen = config->readNumEntry( TQString("fullscreen")+n, 0 );
info->desktop = config->readNumEntry( TQString("desktop")+n, 0 );
info->minimized = config->readBoolEntry( TQString("iconified")+n, FALSE );
info->onAllDesktops = config->readBoolEntry( TQString("sticky")+n, FALSE );
info->shaded = config->readBoolEntry( TQString("shaded")+n, FALSE );
info->shadowed = config->readBoolEntry( TQString("shadowed")+n, TRUE );
info->keepAbove = config->readBoolEntry( TQString("staysOnTop")+n, FALSE );
info->keepBelow = config->readBoolEntry( TQString("keepBelow")+n, FALSE );
info->skipTaskbar = config->readBoolEntry( TQString("skipTaskbar")+n, FALSE );
info->skipPager = config->readBoolEntry( TQString("skipPager")+n, FALSE );
info->userNoBorder = config->readBoolEntry( TQString("userNoBorder")+n, FALSE );
info->windowType = txtToWindowType( config->readEntry( TQString("windowType")+n ).latin1());
info->shortcut = config->readEntry( TQString("shortcut")+n );
info->active = ( active_client == i );
}
}
/*!
Returns a SessionInfo for client \a c. The returned session
info is removed from the storage. It's up to the caller to delete it.
This function is called when a new window is mapped and must be managed.
We try to find a matching entry in the session.
May return 0 if there's no session info for the client.
*/
SessionInfo* Workspace::takeSessionInfo( Client* c )
{
SessionInfo *realInfo = 0;
TQCString sessionId = c->sessionId();
TQCString windowRole = c->windowRole();
TQCString wmCommand = c->wmCommand();
TQCString wmClientMachine = c->wmClientMachine( true );
TQCString resourceName = c->resourceName();
TQCString resourceClass = c->resourceClass();
// First search ``session''
if (! sessionId.isEmpty() )
{
// look for a real session managed client (algorithm suggested by ICCCM)
for (SessionInfo* info = session.first(); info && !realInfo; info = session.next() )
if ( info->sessionId == sessionId && sessionInfoWindowTypeMatch( c, info ))
{
if ( ! windowRole.isEmpty() )
{
if ( info->windowRole == windowRole )
realInfo = session.take();
}
else
{
if ( info->windowRole.isEmpty() &&
info->resourceName == resourceName &&
info->resourceClass == resourceClass )
realInfo = session.take();
}
}
}
else
{
// look for a sessioninfo with matching features.
for (SessionInfo* info = session.first(); info && !realInfo; info = session.next() )
if ( info->resourceName == resourceName &&
info->resourceClass == resourceClass &&
info->wmClientMachine == wmClientMachine &&
sessionInfoWindowTypeMatch( c, info ))
if ( wmCommand.isEmpty() || info->wmCommand == wmCommand )
realInfo = session.take();
}
return realInfo;
}
bool Workspace::sessionInfoWindowTypeMatch( Client* c, SessionInfo* info )
{
if( info->windowType == -2 )
{ // undefined (not really part of NET::WindowType)
return !c->isSpecialWindow();
}
return info->windowType == c->windowType();
}
// maybe needed later
#if 0
// KMainWindow's without name() given have WM_WINDOW_ROLE in the form
// of <appname>-mainwindow#<number>
// when comparing them for fake session info, it's probably better to check
// them without the trailing number
bool Workspace::windowRoleMatch( const TQCString& role1, const TQCString& role2 )
{
if( role1.isEmpty() && role2.isEmpty())
return true;
int pos1 = role1.find( '#' );
int pos2 = role2.find( '#' );
bool ret;
if( pos1 < 0 || pos2 < 0 || pos1 != pos2 )
ret = role1 == role2;
else
ret = tqstrncmp( role1, role2, pos1 ) == 0;
kdDebug() << "WR:" << role1 << ":" << pos1 << ":" << role2 << ":" << pos2 << ":::" << ret << endl;
return ret;
}
#endif
static const char* const window_type_names[] =
{
"Unknown", "Normal" , "Desktop", "Dock", "Toolbar", "Menu", "Dialog",
"Override", "TopMenu", "Utility", "Splash"
};
// change also the two functions below when adding new entries
const char* Workspace::windowTypeToTxt( NET::WindowType type )
{
if( type >= NET::Unknown && type <= NET::Splash )
return window_type_names[ type + 1 ]; // +1 (unknown==-1)
if( type == -2 ) // undefined (not really part of NET::WindowType)
return "Undefined";
kdFatal() << "Unknown Window Type" << endl;
return NULL;
}
NET::WindowType Workspace::txtToWindowType( const char* txt )
{
for( int i = NET::Unknown;
i <= NET::Splash;
++i )
if( qstrcmp( txt, window_type_names[ i + 1 ] ) == 0 ) // +1
return static_cast< NET::WindowType >( i );
return static_cast< NET::WindowType >( -2 ); // undefined
}
// KWin's focus stealing prevention causes problems with user interaction
// during session save, as it prevents possible dialogs from getting focus.
// Therefore it's temporarily disabled during session saving. Start of
// session saving can be detected in SessionManaged::saveState() above,
// but Qt doesn't have API for saying when session saved finished (either
// successfully, or was cancelled). Therefore, create another connection
// to session manager, that will provide this information.
// Similarly the remember feature of window-specific settings should be disabled
// during KDE shutdown when windows may move e.g. because of Kicker going away
// (struts changing). When session saving starts, it can be cancelled, in which
// case the shutdown_cancelled callback is invoked, or it's a checkpoint that
// is immediatelly followed by save_complete, or finally it's a shutdown that
// is immediatelly followed by die callback. So getting save_yourself with shutdown
// set disables window-specific settings remembering, getting shutdown_cancelled
// re-enables, otherwise KWin will go away after die.
static void save_yourself( SmcConn conn_P, SmPointer ptr, int, Bool shutdown, int, Bool )
{
SessionSaveDoneHelper* session = reinterpret_cast< SessionSaveDoneHelper* >( ptr );
if( conn_P != session->connection())
return;
if( shutdown )
Workspace::self()->disableRulesUpdates( true );
SmcSaveYourselfDone( conn_P, True );
}
static void die( SmcConn conn_P, SmPointer ptr )
{
SessionSaveDoneHelper* session = reinterpret_cast< SessionSaveDoneHelper* >( ptr );
if( conn_P != session->connection())
return;
// session->saveDone(); we will quit anyway
session->close();
}
static void save_complete( SmcConn conn_P, SmPointer ptr )
{
SessionSaveDoneHelper* session = reinterpret_cast< SessionSaveDoneHelper* >( ptr );
if( conn_P != session->connection())
return;
session->saveDone();
}
static void shutdown_cancelled( SmcConn conn_P, SmPointer ptr )
{
SessionSaveDoneHelper* session = reinterpret_cast< SessionSaveDoneHelper* >( ptr );
if( conn_P != session->connection())
return;
Workspace::self()->disableRulesUpdates( false ); // re-enable
// no need to differentiate between successful finish and cancel
session->saveDone();
}
void SessionSaveDoneHelper::saveDone()
{
Workspace::self()->sessionSaveDone();
}
SessionSaveDoneHelper::SessionSaveDoneHelper()
{
SmcCallbacks calls;
calls.save_yourself.callback = save_yourself;
calls.save_yourself.client_data = reinterpret_cast< SmPointer >(this);
calls.die.callback = die;
calls.die.client_data = reinterpret_cast< SmPointer >(this);
calls.save_complete.callback = save_complete;
calls.save_complete.client_data = reinterpret_cast< SmPointer >(this);
calls.shutdown_cancelled.callback = shutdown_cancelled;
calls.shutdown_cancelled.client_data = reinterpret_cast< SmPointer >(this);
char* id = NULL;
char err[ 11 ];
conn = SmcOpenConnection( NULL, 0, 1, 0,
SmcSaveYourselfProcMask | SmcDieProcMask | SmcSaveCompleteProcMask
| SmcShutdownCancelledProcMask, &calls, NULL, &id, 10, err );
if( id != NULL )
free( id );
if( conn == NULL )
return; // no SM
// set the required properties, mostly dummy values
SmPropValue propvalue[ 5 ];
SmProp props[ 5 ];
propvalue[ 0 ].length = sizeof( int );
int value0 = SmRestartNever; // so that this extra SM connection doesn't interfere
propvalue[ 0 ].value = &value0;
props[ 0 ].name = const_cast< char* >( SmRestartStyleHint );
props[ 0 ].type = const_cast< char* >( SmCARD8 );
props[ 0 ].num_vals = 1;
props[ 0 ].vals = &propvalue[ 0 ];
struct passwd* entry = getpwuid( geteuid() );
propvalue[ 1 ].length = entry != NULL ? strlen( entry->pw_name ) : 0;
propvalue[ 1 ].value = (SmPointer)( entry != NULL ? entry->pw_name : "" );
props[ 1 ].name = const_cast< char* >( SmUserID );
props[ 1 ].type = const_cast< char* >( SmARRAY8 );
props[ 1 ].num_vals = 1;
props[ 1 ].vals = &propvalue[ 1 ];
propvalue[ 2 ].length = 0;
propvalue[ 2 ].value = (SmPointer)( "" );
props[ 2 ].name = const_cast< char* >( SmRestartCommand );
props[ 2 ].type = const_cast< char* >( SmLISTofARRAY8 );
props[ 2 ].num_vals = 1;
props[ 2 ].vals = &propvalue[ 2 ];
propvalue[ 3 ].length = 0;
propvalue[ 3 ].value = tqApp->argv()[ 0 ];
props[ 3 ].name = const_cast< char* >( SmProgram );
props[ 3 ].type = const_cast< char* >( SmARRAY8 );
props[ 3 ].num_vals = 1;
props[ 3 ].vals = &propvalue[ 3 ];
propvalue[ 4 ].length = 0;
propvalue[ 4 ].value = (SmPointer)( "" );
props[ 4 ].name = const_cast< char* >( SmCloneCommand );
props[ 4 ].type = const_cast< char* >( SmLISTofARRAY8 );
props[ 4 ].num_vals = 1;
props[ 4 ].vals = &propvalue[ 4 ];
SmProp* p[ 5 ] = { &props[ 0 ], &props[ 1 ], &props[ 2 ], &props[ 3 ], &props[ 4 ] };
SmcSetProperties( conn, 5, p );
notifier = new TQSocketNotifier( IceConnectionNumber( SmcGetIceConnection( conn )),
TQSocketNotifier::Read, TQT_TQOBJECT(this) );
connect( notifier, TQT_SIGNAL( activated( int )), TQT_SLOT( processData()));
}
SessionSaveDoneHelper::~SessionSaveDoneHelper()
{
close();
}
void SessionSaveDoneHelper::close()
{
if( conn != NULL )
{
delete notifier;
SmcCloseConnection( conn, 0, NULL );
}
conn = NULL;
}
void SessionSaveDoneHelper::processData()
{
if( conn != NULL )
IceProcessMessages( SmcGetIceConnection( conn ), 0, 0 );
}
} // namespace
#include "sm.moc"